datacommsserver/esockserver/ssock/ss_connstates.cpp
author Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
Thu, 07 Jan 2010 13:34:53 +0200
changeset 1 21d2ab05f085
parent 0 dfb7c4ff071f
child 4 928ed51ddc43
permissions -rw-r--r--
Revision: 201001 Kit: 201001

// Copyright (c) 2005-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
//

#include "SS_conn.H"
#include "ss_connstates.h"
#include <comms-infras/ss_log.h>
#include <comms-infras/ss_coreprstates.h>
#include <comms-infras/ss_corepractivities.h>
#include "ss_subconn.h"
#include <comms-infras/ss_mcprnodemessages.h>
#include <elements/sm_core.h>
#include <commdbconnpref.h> //TCommDbConnPref
#include <ss_glob.h> //TCommDbConnPref
#include <connpref.h> //TConnPrefList
#include <etelpckt.h>
#include <comms-infras/metadata.h>
#include <comms-infras/esock_params.h> //TConnAPPref
#include <comms-infras/esock_params_internal.h> //TConnCSRPref

#include <comms-infras/es_connectionservparameterbundle.h> // CConnectionServParameterBundle
#include <comms-infras/es_accesspointstatus.h> // TAccessPointStatusFilter
#include <comms-infras/cs_connservparams.h> // XAccessPointGenericParameterSet
#include <comms-infras/cs_connservparams_internal.h>

#ifdef SYMBIAN_ENABLE_SPLIT_HEADERS
#include <es_enum_internal.h>
#include <nifvar_internal.h>
#endif

#include <elements/nm_messages_child.h>
#include <elements/nm_messages_peer.h>
#include <comms-infras/ss_nodemessages_dataclient.h>
#include <comms-infras/ss_nodemessages_legacy.h>
#include <comms-infras/ss_nodemessages_tiermanager.h>
#include <comms-infras/ss_nodemessages_serviceprovider.h>
#include <comms-infras/ss_nodemessages_internal_esock.h>
#include <comms-infras/ss_nodemessages_selector.h>
#include <comms-infras/ss_nodemessages_factory.h>
#include <comms-infras/ss_nodemessages_tiermanagerfactory.h>

#define SYMBIAN_NETWORKING_UPS

#ifdef SYMBIAN_NETWORKING_UPS
#include <comms-infras/ss_upsaccesspointconfigext.h>
#include <comms-infras/upsmessages.h>
#endif

#ifdef _DEBUG
// Panic category for "absolutely impossible!" vanilla ASSERT()-type panics from this module
// (if it could happen through user error then you should give it an explicit, documented, category + code)
_LIT(KSpecAssert_ESockSSockscnsts, "ESockSSockscnsts");
#endif

using namespace ESock;
using namespace SubSessActivities;
using namespace NetStateMachine;
using namespace ConnStates;
using namespace ConnActivities;
using namespace ConnectionServ;
using namespace Elements;
using namespace Messages;
using namespace MeshMachine;

//#ifdef LOG
//	#define KESockActivityTag KESockCoreProviderTag
//	_LIT8(KESockActivitySubTag, "esockactivity");
//#endif

_LIT (KCConnectionPanic,"CConnectionPanic");

void ConnPanic(TInt aCode)
	{
	User::Panic(KCConnectionPanic, aCode);
	}

//
//Start

DEFINE_SMELEMENT(ConnStates::TErrorIfAlreadyStartedAttached, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TErrorIfAlreadyStartedAttached::DoL()
	{
	__ASSERT_DEBUG((subsessmessage_cast<ECNStart>(&iContext.iMessage))
		|| (subsessmessage_cast<ECNAttach>(&iContext.iMessage)),
			ConnPanic(KPanicIncorrectMessage));
	RNodeInterface* sp = iContext.Node().ServiceProvider();
	User::LeaveIfError(sp? KErrAlreadyExists : KErrNone);
	}

DEFINE_SMELEMENT(ConnStates::TParseECNStart, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TParseECNStart::DoL()
	{
	__ASSERT_DEBUG((subsessmessage_cast<ECNStart>(&iContext.iMessage)), ConnPanic(KPanicIncorrectMessage));
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	ConnActivities::CStartAttachActivity& ac = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity);

    if (ac.Function() == ECNSetStartPrefs)
    	{
        //Extract preferences if ECNSetStartPrefs
    	TConnPref prefs;
		ac.ReadL(0, prefs);

   		if(prefs.ExtensionId() != TConnPref::EConnPrefEComList)
  			{
  			ac.SelectionPrefs().SetPrefs(prefs);
  			}
  		else
  			{
  			RBuf8 buffer;
  			TInt length = ac.GetDesLengthL(0);
  			buffer.CreateL(length);
  			CleanupClosePushL(buffer);
  			ac.ReadL(0, buffer);

  			TConnPrefList* prefsList = TConnPrefList::NewL();
  			CleanupStack::PushL(prefsList);
  			TPtrC8 ptr(buffer);
  			TInt ret = prefsList->Load(ptr);
  			User::LeaveIfError(ret);

  			//This loop is used to check that there is no more than 1 instance
  			//of TConnAPPref in the list passed to the CSR. This is not allowed
  			//(as it may have adverse effects in the construction of the stack)
  			//KErrArugment is returned if there is more than 1 instance present
  			TInt instances = 0;
  			for(TInt i=0; i<prefsList->Count(); i++)
  				{
  				TConnAPPref* pref = smetadata_cast<TConnAPPref>((*prefsList)[i]);
  				if(pref)
  				    {
  					instances++;
  				    }
  				}
  			if(instances > 1)
  			    {
  				User::Leave(KErrArgument);
  			    }

  			TConnCSRPref* csr = TConnCSRPref::NewL();
  			CleanupStack::PushL(csr);
  			ac.SetCSRPreferences(csr);
  			csr->SetScope(TSelectionPrefs::EExplicitConnection);
  			prefsList->AppendL(csr);

  			ac.SelectionPrefs().SetPrefs(*prefsList);
    		ac.SetConnPrefList(prefsList);

    		CleanupStack::Pop(csr);
    		CleanupStack::Pop(prefsList);
    		CleanupStack::PopAndDestroy(&buffer);
    		}
		
		// Complete the ECNSetStartPrefs, activity will be held until the 2nd IPC of the Start with Prefs
   		// call is received. Null iSubSession so that the 2nd IPC can be aquired by the activity.
   		ac.iMessage.Complete(KErrNone);
   		ac.iSubSession = NULL;
		}
    else
        {
		ac.iStartReceived = ETrue;
        ac.SetSelectionScope(TSelectionPrefs::EExplicitConnection);
        }
	}

DEFINE_SMELEMENT(ConnStates::TSendStartingSelectionStateChange, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TSendStartingSelectionStateChange::DoL()
	{
	//Send the relevant progress (don't use ReceivedL or you will warp), also use Null Activity id.
	RNodeInterface::OpenPostMessageClose(iContext.NodeId(), iContext.NodeId(), TCFMessage::TStateChange(TStateChange(KStartingSelection,KErrNone)).CRef());
	}

DEFINE_SMELEMENT(ConnStates::TClearProgressQueue, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TClearProgressQueue::DoL()
	{
	iContext.Node().iProgressQueue.Reset();		// clear progress notification cache
	iContext.Node().ResetLastProgressError();	// clear last progress in error
	// Initialise iLastProgress with an invalid progress rather than 0 (which is actually KConnectionUninitialised)
	// otherwise we can end up unintentionally filtering out a KConnectionUninitialised progress.
	const TInt KInvalidProgress = -1;
	iContext.Node().iLastProgress = TStateChange(KInvalidProgress, 0);
	iContext.Node().iLastProgressError = TStateChange();
	}

DEFINE_SMELEMENT(ConnStates::TRequestCSRCreation, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TRequestCSRCreation::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	__ASSERT_DEBUG(static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity).CSR().IsNull(), ConnPanic(KPanicExpectedNoCSR));
	iContext.iNodeActivity->PostRequestTo(SockManGlobals::Get()->GetPlaneFC(TCFPlayerRole(TCFPlayerRole::ETierMgrPlane)), TCFInternalEsock::TCreateCSR(iContext.Node().iTierId).CRef(), EFalse);
	}

DEFINE_SMELEMENT(ConnStates::TProcessCSRCreation, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TProcessCSRCreation::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	ConnActivities::CStartAttachActivity& ac = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity);
	__ASSERT_DEBUG(ac.CSR().IsNull(), User::Panic(KSpecAssert_ESockSSockscnsts, 1));
	ac.SetCSR(message_cast<TCFInternalEsock::TCSRCreated>(iContext.iMessage).iNodeId);

	
	RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), ac.CSR(),
		TCFMessage::TProvisionConnectionInfo(iContext.Node().ConnectionInfo()).CRef());
	}

DEFINE_SMELEMENT(ConnStates::TSelectMetaPlane, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TSelectMetaPlane::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	ConnActivities::CStartAttachActivity& ac = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity);

    //Diagnostic only. If attach then it must be ESelectFromExisting
    __ASSERT_DEBUG(!iContext.Node().IsMonitor()
    	|| ac.SelectionPrefs().Scope() & TSelectionPrefs::ESelectFromExisting, User::Panic(KSpecAssert_ESockSSockscnsts, 2));

	if(ac.SelectionPrefs().Prefs().ExtensionId() != TConnPref::EConnPrefEComList)
		{
		ac.SelectionPrefs().SetSubSessionUniqueId(iContext.Node().UniqueId());
		iContext.iNodeActivity->PostRequestTo(
			ac.CSR(),
			TCFSelector::TSimpleSelect(ac.SelectionPrefs()).CRef()
			);
		}
	else
		{
		ac.CSRPreferences()->SetSubSessionUniqueId(iContext.Node().UniqueId());
		RConnPrefList handle;
		handle.Open(ac.ConnPrefList());

		iContext.iNodeActivity->PostRequestTo(
			ac.CSR(),
			TCFSelector::TSelect(handle).CRef()
			);
		}
	}

DEFINE_SMELEMENT(ConnStates::TSendFinishedSelectionStateChange, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TSendFinishedSelectionStateChange::DoL()
	{
	//Send the relevant progress (don't use ReceivedL or you will warp), also use Null Activity id.
	RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), iContext.NodeId(),
		TCFMessage::TStateChange(TStateChange(KFinishedSelection,KErrNone)).CRef());
	}

DEFINE_SMELEMENT(ConnStates::TJoinReceivedCpr, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TJoinReceivedCpr::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	__ASSERT_DEBUG(iContext.Node().ServiceProvider()==NULL, ConnPanic(KPanicExpectedNoServiceProvider));

	TCFDataClient::TBindTo& bt = message_cast<TCFDataClient::TBindTo>(iContext.iMessage);
    iContext.Node().AddClientL(bt.iNodeId, TClientType(TCFClientType::EServProvider, TCFClientType::EActive));

    //If this is attach, we need to see if we are a monitor or not
    TClientType clientType(TCFClientType::ECtrl);

    TUint selPrefs = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity).SelectionPrefs().Flags();
    if (selPrefs & TSelectionPrefs::EMonitor)
    	{
		clientType.SetFlags(TCFClientType::EMonitor);
    	iContext.Node().iIsMonitor = ETrue;
    	}

	// If it is an attach set the flag cause it is used by NetUPS to check if a JoinRequest comes from an RConnection::Attach
	if (selPrefs & TSelectionPrefs::EAttach)
    	{
		clientType.SetFlags(TCFClientType::EAttach);
    	}
    iContext.iNodeActivity->PostRequestTo(bt.iNodeId,
    	TCFServiceProvider::TJoinRequest(iContext.NodeId(), clientType).CRef());
	}

DEFINE_SMELEMENT(ConnStates::TJoinReceivedSCpr, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TJoinReceivedSCpr::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	__ASSERT_DEBUG(iContext.iPeer == iContext.Node().ServiceProvider(), ConnPanic(KPanicExpectedNoServiceProvider));

	TCFServiceProvider::TCommsBinderResponse& br = message_cast<TCFServiceProvider::TCommsBinderResponse>(iContext.iMessage);
    iContext.Node().AddClientL(br.iNodeId, TClientType(TCFClientType::EServProvider, TCFClientType::EDefault));

    //If this is attach, we need to see if we are a monitor or not
    TCFClientType clientType(TCFClientType::ECtrl);

    TUint selPrefs = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity).SelectionPrefs().Flags();
    if (selPrefs & TSelectionPrefs::EMonitor)
    	{
		clientType.SetFlags(TCFClientType::EMonitor);
    	}

	// If it is an attach set the flag cause it is used by NetUPS to check if a JoinRequest comes from an RConnection::Attach
	if (selPrefs & TSelectionPrefs::EAttach)
    	{
		clientType.SetFlags(TCFClientType::EAttach);
    	}

    iContext.iNodeActivity->PostRequestTo(br.iNodeId,
    	TCFServiceProvider::TJoinRequest(iContext.NodeId(), clientType).CRef());
	}

DEFINE_SMELEMENT(ConnStates::TJoinReceivedMcpr, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TJoinReceivedMcpr::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	__ASSERT_DEBUG(iContext.Node().ServiceProvider()==NULL, ConnPanic(KPanicExpectedNoServiceProvider));

	TCFSelector::TSelectComplete& sc = message_cast<TCFSelector::TSelectComplete>(iContext.iMessage);
	iContext.Node().AddClientL(sc.iNodeId,TClientType(TCFClientType::EServProvider, TCFClientType::EAvailabilityProvider));


	iContext.iNodeActivity->PostRequestTo(sc.iNodeId,
		TCFServiceProvider::TJoinRequest(iContext.NodeId(), TCFClientType(TCFClientType::ECtrl)).CRef());
	}

DEFINE_SMELEMENT(ConnStates::TRequestCommsBinder, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TRequestCommsBinder::DoL()
	{
    __ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
    RNodeInterface* sp = iContext.Node().ServiceProvider();
    __ASSERT_DEBUG(sp, ConnPanic(KPanicNoServiceProvider));
    iContext.iNodeActivity->PostRequestTo(*sp,
    	TCFServiceProvider::TCommsBinderRequest(TSubConnOpen::EAttachToDefault).CRef());
	}

DEFINE_SMELEMENT(ConnStates::TRequestCommsBinderFromMcpr, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TRequestCommsBinderFromMcpr::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	TClientIter<TDefaultClientMatchPolicy> iter = iContext.Node().GetClientIter<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EServProvider, TCFClientType::EAvailabilityProvider));
	RNodeInterface* mcpr = iter[0];
	__ASSERT_DEBUG(mcpr, ConnPanic(KPanicNoAvailabilityProvider));
	iContext.iNodeActivity->PostRequestTo(*mcpr,
		TCFServiceProvider::TCommsBinderRequest().CRef());
	}

DEFINE_SMELEMENT(ConnStates::TProcessBinderResponseForCpr, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TProcessBinderResponseForCpr::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	__ASSERT_DEBUG(iContext.Node().ServiceProvider()==NULL, ConnPanic(KPanicExpectedNoServiceProvider));

	TCFServiceProvider::TCommsBinderResponse& br = message_cast<TCFServiceProvider::TCommsBinderResponse>(iContext.iMessage);

	iContext.Node().AddClientL(br.iNodeId, TClientType(TCFClientType::EServProvider, TCFClientType::EActive));

	//If this is attach, we need to see if we are a monitor or not
	TCFClientType clientType;

	TUint selPrefs = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity).SelectionPrefs().Flags();
	if (selPrefs & TSelectionPrefs::EMonitor)
		{
		clientType.SetFlags(TCFClientType::EMonitor);
		iContext.Node().iIsMonitor = ETrue;
		}

	if (selPrefs & TSelectionPrefs::EAttach)
		{
		clientType.SetFlags(TCFClientType::EAttach);
		}
	
	iContext.iNodeActivity->PostRequestTo(br.iNodeId,
		TCFServiceProvider::TJoinRequest(iContext.NodeId(), clientType).CRef());
	}

DEFINE_SMELEMENT(ConnStates::TStartConnection, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TStartConnection::DoL()
	{
	RNodeInterface* cpr = iContext.Node().ServiceProvider();
	__ASSERT_DEBUG(cpr, ConnPanic(KPanicNoServiceProvider));

	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
    iContext.iNodeActivity->PostRequestTo(*cpr, TCFServiceProvider::TStart().CRef());
	}

DEFINE_SMELEMENT(ConnStates::TErrorOrCancel, NetStateMachine::MStateFork, ConnStates::TContext)
/**
If the activity has been cancelled, return KCancelTag else return KErrorTag
 */
TInt ConnStates::TErrorOrCancel::TransitionTag()
	{
	if (iContext.Activity()->Error() == KErrCancel)
		{
		return ConnActivities::CStartAttachActivity::KCancelTag;
		}
	else
		{
		__ASSERT_DEBUG(iContext.Activity()->Error() != KErrNone, User::Panic(KSpecAssert_ESockSSockscnsts, 3));		// meant to be called in error conditions only
		return KErrorTag;
		}
	}

//
//Attach
DEFINE_SMELEMENT(ConnStates::TParseECNAttach, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TParseECNAttach::DoL()
	{
	__ASSERT_DEBUG((subsessmessage_cast<ECNAttach>(&iContext.iMessage)), ConnPanic(KPanicIncorrectMessage));
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	ConnActivities::CStartAttachActivity& ac = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity);

	//Read preferences
	const TUint KMaxConnectionInfoLength = 32;
	TBuf8<KMaxConnectionInfoLength> info;
	ac.ReadL(1,info);
	if (info.Length() < KConnInfoPart)
		{
		User::Leave(KErrArgument);
		}

	TUint monitorMode = (RConnection::TConnAttachType)ac.Int0() == RConnection::EAttachTypeMonitor?
		TSelectionPrefs::EMonitor : 0;
	// The attach flag should always be set since it is used by NetUPS to check if a JoinRequest comes from an RConnection::Attach
	ac.SetSelectionFlags(monitorMode | TSelectionPrefs::EAttach);

	TConnArgBase& connInfo = *((TConnArgBase*)&info[0]);
	if (connInfo.Version() < KConnArgVersion3)
		{
        TConnectionInfo& connI = static_cast<TConnectionInfo&>(connInfo);
        TCommDbConnPref pref;
		pref.SetIapId(connI.iIapId);
    	ac.SelectionPrefs().SetPrefs(pref);
    	ac.SetSelectionScope(TSelectionPrefs::ESelectFromExisting | TSelectionPrefs::EExplicitConnection);
		}
	else
		{
		__ASSERT_DEBUG(connInfo.Version() == KConnArgVersion3, User::Panic(KSpecAssert_ESockSSockscnsts, 4)); //Currently no support for > KConnArgVersion3;
		TConnProviderInfo& provinfo = static_cast<TConnProviderInfo&>(connInfo);
		__ASSERT_DEBUG(iContext.Node().iTierId.iUid == provinfo.iInfo[0], User::Panic(KSpecAssert_ESockSSockscnsts, 5));
    	ac.SelectionPrefs().SetPrefs(TConnProviderInfoPref(provinfo));
    	ac.SetSelectionScope(TSelectionPrefs::ESelectFromExisting);
		}
	}

DEFINE_SMELEMENT(ConnStates::TCompleteLegacyAttach, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TCompleteLegacyAttach::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	iContext.Node().iLegacyConnection.CompleteAttachL(static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity).SelectionPrefs());
	}


//
//WaitForIncoming
DEFINE_SMELEMENT(ConnStates::TRequestIncomingConnection, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TRequestIncomingConnection::DoL()
	{
	__ASSERT_DEBUG((subsessmessage_cast<ECNWaitForIncoming>(&iContext.iMessage)), ConnPanic(KPanicIncorrectMessage));
	RNodeInterface* sp = iContext.Node().ServiceProvider();
	User::LeaveIfError(sp ? KErrNone : KErrNotReady);

    iContext.iNodeActivity->PostRequestTo(*sp,
    	TCFServiceProvider::TCommsBinderRequest(TSubConnOpen::EWaitForIncoming).CRef());
	}

DEFINE_SMELEMENT(ConnStates::TProcessIncomingConnection, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TProcessIncomingConnection::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
    CSubConnection* waitingSubConn = iContext.Node().Session()->CSubConnectionFromHandle(static_cast<CESockClientActivityBase&>(*iContext.iNodeActivity).Int0());
	User::LeaveIfError(waitingSubConn != NULL ? KErrNone : KErrCancel);

    TCFServiceProvider::TCommsBinderResponse& binderResp = message_cast<TCFServiceProvider::TCommsBinderResponse>(iContext.iMessage);
    iContext.iNodeActivity->PostRequestTo(waitingSubConn->Id(),
        TCFDataClient::TBindTo(binderResp.iNodeId).CRef());
	}


//
//Stop
DEFINE_SMELEMENT(ConnStates::TSendStopConnection, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TSendStopConnection::DoL()
	{
	__ASSERT_DEBUG((subsessmessage_cast<ECNStop>(&iContext.iMessage)), ConnPanic(KPanicIncorrectMessage));
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	CESockClientActivityBase& ac = static_cast<CESockClientActivityBase&>(*iContext.iNodeActivity);

	//Convert the received enum (the stop type) into an error code that will be passed to the interface clients
	TInt stopCode = KErrCancel;
	switch (ac.Int0())
		{
		case RConnection::EStopNormal:
			stopCode = KErrCancel;
			break;
		case RConnection::EStopAuthoritative:
			stopCode = KErrConnectionTerminated;
			break;
		default:
			__ASSERT_DEBUG(EFalse, User::Panic(KSpecAssert_ESockSSockscnsts, 6));
		}

	RNodeInterface* sp = iContext.Node().ServiceProvider();
	if(sp)
		{ // We can only post the 'stop' if we've got a service provider and its not already leaving (e.g., gone down).
		if (!(sp->Flags() & TClientType::ELeaving))
		    {
			sp->PostMessage(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), TCFServiceProvider::TStop(stopCode).CRef());
		    }
		else
			{
			MESH_LOG((KESockConnectionTag, _L8("ConnStates::TSendStopConnection:\tDoL - IGNORING POST!")));
			}
		}
	else
		{ // Otherwise just set the activity idle and bail out.
		iContext.Activity()->SetIdle();
		}
	}

DEFINE_SMELEMENT(ConnStates::TConnectionSendStopSCPR, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TConnectionSendStopSCPR::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));

	TInt stopCode = 0;

	switch (static_cast<CESockClientActivityBase*>(iContext.iNodeActivity)->Int1())
		{
	case RConnection::EStopNormal:
		stopCode = KErrCancel;
		break;

	case RConnection::EStopAuthoritative:
		stopCode = KErrConnectionTerminated;
		break;

	default:
		__ASSERT_DEBUG( false , User::Panic(KSpecAssert_ESockSSockscnsts, 7)); // CConnection should have verified the parameters before stopping the subconnection
		}

	// Send the stop message to the subconnection.
	RNodeInterface* scpr = static_cast<CConnection&>(iContext.Node()).DefaultSubConnectionServiceProvider();
	__ASSERT_DEBUG( scpr , User::Panic(KSpecAssert_ESockSSockscnsts, 8)); // subconnection must exist or the stop operation should not have been initiated
	scpr->PostMessage(
		TNodeCtxId(iContext.ActivityId(), iContext.NodeId()),
		TCFServiceProvider::TStop(stopCode).CRef()
		);
	}

DEFINE_SMELEMENT(ConnStates::TCancelStartOrAttachConnection, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TCancelStartOrAttachConnection::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));

	if (iContext.Node().FindActivityById(ECFActivityStart))
		{
		RClientInterface::OpenPostMessageClose(
			TNodeCtxId(ECNStart, iContext.NodeId()),
			TNodeCtxId(ECNStart, iContext.NodeId()),
			TEBase::TCancel().CRef());
		}
	else if (iContext.Node().FindActivityById(ECFActivityConnectionAttach))
		{
		RClientInterface::OpenPostMessageClose(
			TNodeCtxId(ECNAttach, iContext.NodeId()),
			TNodeCtxId(ECNAttach, iContext.NodeId()),
			TEBase::TCancel().CRef());
		}
	}

//
//Close
DEFINE_SMELEMENT(ConnStates::TDetachDataClients, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TDetachDataClients::DoL()
	{
	while (ETrue)
    	{
    	TClientIter<TDefaultClientMatchPolicy> iter = iContext.Node().GetClientIter<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EData));
    	RNodeInterface* client = iter[0];
    	if (client)
        	{
#if defined(__GCCXML__)
        	CSubConnection& subconn = *reinterpret_cast<CSubConnection*>(&client->RecipientId().Node());
#else
        	CSubConnection& subconn = *mcfnode_cast<CSubConnection>(&client->RecipientId().Node());
#endif
        	iContext.Node().RemoveClient(subconn.Id());
        	subconn.RemoveClient(iContext.NodeId());
        	}
    	else
        	{
        	break;
        	}
    	}
	}

DEFINE_SMELEMENT(ConnStates::TStartOrAttachActive, NetStateMachine::MStateFork, ConnStates::TContext)
TInt ConnStates::TStartOrAttachActive::TransitionTag()
	{
	if (iContext.Node().FindActivityById(ECFActivityStart) || iContext.Node().FindActivityById(ECFActivityConnectionAttach))
		{
		return MeshMachine::KActiveTag;
		}
	return KNoTag;
	}

DEFINE_SMELEMENT(ConnStates::TAwaitingGoneDown, NetStateMachine::MState, ConnStates::TContext)
TBool ConnStates::TAwaitingGoneDown::Accept()
	{
	if (!iContext.iMessage.IsMessage<TCFControlClient::TGoneDown>())
    	{
    	return EFalse;
    	}

    //TODO - fix this defect:
    //1) TGoneDown should not be sent when stopping or closing
    //2) FindActivityById(ECFActivityStop) is not safe
    //3) why the condition iContext.Node().ServiceProvider()? Who can be sending TGoneDown if not the service provider?
    bool stoppingOrClosing = iContext.Node().FindActivityById(ECFActivityStop) || iContext.Node().FindActivityById(ECFActivityDestroy);
    if (!stoppingOrClosing && iContext.Node().ServiceProvider() &&
        *iContext.Node().ServiceProvider() == iContext.iSender)
        {
        return ETrue;
        }
    iContext.iMessage.ClearMessageId();
    return EFalse;
	}

DEFINE_SMELEMENT(ConnStates::TGenerateConnectionUpProgress, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TGenerateConnectionUpProgress::DoL()
	{
	TCFMessage::TStateChange msg(TStateChange(KConnectionUp, KErrNone));
	RNodeInterface::OpenPostMessageClose(iContext.Node().Id(), iContext.Node().Id(), msg);
	}

DEFINE_SMELEMENT(ConnStates::TGenerateConnectionDownProgress, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TGenerateConnectionDownProgress::DoL()
	{
	// Do not self-post a message if there is a pending ConnectionClose activity.  When the ConnectionGoingDown
	// activity (calling this method) terminates, the ConnectionClose activity unparks (being synchronised
	// against ConnectionGoingDown), the CConnection is destroyed, and the subsequent self-dispatch
	// will panic.
    __ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	TInt error = iContext.iNodeActivity->Error();

	if (error == KErrNone && iContext.iMessage.IsMessage<TCFServiceProvider::TStopped>())
		{
		error = message_cast<TCFServiceProvider::TStopped>(iContext.iMessage).iValue;
		}

    __ASSERT_DEBUG(error != KErrNone, ConnPanic(KPanicIncorrectState));
	
	if (iContext.Node().CountActivities(ECFActivityDestroy) == 0)
		{
		TCFMessage::TStateChange msg(TStateChange(KConnectionDown, error));
		CConnection& cc = iContext.Node();
		RNodeInterface::OpenPostMessageClose(cc.Id(), cc.Id(), msg);
		}
	}

//
//Progress & Progress Request
DEFINE_SMELEMENT(ConnStates::TProcessStateChange, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TProcessStateChange::DoL()
	{
	TStateChange& progress = message_cast<TCFMessage::TStateChange>(iContext.iMessage).iStateChange;

	//Check whether KDataTransferUnblocked is received and if yes, then traslate it to KConnectionUp (== KLinkLayerOpen)
	// the log only sees the translated version, this goes into the queue, so it alright I suppose.
	if (progress.iStage == KDataTransferUnblocked )
		{
		progress.iStage = KConnectionUp;	// KLinkLayerOpen
		}

	LOG( ESockLog::Printf(KESockConnectionTag, _L("CConnection %08x:\tProgressNotification(TInt aStage %d, TInt aError %d)"),
		&(iContext.Node()), progress.iStage, progress.iError) );

	//Diagnostic assertion.
	//If ECFActivityConnectionStateChangeRequest is running, it has not been
	//presented with the TStateChange message (channel activity id != 0?) which is a serious mistake.
	__ASSERT_DEBUG(iContext.Node().CountActivities(ECFActivityConnectionStateChangeRequest)==0, User::Panic(KSpecAssert_ESockSSockscnsts, 9));

	CConnection& cc = iContext.Node();
	if (cc.iLastProgress == progress)
		{
		return; //ignore this duplicate
		}
	cc.iLastProgress = progress;

	if (progress.iError != KErrNone)
		{
        cc.iLastProgressError = progress; //Save last progress in error for use by LastProgressErrorL()
    	}

	#ifdef ESOCK_LOGGING_ACTIVE
		// Check to see if the progress queue is full causing older progress to be discarded.
		// This has the potential to cause problems if a critical progress item is lost.
		// Normally the queue is large enough such that this doesn't happen but this log entry
		// serves as a warning if it ever does.
		if( cc.iProgressQueue.IsFull() )
			{
			LOG( ESockLog::Printf(KESockConnectionTag, _L("CConnection %08x:\tThe maximum progress queue size of %d has been exceeded - discarding old progress to make space for new item"), this, KMaxProgressQueueLength); )
			}
	#endif

	//Add the progress to queue
	cc.iProgressQueue.Enque(progress);
	}

DEFINE_SMELEMENT(ConnStates::TProcessProgressRequest, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TProcessProgressRequest::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	CESockClientActivityBase& ac = static_cast<CESockClientActivityBase&>(*iContext.iNodeActivity);
	TUint selectedProgressStage = ac.Int1();

	TStateChange progress;
	TBool found = EFalse;

	//Are we here as a result of receiving TStateChange (rather than ECNProgressNotification)?
	TCFMessage::TStateChange* msg = message_cast<TCFMessage::TStateChange>(&iContext.iMessage);
	if (msg)
		{ //Yes, we have been triggered by a TStateChange message
		//Check if this is the progress we are waiting for, otherwise dump the progress
		//Check whether KDataTransferUnblocked is received and if yes, then traslate it to KConnectionUp (== KLinkLayerOpen)
		if (msg->iStateChange.iStage == KDataTransferUnblocked )
			{
			msg->iStateChange.iStage = KConnectionUp;	// KLinkLayerOpen
			}
		if (selectedProgressStage == KConnProgressDefault
			|| selectedProgressStage == msg->iStateChange.iStage
				|| KErrNone != msg->iStateChange.iError)
			{
			progress = msg->iStateChange;
			found = ETrue;
			}
		}
	else
		{ //No, we must have been triggered by a ECNProgressNotification message
		__ASSERT_DEBUG((subsessmessage_cast<ECNProgressNotification>(&iContext.iMessage)), ConnPanic(KPanicIncorrectMessage));

		//Process the queue looking for the progress of interest
		found = iContext.Node().iProgressQueue.Deque(progress);
		if (found && selectedProgressStage != KConnProgressDefault)
			{
			// For a selected progress request, dequeue entries until we find one which
			// matches the criteria.  If we dequeue all entries, fall through without
			// completing the message.  It it not considered useful to retain un-matching
			// entries on the queue if a selected progress request is pending.
			while (found)
				{
				if (progress.iStage == selectedProgressStage || progress.iError != KErrNone)
					{
					break;
					}
				found = iContext.Node().iProgressQueue.Deque(progress);
				}
			}
		}

	if (found)
		{
		//We have found a progress of interest, finish
		TPckg<TStateChange> progressPkg(progress);
		ac.WriteL(0,progressPkg);
		ac.SetIdle(); //We are done
		}
	}


//
//Legacy enumeration
DEFINE_SMELEMENT(ConnStates::TAwaitingEnumResponse, NetStateMachine::MState, ConnStates::TContext)
TBool ConnStates::TAwaitingEnumResponse::Accept()
	{
	return iContext.iMessage.IsMessage<TCFInternalEsock::TLegacyConnectionEnumResponse>();
	}

DEFINE_SMELEMENT(ConnStates::TProcessEnumResponse, NetStateMachine::MStateTransition, ConnStates::TContext)
void ConnStates::TProcessEnumResponse::DoL()
	{
	TCFInternalEsock::TLegacyConnectionEnumResponse& msg = message_cast<TCFInternalEsock::TLegacyConnectionEnumResponse>(iContext.iMessage);
	iContext.Node().iLegacyConnection.CompleteDataPlaneEnumeration(address_cast<TNodeId>(iContext.iSender), msg.iValue1, reinterpret_cast<HBufC8*>(msg.iValue2), msg.iValue3);
	}


//
//CStartAttachActivity
MeshMachine::CNodeActivityBase* ConnActivities::CStartAttachActivity::NewWaitForIncomingConnectionActivityL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
	{
	//Leave from here will complete the client message
	User::LeaveIfError(aNode.CountActivities(ECFActivityStart)? KErrInUse : KErrNone);
	User::LeaveIfError(aNode.CountActivities(ECFActivityConnectionAttach)? KErrInUse : KErrNone);

	// When waiting for an incoming connection we will additionally check that the connection is already started
	User::LeaveIfError(aNode.CountClients<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EServProvider)) > 0 ? KErrNone : KErrNotReady );

	return new (ELeave) ConnActivities::CStartAttachActivity(aActivitySig,aNode);
	}

MeshMachine::CNodeActivityBase* ConnActivities::CStartAttachActivity::NewStartConnectionActivityL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
	{
	//Leave from here will complete the client message
	User::LeaveIfError(aNode.CountActivities(ECFActivityStart)? KErrInUse : KErrNone);
	User::LeaveIfError(aNode.CountActivities(ECFActivityConnectionAttach)? KErrInUse : KErrNone);

	// When starting a connection we will additionally check that the connection is not already started
	User::LeaveIfError(aNode.CountClients<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EServProvider)) > 0 ? KErrInUse : KErrNone);

	return new (ELeave) ConnActivities::CStartAttachActivity(aActivitySig,aNode);
	}

ConnActivities::CStartAttachActivity::~CStartAttachActivity()
	{
	// Call ABindingActivity base class to send TBindToComplete (before TDestroy)
	FinalReplyToOriginator(KErrAbort);

	if (!iCSR.IsNull())
		{
#ifndef __GCCXML__
		RNodeInterface::OpenPostMessageClose(TNodeCtxId(ActivityId(), iNode.Id()), iCSR, TEChild::TDestroy().CRef());
#endif
		iCSR.SetNull(); // = TNodeId::NullCommsId();
		}

	if(iConnPrefList)
		{
		while(iConnPrefList->Count() != 0)
			{
			SMetaData* pref = (*iConnPrefList)[0];
			if(pref != NULL)
				delete pref;
			iConnPrefList->Remove(0);
			}

		delete iConnPrefList;
		iConnPrefList = NULL;
		}
	}


TBool ConnActivities::CStartAttachActivity::Next(MeshMachine::TNodeContextBase& aContext)
    {
    // If the connection start preferences were set the activity will have completed the initial IPC and will
    // now be waiting upon the async ECNStart IPC to arrive before proceeding. The TCFInternalEsock::TSubSess
    // message will use the IPC number in the activity id part of aContext. MatchSender() will expect the
    // activity Id and so will never give a match. Here we ensure that our second IPC is matched and accepted.
    
    TCFInternalEsock::TSubSess* msg = message_cast<TCFInternalEsock::TSubSess>(&aContext.iMessage);
	if (!msg || (msg->iMessage.Function() != ECNStart && msg->iMessage.Function() != ECNSetStartPrefs))
        {
        return CNodeActivityBase::Next(aContext);
        }
    else if (iStartReceived)
        {
        // ECNSetStartPrefs should only ever be seen as the IPC in the TSubSess kick off message
        // ECNStart should only be seen once after an ECNSetStartPrefs or as the kick off message
        PanicClient(ETwice);
        aContext.iReturn = KErrInUse;
        return ETrue;
        }
    
    MESH_LOG((KESockConnectionTag, _L8("CStartAttachActivity::Next:\tAccepted ECNStart IPC after ECNSetStartPrefs")));
    TBool nextRet = ACore::Next(&aContext);
    if(nextRet)
        {
        MESH_LOG_ACTIVITY_EXT(KESockConnectionTag, this, &aContext, (_L8("CStartAttachActivity::Next:\tNext->transition")));
        }
    return nextRet;
    }


DEFINE_SMELEMENT(CStartAttachActivity::TNoTagOrStartPrefsSetTag, NetStateMachine::MStateFork, ConnStates::TContext)
TInt CStartAttachActivity::TNoTagOrStartPrefsSetTag::TransitionTag()
    {
    CStartAttachActivity& ac = static_cast<CStartAttachActivity&>(*iContext.iNodeActivity);

    if (ac.Function() == ECNSetStartPrefs)
        {
        return CStartAttachActivity::KStartPrefsSetTag | NetStateMachine::EForward;
        }
    return MeshMachine::KNoTag | NetStateMachine::EForward;
    }

DEFINE_SMELEMENT(CStartAttachActivity::TNoTagOrLegacyAttach, NetStateMachine::MStateFork, ConnStates::TContext)
TInt CStartAttachActivity::TNoTagOrLegacyAttach::TransitionTag()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	const TConnPref& cp = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity).SelectionPrefs().Prefs();
	if (cp.ExtensionId()==TConnPref::EConnPrefCommDb)
		{//this is legacy attach
		return CStartAttachActivity::KExecuteLegacyAttach;
		}
	return KNoTag;
	}

DEFINE_SMELEMENT(CStartAttachActivity::TNoTagOrWaitAvailable, NetStateMachine::MStateFork, ConnStates::TContext)
TInt CStartAttachActivity::TNoTagOrWaitAvailable::TransitionTag()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	ConnActivities::CStartAttachActivity& activity = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity);

	TConnPrefList* prefsList = activity.ConnPrefList();
	if (prefsList)
		{
		TBool startAuto = EFalse;
		for (TInt i = 0; i < prefsList->Count(); i++)
				{
				TConnAutoStartPref* pref = smetadata_cast<TConnAutoStartPref>((*prefsList)[i]);
				if(pref)
					{
					startAuto = ETrue;
					break;
					}
				}
		if (startAuto)
			{
			TBool &autoStart = activity.AutoStartPresent();
			autoStart = ETrue;
			iContext.iNodeActivity->ClearPostedTo();
			return KWaitAvailable;
			}

		}
	return KNoTag;
	}

DEFINE_SMELEMENT(CStartAttachActivity::TErrorTagOrWaitAvailableBackward, NetStateMachine::MStateFork, ConnStates::TContext)
TInt CStartAttachActivity::TErrorTagOrWaitAvailableBackward::TransitionTag()
	{
	__ASSERT_DEBUG((message_cast<TEBase::TError>(&iContext.iMessage)), ConnPanic(KPanicIncorrectMessage));
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	ConnActivities::CStartAttachActivity& activity = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity);

	if (!activity.AutoStartPresent())
		{
		return KErrorTag;
		}

	TEBase::TError& msg = message_cast<TEBase::TError>(iContext.iMessage);
	if (msg.iValue == KErrUmtsMaxNumOfContextExceededByNetwork ||
		msg.iValue == KErrUmtsMaxNumOfContextExceededByPhone)
		{
		return KWaitAvailable | NetStateMachine::EBackward;
		}
	else
		{
		return KErrorTag;
		}
	}

DEFINE_SMELEMENT(CStartAttachActivity::TAwaitingAvailableOrError, NetStateMachine::MState, TContext)
TInt CStartAttachActivity::TAwaitingAvailableOrError::Accept()
	{
	if (iContext.iMessage.IsMessage<TCFAvailabilityControlClient::TAvailabilityNotification>())
		{
		TCFAvailabilityControlClient::TAvailabilityNotification& msg = message_cast<TCFAvailabilityControlClient::TAvailabilityNotification>(iContext.iMessage);
		if (msg.iAvailabilityStatus.Score() > TAvailabilityStatus::EMinAvailabilityScore)
			{
			RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), iContext.iSender,
					TEBase::TCancel().CRef());
			return ETrue;
			}
		return EFalse;
		}
	else if (iContext.iMessage.IsMessage<TEBase::TError>())
		{
		TEBase::TError* msg = message_cast<TEBase::TError>(&iContext.iMessage);
		iContext.iNodeActivity->SetError(msg->iValue);
		return ETrue;
		}
	return EFalse;
	}


DEFINE_SMELEMENT(CStartAttachActivity::TSubscribeForAvailability, NetStateMachine::MStateTransition, TContext)
void CStartAttachActivity::TSubscribeForAvailability::DoL()
	{
	__ASSERT_DEBUG(iContext.iNodeActivity, ConnPanic(KPanicNoActivity));
	ConnActivities::CStartAttachActivity& activity = static_cast<ConnActivities::CStartAttachActivity&>(*iContext.iNodeActivity);

	TConnPrefList* connPrefList = activity.ConnPrefList();
	if (connPrefList && connPrefList->Count()>0)
		{
		TBool startAuto = EFalse;
		for (TInt i = 0; i < connPrefList->Count(); i++)
				{
				TConnAutoStartPref* pref = smetadata_cast<TConnAutoStartPref>((*connPrefList)[i]);
				if(pref)
					{
					startAuto = ETrue;
					break;
					}
				}
		if (startAuto)
			{
			TAvailabilitySubscriptionOptions subscriptionOptions;
			TClientIter<TDefaultClientMatchPolicy> iter = iContext.Node().GetClientIter<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EServProvider, TCFClientType::EAvailabilityProvider));
			RNodeInterface* mcpr = iter[0];
			__ASSERT_DEBUG(mcpr, ConnPanic(KPanicNoAvailabilityProvider));
			RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), mcpr->RecipientId(),
				TCFAvailabilityProvider::TAvailabilityNotificationRegistration(subscriptionOptions).CRef());
			}
		}
	}

DEFINE_SMELEMENT(CStartAttachActivity::TAwaitingSelectCompleteOrError, NetStateMachine::MState, TContext)
TInt CStartAttachActivity::TAwaitingSelectCompleteOrError::Accept()
	{
	if (iContext.iMessage.IsMessage<TCFSelector::TSelectComplete>())
		{
		return ETrue;
		}
	else if(iContext.iMessage.IsMessage<TEBase::TError>())
		{
		TEBase::TError& errorMsg = message_cast<TEBase::TError>(iContext.iMessage);
		iContext.Activity()->SetError(errorMsg.iValue);
		return ETrue;
		}

	return EFalse;
	}


#ifdef SYMBIAN_NETWORKING_UPS

DEFINE_SMELEMENT(CStartAttachActivity::TSendPolicyCheckRequestToServiceProvider, NetStateMachine::MStateTransition, ConnStates::TContext)
void CStartAttachActivity::TSendPolicyCheckRequestToServiceProvider::DoL()
	{
	MPlatsecApiExt* platsec = NULL;
	iContext.Node().ReturnInterfacePtrL(platsec);		// from CConnection
	// TODO: what to do on an error (see TODO below)
    __ASSERT_DEBUG(platsec, User::Panic(KSpecAssert_ESockSSockscnsts, 18));

	TProcessId processId;
	TThreadId threadId;
	TInt err = platsec->GetProcessAndThreadId(processId, threadId);
	if (err != KErrNone)
		{
		const TNodeId& self = iContext.Node().Id();
		iContext.Node().SelfInterface().PostMessage(self, TEBase::TError(err).CRef());
		iContext.Activity()->ClearPostedTo();
		}
	else
		{
		// KErrCorrupt is a default value for the platsec result.  The platsec result must be filled-in by the provider
		// and not ESock because only the provider knows the (technology specific) policy to check against.
		// Destination address is not valid in this context, so it is just a null descriptor.

		const TPolicyCheckRequestParams params(processId, threadId, KErrCorrupt, KNullDesC8(), TUpsDestinationAddrType(ETNone), iContext.NodeId());

		const UpsMessage::TPolicyCheckRequest checkMsg(params);

		RNodeInterface* serviceProvider = iContext.Node().ServiceProvider();

        __ASSERT_DEBUG(serviceProvider, User::Panic(KSpecAssert_ESockSSockscnsts, 19));
		iContext.Activity()->PostRequestTo(*serviceProvider, checkMsg);
		}
	}

DEFINE_SMELEMENT(CStartAttachActivity::TNoTagOrUpsErrorTag, NetStateMachine::MStateFork, ConnStates::TContext)
TInt CStartAttachActivity::TNoTagOrUpsErrorTag::TransitionTag()
	{
	UpsMessage::TPolicyCheckResponse* policyCheckResponseMsg = message_cast<UpsMessage::TPolicyCheckResponse>(&iContext.iMessage);
	if (policyCheckResponseMsg && policyCheckResponseMsg->iValue != KErrNone)
		{
		iContext.Activity()->SetError(policyCheckResponseMsg->iValue);
		return KUpsErrorTag;
		}
	else
		{
		TEBase::TError* errorMsg = message_cast<TEBase::TError>(&iContext.iMessage);
		// TODO: there is already code for this isn't there?  A template that checks for TError and
		// sets the activity in error?
		if (errorMsg)
			{
			iContext.Activity()->SetError(errorMsg->iValue);
			return KUpsErrorTag;
			}
		}
	return KNoTag;
	}
#endif

//
// CTierManagerActivity

MeshMachine::CNodeActivityBase* ConnActivities::CTierManagerActivity::NewL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
	{
	return new(ELeave) ConnActivities::CTierManagerActivity(aActivitySig, aNode);
	}

// States

DEFINE_SMELEMENT(CTierManagerActivity::TAwaitingTierManager, NetStateMachine::MState, TContext)
TInt CTierManagerActivity::TAwaitingTierManager::Accept()
	{
	if(iContext.iMessage.IsMessage<TCFFactory::TPeerFoundOrCreated>())
		{
		TCFFactory::TPeerFoundOrCreated& msg = message_cast<TCFFactory::TPeerFoundOrCreated>(iContext.iMessage);
		iContext.Activity()->iTierManager = msg.iNodeId;
		iContext.Activity()->ClearPostedTo();

		return ETrue;
		}
	else if(iContext.iMessage.IsMessage<TEBase::TCancel>())
		{
		iContext.Activity()->SetError(KErrCancel);

		return ETrue;
		}
	else if(iContext.iMessage.IsMessage<TEBase::TError>())
		{
		// Register the error
		TEBase::TError& errorMsg = message_cast<TEBase::TError>(iContext.iMessage);
		iContext.Activity()->SetError(errorMsg.iValue);

		return ETrue;
		}

	return EFalse;
	}

DEFINE_SMELEMENT(CTierManagerActivity::TAwaitingJoinComplete, NetStateMachine::MState, TContext)
TInt CTierManagerActivity::TAwaitingJoinComplete::Accept()
	{
	if(iContext.iMessage.IsMessage<TCFPeer::TJoinComplete>())
		{
		return ETrue;
		}
	else if(iContext.iMessage.IsMessage<TEBase::TCancel>())
		{
		iContext.Activity()->SetError(KErrCancel);

		return ETrue;
		}
	else if(iContext.iMessage.IsMessage<TEBase::TError>())
		{
		// Register the error
		TEBase::TError& errorMsg = message_cast<TEBase::TError>(iContext.iMessage);
		iContext.Activity()->SetError(errorMsg.iValue);

		return ETrue;
		}

	return EFalse;
	}

// Transitions

DEFINE_SMELEMENT(CTierManagerActivity::TFindTierManager, NetStateMachine::MStateTransition, TContext)
void CTierManagerActivity::TFindTierManager::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	// Find out if the tier UID has been set.
	TBool tierUidIsNull = (iContext.Activity()->iTierUid == TUid::Null());

	// Panic in UDEB, Leave in UREL. The tier UID should be set in the derived
	// class's constructor
	__ASSERT_DEBUG(!tierUidIsNull, User::Panic(KSpecAssert_ESockSSockscnsts, 10));
	User::LeaveIfError(tierUidIsNull ? KErrNotReady : KErrNone);
	TAlwaysFindFactoryQuery query;
	RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), SockManGlobals::Get()->GetPlaneFC(TCFPlayerRole(TCFPlayerRole::ETierMgrPlane)),
		 TCFFactory::TFindOrCreatePeer(TCFPlayerRole::ETierMgrPlane, iContext.Activity()->iTierUid, &query).CRef());
	}

DEFINE_SMELEMENT(CTierManagerActivity::TJoinTierManager, NetStateMachine::MStateTransition, TContext)
void CTierManagerActivity::TJoinTierManager::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), iContext.Activity()->iTierManager,
		TCFServiceProvider::TJoinRequest(iContext.NodeId(), TClientType(TCFClientType::EAdministrative)).CRef());

	iContext.Node().AddClientL(iContext.Activity()->iTierManager, TClientType(TCFClientType::EServProvider));
	}

// This solely exists separately from the other identical-looking version
//    in this file
//    ("AllInterfaceNotificationActivity::TLeaveTierManager::DoL()") because
//    the activities referenced by its TContext have iTierManager
//    at different offsets. This is because they have different parent
//    classes and, as such, have different member variable.
//
// The terrible thing is, this is usable in the other place,
//    and builds without complaint... then explodes when it tries
//    to send messages to a garbage iTierManager.
//
//    TAKE CARE OF IT!!!
DEFINE_SMELEMENT(CTierManagerActivity::TLeaveTierManager, NetStateMachine::MStateTransition, TContext)
void CTierManagerActivity::TLeaveTierManager::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), iContext.Activity()->iTierManager,
		TEChild::TLeft().CRef());

	iContext.Node().RemoveClient(iContext.Activity()->iTierManager);
	}

//
// CAllInterfaceNotificationActivity

CNodeActivityBase* ConnActivities::CAllInterfaceNotificationActivity::NewL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
	{
	return new (ELeave) ConnActivities::CAllInterfaceNotificationActivity(aActivitySig, aNode);
	}

ConnActivities::CAllInterfaceNotificationActivity::~CAllInterfaceNotificationActivity()
	{
	//Remove the only client here
	RNodeInterface* aux = iNode.GetFirstClient<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EAux));
	if (aux)
		{
		iNode.RemoveClient(aux->RecipientId());
		}
	delete iAllInterfaceNotificationWorker; //delete this node (why via iAllInterfaceNotificationWorker??)
	}

// States

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TAwaitingStart, NetStateMachine::MState, TContext)
TInt AllInterfaceNotificationActivity::TAwaitingStart::Accept()
	{
	return iContext.iMessage.IsMessage<TCFServiceProvider::TStart>();
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TAwaitingTierManager, NetStateMachine::MState, TContext)
TInt AllInterfaceNotificationActivity::TAwaitingTierManager::Accept()
	{
	if(iContext.iMessage.IsMessage<TCFFactory::TPeerFoundOrCreated>())
		{
		TCFFactory::TPeerFoundOrCreated& msg = message_cast<TCFFactory::TPeerFoundOrCreated>(iContext.iMessage);
		iContext.Activity()->iTierManager = msg.iNodeId;
		iContext.Activity()->ClearPostedTo();

		return ETrue;
		}
	return EFalse;
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TAwaitingJoinComplete, NetStateMachine::MState, TContext)
TInt AllInterfaceNotificationActivity::TAwaitingJoinComplete::Accept()
	{
	return iContext.iMessage.IsMessage<TCFPeer::TJoinComplete>();
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TAwaitingLinkNotification, NetStateMachine::MState, TContext)
TInt AllInterfaceNotificationActivity::TAwaitingLinkNotification::Accept()
	{
	return (iContext.iMessage.IsMessage<TCFTierStatusProvider::TTierNotification>() ||
			iContext.iMessage.IsMessage<TEBase::TCancel>() ||
			iContext.iMessage.IsMessage<TEBase::TError>() );
	}

void AllInterfaceNotificationActivity::TAwaitingLinkNotification::Cancel()
	{
	__ASSERT_DEBUG(0, User::Panic(KSpecAssert_ESockSSockscnsts, 11));
	}


// for shutdown
DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TAwaitingLinkNotificationError, NetStateMachine::MState, TContext)
TInt AllInterfaceNotificationActivity::TAwaitingLinkNotificationError::Accept()
	{
	if(iContext.iMessage.IsMessage<TCFTierStatusProvider::TTierNotification>())
		{
		// we're already shutting down. so have detached from CConnection.
		//  so we have to delete the enclosed object instead.
		LOG( ESockLog::Printf(KESockConnectionTag, _L("AllInterfaceNotification received bundle when already shutting down so deleting it")));
		TCFTierStatusProvider::TTierNotification& msg = message_cast<TCFTierStatusProvider::TTierNotification>(iContext.iMessage);
		msg.iBundle->Close();
       	iContext.iMessage.ClearMessageId();
		}
	else if(iContext.iMessage.IsMessage<TEBase::TCancel>())
		{
		LOG( ESockLog::Printf(KESockConnectionTag, _L("AllInterfaceNotification received TCancel when already shutting down so discarding it")));
       	iContext.iMessage.ClearMessageId();
		}

	return iContext.iMessage.IsMessage<TEBase::TError>();
	}


// Transitions

DEFINE_SMELEMENT(ConnectionGoingDownActivity::TStoreGoneDownError, NetStateMachine::MStateTransition, TContext)
void ConnectionGoingDownActivity::TStoreGoneDownError::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));
    TCFControlClient::TGoneDown& goneDownMessage = message_cast<TCFControlClient::TGoneDown>(iContext.iMessage);
	LOG( ESockLog::Printf(KESockConnectionTag, _L("TStoreGoneDownError. error:%d"), goneDownMessage.iValue1));
	iContext.Activity()->SetError(goneDownMessage.iValue1);
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TAddClient, NetStateMachine::MStateTransition, TContext)
void AllInterfaceNotificationActivity::TAddClient::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity() == NULL, ConnPanic(KPanicNoActivity));
	__ASSERT_DEBUG(iContext.iPeer == NULL, User::Panic(KSpecAssert_ESockSSockscnsts, 12));
	iContext.iPeer = iContext.Node().AddClientL(address_cast<TNodeId>(iContext.iSender), TClientType(TCFClientType::EAux));
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TFindTierManager, NetStateMachine::MStateTransition, TContext)
void AllInterfaceNotificationActivity::TFindTierManager::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	// Find out if the tier UID has been set.
	TBool tierUidIsNull = (iContext.Activity()->iTierUid == TUid::Null());

	// Panic in UDEB, Leave in UREL. The tier UID should be set in the derived
	// class's constructor
	__ASSERT_DEBUG(!tierUidIsNull, User::Panic(KSpecAssert_ESockSSockscnsts, 13));
	User::LeaveIfError(tierUidIsNull ? KErrNotReady : KErrNone);

	TAlwaysFindFactoryQuery query;
	RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), SockManGlobals::Get()->GetPlaneFC(TCFPlayerRole(TCFPlayerRole::ETierMgrPlane)),
		TCFFactory::TFindOrCreatePeer(TCFPlayerRole::ETierMgrPlane, iContext.Activity()->iTierUid, &query).CRef());
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TJoinTierManager, NetStateMachine::MStateTransition, TContext)
void AllInterfaceNotificationActivity::TJoinTierManager::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));


	RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), iContext.Activity()->iTierManager,
		TCFServiceProvider::TJoinRequest(iContext.NodeId(), TClientType(TCFClientType::EAdministrative)).CRef());

	iContext.Node().AddClientL(iContext.Activity()->iTierManager, TClientType(TCFClientType::EServProvider));
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TStartLinkNotification, NetStateMachine::MStateTransition, TContext)
void AllInterfaceNotificationActivity::TStartLinkNotification::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	CConnectionServParameterBundle* queryBundle = CConnectionServParameterBundle::NewL();
   	CleanupStack::PushL(queryBundle);
   	CRefCountOwnedParameterBundle* bundleOwner = new(ELeave)CRefCountOwnedParameterBundle(queryBundle);
   	CleanupStack::Pop();
   	bundleOwner->Open();
   	CleanupClosePushL(*bundleOwner);

	CParameterSetContainer* psc = CParameterSetContainer::NewL(*queryBundle);

	// Set up a status filter for connected access points only
	TAccessPointStatusFilter availFilter;
	availFilter.Configured(EAccessPointFlagIgnore);
	availFilter.Restricted(EAccessPointFlagIgnore);
	availFilter.Available(EAccessPointFlagIgnore);
	availFilter.Started(EAccessPointFlagIgnore);
	availFilter.Active(EAccessPointFlagMatchAny);
	queryBundle->AddMatchConditionL(availFilter);
	queryBundle->AddParameterSetToReturnL(XAccessPointGenericParameterSet::Type());
	queryBundle->AddParameterSetToReturnL(XIpProtoAccessPointParameterSet::Type());

   	const CAllInterfaceNotificationWorker* worker = iContext.Activity()->iAllInterfaceNotificationWorker;
   	const RMessage2* rm2 = &(iContext.Activity()->iAllInterfaceNotificationWorker->iConnection.Message());

   	RClientInterface::OpenPostMessageClose(worker->Id(), iContext.Activity()->iTierManager,
   		TCFTierStatusProvider::TTierNotificationRegistration(bundleOwner, rm2).CRef());
   	CleanupStack::Pop(); // bundleOwner
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TEnqueueNotification, NetStateMachine::MStateTransition, TContext)
void AllInterfaceNotificationActivity::TEnqueueNotification::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	TCFTierStatusProvider::TTierNotification& msg = message_cast<TCFTierStatusProvider::TTierNotification>(iContext.iMessage);

	__ASSERT_DEBUG(msg.iBundle, User::Panic(KSpecAssert_ESockSSockscnsts, 14));
	if(msg.iBundle->PtrL()->CountParamSetContainers() > 0)
		{
		TInt i = 0;
		TBool found = EFalse;
		while(const CConnectionServParameterSetContainer* container = static_cast<const CConnectionServParameterSetContainer*>(msg.iBundle->Ptr()->GetParamSetContainer(i++)))
			{
			const XAccessPointGenericParameterSet* status = XAccessPointGenericParameterSet::FindInParamSetContainer(*container);
			
			TConnInterfaceState interfaceState;
			if (status->AccessPointStatus().Active() == ConnectionServ::EAccessPointFlagTrue)
				{
				interfaceState = EInterfaceUp;
				}
			else
				{			
				interfaceState = EInterfaceDown;
				}

			const XIpProtoAccessPointParameterSet* ipApParams = XIpProtoAccessPointParameterSet::FindInParamSetContainer(*container);
//			ASSERT(ipApParams);
			if (ipApParams) // commsdat might be broken so XIpProtoAccessPointParameterSet not available
				{
				TConnectionInfo connectionInfo(ipApParams->IapId(), ipApParams->NetworkId());

				TInterfaceNotification notification = { connectionInfo,  interfaceState };

				iContext.Node().iConnection.iLegacyConnection.iNotificationQueue.Enque(notification);

				found = ETrue;
				}
			}
		if (found)
			iContext.Node().iConnection.iLegacyConnection.CompleteAllInterfaceNotificationL(KErrNone);

		}

	msg.iBundle->Close();
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TCancelLinkNotification, NetStateMachine::MStateTransition, TContext)
void AllInterfaceNotificationActivity::TCancelLinkNotification::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

   	TNodeId goo = iContext.Activity()->iTierManager;

   	const CAllInterfaceNotificationWorker* worker = iContext.Activity()->iAllInterfaceNotificationWorker;

	RNodeInterface::OpenPostMessageClose(worker->Id(), iContext.Activity()->iTierManager,
		TEBase::TCancel().CRef());
	}

// This solely exists separately from the other identical-looking version
//    in this file ("CTierManagerActivity::TLeaveTierManager::DoL()") because
//    the activities referenced by its TContext have iTierManager
//    at different offsets. This is because they have different parent
//    classes and, as such, have different member variable.
//
// The terrible thing is, this is usable in the other place,
//    and builds without complaint... then explodes when it tries
//    to send messages to a garbage iTierManager.
//
//    TAKE CARE OF IT!!!
DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TLeaveTierManager, NetStateMachine::MStateTransition, TContext)
void AllInterfaceNotificationActivity::TLeaveTierManager::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), iContext.Activity()->iTierManager,
		TEChild::TLeft().CRef());

	iContext.Node().RemoveClient(iContext.Activity()->iTierManager);
	}

DEFINE_SMELEMENT(AllInterfaceNotificationActivity::TSendErrorToConnection, NetStateMachine::MStateTransition, TContext)
void AllInterfaceNotificationActivity::TSendErrorToConnection::DoL()
	{
	iContext.Node().iConnection.iLegacyConnection.CompleteAllInterfaceNotificationL(iContext.Activity()->Error());

	TEBase::TError msg(iContext.Activity()->KickOffMessageId(), iContext.Activity()->Error());
	iContext.Activity()->PostToOriginators(msg);

	iContext.Activity()->SetError(KErrNone);
	}

DEFINE_SMELEMENT(TNoTagOrCancelAllInterfaceWorker, NetStateMachine::MStateFork, TContext)
TInt TNoTagOrCancelAllInterfaceWorker::TransitionTag()
	{
	// If this CConnection has an AllInterfaceNotificationWorker, return KCancelAllInterfaceWorker else return KNoTag.
	AConnectionLegacy& cl = iContext.Node().iLegacyConnection;
	return cl.iAllInterfaceNotificationWorker.IsNull() ? KNoTag : KCancelAllInterfaceWorker;
	}

DEFINE_SMELEMENT(TCancelAllInterfaceNotificationWorker, NetStateMachine::MStateTransition, TContext)
void TCancelAllInterfaceNotificationWorker::DoL()
	{
	CConnection& cc = iContext.Node();
	AConnectionLegacy& cl = cc.iLegacyConnection;
	// If this CConnection has an AllInterfaceNotificationWorker, send a TCancel to it to begin
	// the shutdown handshake.
	if(!cl.iAllInterfaceNotificationWorker.IsNull())
		{
		TNodeCtxId dest(ECFActivityConnectionAllInterfaceNotification, cl.iAllInterfaceNotificationWorker);
		RNodeInterface::OpenPostMessageClose(cc.Id(), dest, TEBase::TCancel().CRef());
		cl.iAllInterfaceNotificationWorker.SetNull();
		}
	}

//
// CEnumerateConnectionsActivity

MeshMachine::CNodeActivityBase* ConnActivities::CEnumerateConnectionsActivity::NewL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
	{
	return new(ELeave) ConnActivities::CEnumerateConnectionsActivity(aActivitySig, aNode);
	}

// States

DEFINE_SMELEMENT(EnumerateConnectionsActivity::TAwaitingTierStatus, NetStateMachine::MState, TContext)
TInt EnumerateConnectionsActivity::TAwaitingTierStatus::Accept()
	{
	TBool isTierStatus = iContext.iMessage.IsMessage<TCFTierStatusProvider::TTierStatus>();
	TBool isError = iContext.iMessage.IsMessage<TEBase::TError>();

	if(isTierStatus || isError)
		{
		// Leave the tier manager
		RNodeInterface::OpenPostMessageClose(TNodeCtxId(iContext.ActivityId(), iContext.NodeId()), iContext.Activity()->iTierManager,
			TEChild::TLeft().CRef());

		iContext.Node().RemoveClient(iContext.Activity()->iTierManager);
		}

	return isTierStatus;
	}

// Transitions

DEFINE_SMELEMENT(EnumerateConnectionsActivity::TQueryTierStatus, NetStateMachine::MStateTransition, TContext)
void EnumerateConnectionsActivity::TQueryTierStatus::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	// Clear the connection info cache
	iContext.Node().iLegacyConnection.iConnectionInfoPtrArray.ResetAndDestroy();

	CConnectionServParameterBundle* queryBundle = CConnectionServParameterBundle::NewL();
   	CleanupStack::PushL(queryBundle);
   	CRefCountOwnedParameterBundle* bundleOwner = new (ELeave)CRefCountOwnedParameterBundle(queryBundle);
   	CleanupStack::Pop(queryBundle);
   	bundleOwner->Open();
   	CleanupClosePushL(*bundleOwner);

	// Set up a status filter for connected access points only
	TAccessPointStatusFilter availFilter;
	availFilter.Configured(EAccessPointFlagIgnore);
	availFilter.Restricted(EAccessPointFlagIgnore);
	availFilter.Available(EAccessPointFlagIgnore);
	availFilter.Started(EAccessPointFlagIgnore);
	availFilter.Active(EAccessPointFlagMatchTrue);

	queryBundle->AddMatchConditionL(availFilter);
	queryBundle->AddParameterSetToReturnL(XIpProtoAccessPointParameterSet::Type());

   	RClientInterface::OpenPostMessageClose(iContext.NodeId(), iContext.Activity()->iTierManager,
   		TCFTierStatusProvider::TTierStatusQuery(bundleOwner, &iContext.Activity()->iMessage).CRef());
   	CleanupStack::Pop(); // bundleOwner
	}

DEFINE_SMELEMENT(EnumerateConnectionsActivity::TCompleteClient, NetStateMachine::MStateTransition, TContext)
void EnumerateConnectionsActivity::TCompleteClient::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	TPckg<TUint> pckg(iContext.Node().iLegacyConnection.iConnectionInfoPtrArray.Count());
	iContext.Activity()->WriteL(0, pckg);
	}

DEFINE_SMELEMENT(EnumerateConnectionsActivity::TCacheConnectionInfo, NetStateMachine::MStateTransition, TContext)
void EnumerateConnectionsActivity::TCacheConnectionInfo::DoL()
	{
	__ASSERT_DEBUG(iContext.Activity(), ConnPanic(KPanicNoActivity));

	TCFTierStatusProvider::TTierStatus& msg = message_cast<TCFTierStatusProvider::TTierStatus>(iContext.iMessage);

	const CConnectionServParameterSetContainer* container;
	const XIpProtoAccessPointParameterSet* ipApParams;

	for (TInt i=0; i<msg.iBundle->PtrL()->CountParamSetContainers(); i++)
		{
		container = static_cast<const CConnectionServParameterSetContainer*>(msg.iBundle->Ptr()->GetParamSetContainer(i));

		ipApParams = XIpProtoAccessPointParameterSet::FindInParamSetContainer(*container);
		__ASSERT_DEBUG(ipApParams, User::Panic(KSpecAssert_ESockSSockscnsts, 16));

		TSourcedConnectionInfo* connInfo = new(ELeave) TSourcedConnectionInfo(ipApParams->IapId(), ipApParams->NetworkId(), ipApParams->ConnectionType(), ipApParams->ControlClientId());
		iContext.Node().iLegacyConnection.iConnectionInfoPtrArray.AppendL(connInfo);
		}

	msg.iBundle->Close();
	}

DEFINE_SMELEMENT(ConnectionCleanupActivities::TNoTagOrNoTagBackwards, NetStateMachine::MStateFork, TContext)
TInt ConnectionCleanupActivities::TNoTagOrNoTagBackwards::TransitionTag()
    {
	if ( iContext.iMessage.IsMessage<TEPeer::TLeaveComplete>() )
		{
//		__ASSERT_DEBUG(iContext.Node().GetClientIter(RNodeInterface::ECtrl|RNodeInterface::EData)[0] == NULL,
//		User::Panic(KCorePRPanic, KPanicClientsStillPresent));
		if (iContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(TCFClientType(TCFClientType::EServProvider)) == NULL)
			{ // This was the last service provider
			return NetStateMachine::EForward | MeshMachine::KNoTag;
			}
		// There are more service providers to expect 'leave complete' from so
		// loop round and wait for the next one.
		return NetStateMachine::EBackward | MeshMachine::KNoTag;
		}
    __ASSERT_DEBUG(EFalse, User::Panic(KSpecAssert_ESockSSockscnsts, 17));
    return KNoTag;
    }

DEFINE_SMELEMENT(ConnSubConnEventsActivity::TAwaitingSubConnEvent, NetStateMachine::MState, TContext)
TInt ConnSubConnEventsActivity::TAwaitingSubConnEvent::Accept()
	{
	if(iContext.iMessage.IsMessage<TCFInternalEsock::TSubConnectionOpenedEvent>() ||
	   iContext.iMessage.IsMessage<TCFInternalEsock::TSubConnectionClosedEvent>())
		{
		return ETrue;
		}
	return EFalse;
	}

DEFINE_SMELEMENT(ConnSubConnEventsActivity::TProcessSubConnEvent, NetStateMachine::MStateTransition, TContext)
void ConnSubConnEventsActivity::TProcessSubConnEvent::DoL()
	{
	CConnection& conn = static_cast<CConnection&>(iContext.Node());

	if(iContext.iMessage.IsMessage<TCFInternalEsock::TSubConnectionOpenedEvent>())
		{
		const TCFInternalEsock::TSubConnectionOpenedEvent& msg = message_cast<TCFInternalEsock::TSubConnectionOpenedEvent>(iContext.iMessage);
		conn.iLegacyConnection.SubConnectionEvent(msg.iSubConnectionOpenedEvent);
		}
	else
		{
		const TCFInternalEsock::TSubConnectionClosedEvent& msg = message_cast<TCFInternalEsock::TSubConnectionClosedEvent>(iContext.iMessage);
		conn.iLegacyConnection.SubConnectionEvent(msg.iSubConnectionClosedEvent);
		}
	}

CNodeActivityBase* CConnLegacyRMessage2Activity::NewL( const TNodeActivity& aActivitySig, AMMNodeBase& aNode )
	{
	TUint c = GetNextActivityCountL(aActivitySig,aNode);
	return new (ELeave) CConnLegacyRMessage2Activity( aActivitySig, aNode, c);
	}
	
CConnLegacyRMessage2Activity::CConnLegacyRMessage2Activity( const TNodeActivity& aActivitySig, AMMNodeBase& aNode, TUint aNextActivityCount)
	: MeshMachine::CNodeParallelMessageStoreActivityBase(aActivitySig, aNode, aNextActivityCount)
	{
	}

CConnLegacyRMessage2Activity::~CConnLegacyRMessage2Activity()
	{
	if (Error() != KErrNone)
		{
		Complete(Error());
		}
	if (!iCancelMessage.IsNull())
		{
		iCancelMessage.Complete(KErrNone);
		}
	SetError(KErrNone);
	}

void CConnLegacyRMessage2Activity::PanicClient(const TDesC& aCatagory, TInt aCode)
	{
	if (!iSafeMessage.IsNull())
		{
		iSafeMessage.PanicClient(aCatagory, aCode);
		}
	}

void CConnLegacyRMessage2Activity::Complete(TInt aCode)
	{
	if (!iSafeMessage.IsNull())
		{
		iSafeMessage.Complete(aCode);
		}
	}

void CConnLegacyRMessage2Activity::SetCancelRequest(const Den::RSafeMessage& aMessage)
	{
	iCancelMessage.Duplicate(aMessage);
	}


DEFINE_SMELEMENT(TProcessLegacyRMessage2, NetStateMachine::MStateTransition, TContext)
void TProcessLegacyRMessage2::DoL()
	{
	ASSERT(iContext.iMessage.IsTypeOf(Meta::STypeId::CreateSTypeId(TCFSigLegacyRMessage2Ext::EUid, TCFSigLegacyRMessage2Ext::ETypeId)));
	// static_cast as it will be a derivative and message_cast won't work
	CConnLegacyRMessage2Activity* act = static_cast<CConnLegacyRMessage2Activity*>(iContext.Activity());
	TCFSigLegacyRMessage2Ext& msg = static_cast<TCFSigLegacyRMessage2Ext&>(iContext.iMessage);
	act->iSafeMessage.Duplicate(msg.iMessage);
	
	if (msg.CanProcess(iContext))
		{
		msg.ProcessL(iContext);
		}
	else
		{
		msg.ForwardL(iContext);
		}
	}

DEFINE_SMELEMENT(TCompleteRMessage2, NetStateMachine::MStateTransition, TContext)
void TCompleteRMessage2::DoL()
	{
	TCFLegacyMessage::TLegacyRMessage2Processed& msg = message_cast<TCFLegacyMessage::TLegacyRMessage2Processed>(iContext.iMessage);
	CConnLegacyRMessage2Activity* act = static_cast<CConnLegacyRMessage2Activity*>(iContext.Activity());

    if (msg.iResponse.iType == TLegacyRMessage2Response::EPanic)
		{
		act->PanicClient(msg.iResponse.iCatagory, msg.iResponse.iCode);
		}
    else
		{
		ASSERT(act->Message().IsTypeOf(Meta::STypeId::CreateSTypeId(TCFSigLegacyRMessage2Ext::EUid, TCFSigLegacyRMessage2Ext::ETypeId)));
		TInt error = static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).CheckError(iContext, msg.iResponse.iCode);
		act->Complete(error);
		}
	}

DEFINE_SMELEMENT(THandleRMessage2Error, NetStateMachine::MStateTransition, ConnStates::TContext)
void THandleRMessage2Error::DoL()
    {
    CConnLegacyRMessage2Activity* act = static_cast<CConnLegacyRMessage2Activity*>(iContext.Activity());
	
	ASSERT(act->Message().IsTypeOf(Meta::STypeId::CreateSTypeId(TCFSigLegacyRMessage2Ext::EUid, TCFSigLegacyRMessage2Ext::ETypeId)));
	TInt error = static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).CheckError(iContext, act->Error());
	act->SetError(error);
	act->Complete(error);
    }


DEFINE_SMELEMENT(TCancelAllLegacyRMessage2Activities, NetStateMachine::MStateTransition, TContext)
void TCancelAllLegacyRMessage2Activities::DoL()
	{
	const RPointerArray<CNodeActivityBase>& activities = iContext.Node().Activities();

	for (TInt i = 0; i < activities.Count(); i++)
		{
		if (activities[i]->ActivitySigId() == ESock::ECFActivityConnectionLegacyRMessage2Handler)
			{
			activities[i]->Cancel(iContext);
			}
		}
	}