// Copyright (c) 2008-2010 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:
// PDP Connection Provider implementation
//
//
/**
@file
@internalComponent
*/
#include "PDPCPR.h"
#include <comms-infras/ss_log.h>
#include <comms-infras/ss_msgintercept.h>
#include <comms-infras/corecpractivities.h>
#include <elements/nm_address.h>
#include <comms-infras/ss_nodemessages_parameters.h>
#include <comms-infras/corescprstates.h>
#include <elements/mm_context.h>
#include <etelmm.h>
#include <etelpckt.h>
#include <comms-infras/ss_metaconnprov.h>
#include "PDPProvision.h"
#include <etel.h>
#include <networking/cfbearers.h>
#include "pdpcpravailabilitylistener.h"
#include <comms-infras/ss_nodemessages.h>
#include <networking/ipcpr_states.h>
#include <comms-infras/linkmessages.h>
#include <elements/nm_interfaces.h>
#include <cs_genevent.h>
#include <networking/etelbearers.h>
using namespace ESock;
//-=========================================================
//
// CPDPConnectionProvider methods
//
//-=========================================================
namespace PDPCprLinkCharacteristicActivity
{
DECLARE_DEFINE_NODEACTIVITY(ECFActivityParamRequest, PDPCprLinkCharacteristic, TCFScpr::TGetParamsRequest)
NODEACTIVITY_ENTRY(MeshMachine::KNoTag, PDPCprStates::TUpdateBundleAndRespondWithRetrievedParams, PRStates::TAwaitingParamRequest, MeshMachine::TNoTag)
NODEACTIVITY_END()
}
// Agent SCPR Going Down Activity
namespace PDPDataClientGoneDownActivity
{
DECLARE_DEFINE_NODEACTIVITY(ECFActivityDataClientGoneDown, PDPScprGoneDown, TCFControlProvider::TDataClientGoneDown)
// AwaitingDataClientGoneDown used rather than AlwaysAccept to mark data client EStopped
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingDataClientGoneDown, CoreNetStates::TNoTagOrNonDefault)
LAST_NODEACTIVITY_ENTRY(MeshMachine::KNoTag, PRStates::TSendGoneDown)
LAST_NODEACTIVITY_ENTRY(CoreNetStates::KNonDefault, MeshMachine::TDoNothing)
NODEACTIVITY_END()
}
namespace PDPCprActivities
{
DEFINE_ACTIVITY_MAP(activityMap)
ACTIVITY_MAP_ENTRY(PDPDataClientGoneDownActivity, PDPScprGoneDown)
ACTIVITY_MAP_ENTRY(PDPCprLinkCharacteristicActivity, PDPCprLinkCharacteristic)
ACTIVITY_MAP_END_BASE(CprActivities, coreCprActivities)
}
CPDPConnectionProvider* CPDPConnectionProvider::NewL(ESock::CConnectionProviderFactoryBase& aFactory)
{
CPDPConnectionProvider* provider = new (ELeave) CPDPConnectionProvider(aFactory);
CleanupStack::PushL(provider);
provider->ConstructL();
CleanupStack::Pop(provider);
return provider;
}
void CPDPConnectionProvider::StartListener()
/**
* Start listening for dynamic caps or network mode changes.
* @param None
* @return void
*/
{
iDynamicCapsEventListener->NotifyDynamicCapsChange(this);
iNetworkModeEventListener->NotifyNetworkModeChange(this);
}
void CPDPConnectionProvider::ConstructL()
/**
* PDP Connection Provider Second Phase Constructor
* @param None
* @return void
*/
{
CCoreConnectionProvider::ConstructL();
}
void CPDPConnectionProvider::StopListener()
/**
* Start listening for dynamic caps or network mode changes.
*/
{
if(iDynamicCapsEventListener)
{
iDynamicCapsEventListener->Cancel();
}
if(iNetworkModeEventListener)
{
iNetworkModeEventListener->Cancel();
}
}
CPDPConnectionProvider::CPDPConnectionProvider(ESock::CConnectionProviderFactoryBase& aFactory)
: CCoreConnectionProvider(aFactory, PDPCprActivities::activityMap::Self())
/**
* Construct PDP connection provider.
*/
{
LOG_NODE_CREATE(KESockConnectionTag, CPDPConnectionProvider);
}
CPDPConnectionProvider::~CPDPConnectionProvider()
/**
* Destroy PDP connection provider.
*/
{
LOG_NODE_DESTROY(KESockConnectionTag, CPDPConnectionProvider);
StopListener();
delete iDynamicCapsEventListener;
delete iNetworkModeEventListener;
}
void CPDPConnectionProvider::ReceivedL(const Messages::TRuntimeCtxId& aSender, const Messages::TNodeId& aRecipient, Messages::TSignatureBase& aMessage)
{
//ESOCK_DEBUG_MESSAGE_INTERCEPT(aSender, aMessage, aRecipient);
MeshMachine::TNodeContext<CPDPConnectionProvider> ctx(*this, aMessage, aSender, aRecipient);
CCoreConnectionProvider::Received(ctx);
User::LeaveIfError(ctx.iReturn);
}
void CPDPConnectionProvider::BearerChangeDetectedL()
/**
* Update the parmeter set in case of modulation change and send TPlaneNotification message to
* all the control client.
*/
{
//Update bearers.
UpdateBearer();
//Send msg to all control clients
CEventParamsChanged* eventChanged = CEventParamsChanged::NewL(KBearerInfo);
CleanupStack::PushL(eventChanged);
//Create the family and set it to bearer type
XBearerInfo* bearerInfo = XBearerInfo::NewL();
CleanupStack::PushL(bearerInfo);
bearerInfo->SetBearerType(iBearerType);
//Add bearer family to parameter set.
eventChanged->AddParameterSetL(KBearerInfo, bearerInfo);
CleanupStack::Pop(2,eventChanged);
//Create the event node for bearer change notification.
CRefCountOwnedNotification* eventNode = new (ELeave) CRefCountOwnedNotification(eventChanged);
//Build the CPR plane notification message, which will be retrieved by IPCPR.
TCFSubConnControlClient::TPlaneNotification msg(eventNode);
Messages::TClientIter<Messages::TDefaultClientMatchPolicy> iter = this->GetClientIter<Messages::TDefaultClientMatchPolicy>(Messages::TClientType(TCFClientType::ECtrl));
Messages::RNodeInterface* ctl;
while ((ctl = iter++) != NULL)
{
msg.iRefCountOwnedNotification->Open();
ctl->PostMessage(this->NodeId(), msg);
}
}
void CPDPConnectionProvider::UpdateBearer()
/**
* Update bearer type based on the change of the dynamic caps or network mode.
*/
{
//Get dynamic caps
TUint dynamicCaps = iDynamicCapsEventListener->DynamicCaps();
//Get network mode
RMobilePhone::TMobilePhoneNetworkMode networkMode = iNetworkModeEventListener->NetworkMode();
//Resolve the bearer based on both dynamic caps and network mode
iBearerType = Bearer(dynamicCaps, networkMode);
iBearerSet = ETrue;
}
TUint32 CPDPConnectionProvider::Bearer(TUint aDynamicCaps, RMobilePhone::TMobilePhoneNetworkMode& aNetworkMode)
/**
* Determine bearer based on dynamic caps and network mode.
* @param aDynamicCaps a value of dynamic caps
* @param aNetworkMode a value of network mode
* @return Type of Bearer
*
*/
{
if ((aDynamicCaps & RPacketService::KCapsHSUPA) || (aDynamicCaps & RPacketService::KCapsHSDPA))
{
return KHsdpaBearer;
}
else if (aDynamicCaps & RPacketService::KCapsEGPRS)
{
return KEGprsBearer;
}
else
{
if(aNetworkMode == RMobilePhone::ENetworkModeGsm)
{
return KGprsBearer;
}
else if(aNetworkMode == RMobilePhone::ENetworkModeWcdma)
{
return KUmtsBearer;
}
else
{
return KDefaultBearer;
}
}
}
DEFINE_SMELEMENT(PDPCprStates::TUpdateBundle, NetStateMachine::MStateTransition, PDPCprStates::TContext)
void PDPCprStates::TUpdateBundle::DoL()
/**
* Process TGetParamsRequest
*/
{
// Node receives TGetParamsRequest msg containing the bundle.
// Determine current network type - GPRS/EDGE/UMTS/HSDPA and update the bundle.
const CTSYProvision& tsyProvision = static_cast<const CTSYProvision&>(iContext.Node().AccessPointConfig().FindExtensionL(
STypeId::CreateSTypeId(CTSYProvision::EUid, CTSYProvision::ETypeId)));
if(!iContext.Node().iDynamicCapsEventListener)
{
iContext.Node().iDynamicCapsEventListener = CPDPCPRDynamicCapsListener::NewL(&tsyProvision);
}
if (!iContext.Node().iNetworkModeEventListener)
{
iContext.Node().iNetworkModeEventListener = CPDPCPRNetworkModeListener::NewL(&tsyProvision);
}
if(iContext.Node().iBearerSet == EFalse)
{
iContext.Node().UpdateBearer();
}
TCFScpr::TGetParamsRequest& paramRequest = Messages::message_cast<TCFScpr::TGetParamsRequest>(iContext.iMessage);
if( (! paramRequest.iFamilyBundle.IsNull()) && (iContext.Node().GetParameterBundle() != paramRequest.iFamilyBundle))
{
iContext.Node().GetParameterBundle().Open(paramRequest.iFamilyBundle);
RParameterFamily family = iContext.Node().GetParameterBundle().FindFamily(KBearerInfo);
if(!family.IsNull())
{
XBearerInfo *bearerType = static_cast<XBearerInfo*>(family.FindParameterSet(STypeId::CreateSTypeId(KIpBearerInfoUid, KIpBearerInfoParameterType), RParameterFamily::ERequested));
if(bearerType)
{
bearerType->SetBearerType(iContext.Node().iBearerType);
}
}
}
if(iContext.Node().iDynamicCapsEventListener->IsDynamicCapsSupported())
{
// if Dynamic Caps supported, start listener, which would Notify of Dynamic Caps change
// no check required for network mode, since atleast one network mode is supported.
iContext.Node().StartListener();
}
}