// Copyright (c) 2006-2009 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:
// COREPRACTIVITIES.CPP
// Core PR Activities
// THIS API IS INTERNAL TO NETWORKING AND IS SUBJECT TO CHANGE AND NOT FOR EXTERNAL USE
//
//
/**
@file
@internalComponent
*/
#define SYMBIAN_NETWORKING_UPS
#include "ss_corepractivities.h"
#include <comms-infras/ss_log.h>
#include "ss_internal_activities.h"
#include <comms-infras/ss_coreprstates.h>
#include <comms-infras/ss_subconnprov.h>
#include <comms-infras/ss_mcprnodemessages.h>
#include <comms-infras/ss_protocolparameterset.h>
#include <ss_glob.h>
#include <elements/nm_messages_child.h>
#include <elements/nm_messages_peer.h>
#include <elements/nm_messages_errorrecovery.h>
#include "ss_nodemessages_dataclient.h"
#include "ss_nodemessages_serviceprovider.h"
#include <comms-infras/ss_nodemessages_rejoiningprovider.h>
#include <comms-infras/ss_nodemessages_flow.h>
#include "ss_nodemessages_factory.h"
#include <comms-infras/ss_nodemessages_internal_esock.h>
#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_ESockCrStaCPRAC, "ESockCrStaCPRAC");
#endif
#if defined __CFLOG_ACTIVE || defined ESOCK_EXTLOG_ACTIVE
#define KCoreProviderStatesTag KESockCoreProviderTag
_LIT8(KCoreProviderStatesSubTag, "coreprovstate");
#endif
using namespace NetStateMachine;
using namespace CoreStates;
using namespace CoreNetStates;
using namespace PRStates;
using namespace PRActivities;
using namespace CoreActivities;
using namespace ESock;
using namespace CorePanics;
using namespace Elements;
using namespace Messages;
using namespace MeshMachine;
using namespace Factories;
#ifdef _DEBUG
_LIT (KCorePrPanic,"CorePrPanic");
#endif
namespace CoreErrorActivity
{ //Special parallel activity, must be started as the last one
DEFINE_EXPORT_CUSTOM_NODEACTIVITY(ECFActivityError, CoreError, TEBase::TError, CErrorActivity::NewL)
FIRST_NODEACTIVITY_ENTRY(CErrorActivity::TCFAwaitingError, MeshMachine::TNoTag)
NODEACTIVITY_ENTRY(KNoTag, CErrorActivity::TSendErrorRecoveryReq, MeshMachine::TAwaitingMessageState<TEErrorRecovery::TErrorRecoveryResponse>, MeshMachine::TNoTag)
LAST_NODEACTIVITY_ENTRY(KNoTag, CErrorActivity::TDoErrorRecovery)
NODEACTIVITY_END()
}
namespace PRProvisionActivity
{
DECLARE_DEFINE_NODEACTIVITY(ECFActivityStoreProvision, PrProvision, TCFDataClient::TProvisionConfig)
NODEACTIVITY_ENTRY(KNoTag, PRStates::TStoreProvision, CoreNetStates::TAwaitingProvision, MeshMachine::TNoTag)
NODEACTIVITY_END()
}
namespace PRControlClientJoinActivity
{
DEFINE_EXPORT_NODEACTIVITY(ECFActivityClientJoin, PRControlClientJoin, TNodeSignal::TNullMessageId) //May be waiting for both messages
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TAddControlClientAndSendJoinCompleteIfRequest, CoreNetStates::TAwaitingControlClientJoin, MeshMachine::TNoTag)
NODEACTIVITY_END()
}
namespace PRDataClientJoinActivity
{ //This activity needs the activity object (& it can fail on AddClientL, so no point converting)
DEFINE_EXPORT_NODEACTIVITY(ECFActivityDataClientJoin, PRDataClientJoin, TCFPeer::TJoinRequest)
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingDataClientJoinRequest, MeshMachine::TNoTag)
LAST_NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TAddDataClientAndRespond)
NODEACTIVITY_END()
}
namespace PRClientLeaveActivity
{//This activity will wait for ECFActivityBinderRequest to complete
DEFINE_EXPORT_NODEACTIVITY(ECFActivityClientLeave, PRClientLeave, TNodeSignal::TNullMessageId) //May be waiting for both messages
NODEACTIVITY_ENTRY(KNoTag, PRStates::TProcessClientLeave, CoreStates::TAwaitingClientLeave, MeshMachine::TNoTag)
NODEACTIVITY_END()
}
namespace PRDataClientIdleActivity
{
DEFINE_EXPORT_NODEACTIVITY(ECFActivityDataClientIdle, PRDataClientIdle, TCFControlProvider::TIdle)
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::THandleDataClientIdle, CoreNetStates::TAwaitingDataClientIdle, MeshMachine::TNoTag)
NODEACTIVITY_END()
}
namespace PRDataClientActiveActivity
{
DEFINE_EXPORT_NODEACTIVITY(ECFActivityDataClientActive, PRDataClientActive, TCFControlProvider::TActive)
NODEACTIVITY_ENTRY(KNoTag, MeshMachine::TDoNothing, CoreNetStates::TAwaitingDataClientActive, MeshMachine::TNoTag)
NODEACTIVITY_END()
}
namespace PRDestroyActivity
{
//The generic Destroy activity. Carries out the node's goodbye handshake.
DECLARE_DEFINE_CUSTOM_NODEACTIVITY(ECFActivityDestroy, PRDestroy, TEChild::TDestroy, CoreActivities::CDestroyActivity::New)
FIRST_NODEACTIVITY_ENTRY(MeshMachine::TAwaitingDestroy, CoreActivities::CDestroyActivity::TNoTagBlockedByActivitiesOrLeavingDataClient)
//Stop self first
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TStopSelf, CoreNetStates::TAwaitingDataClientStopped, CoreStates::TNoTagOrNoClients)
//The node mustn't go out of scope with clients present. The node must get rid of them first.
NODEACTIVITY_ENTRY(KNoTag, CoreActivities::CDestroyActivity::TMakeClientsLeaveOrProcessClientLeave, CoreStates::TAwaitingClientLeave, CDestroyActivity::TNoTagOrNoTagBackwards)
THROUGH_NODEACTIVITY_ENTRY(KNoTag, CoreActivities::CDestroyActivity::TProcessClientLeave, TTag<KNoClients>)
THROUGH_NODEACTIVITY_ENTRY(KNoClients, PRStates::TProcessDestroy, MeshMachine::TNoTag)
NODEACTIVITY_ENTRY(KNoTag, MeshMachine::TDoNothing, MeshMachine::TAwaitingLeaveComplete, CoreActivities::CDestroyActivity::TNoTagOrNoTagBackwards)
LAST_NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TSendClientLeavingAndRemoveControlProvider)
NODEACTIVITY_END()
}
namespace PRSetParamsRequest
{
#ifdef SYMBIAN_ADAPTIVE_TCP_RECEIVE_WINDOW
DEFINE_EXPORT_NODEACTIVITY(ECFActivityParamRequest, PRSetParams, TCFScpr::TSetParamsRequest)
FIRST_NODEACTIVITY_ENTRY(PRStates::TAwaitingParamRequest, CoreNetStates::TNoTagOrBearerPresent)
NODEACTIVITY_ENTRY(CoreNetStates::KBearerPresent, PRStates::TPassToServiceProvider, CoreNetStates::TAwaitingParamResponse, MeshMachine::TTag<CoreNetStates::KBearerPresent>)
LAST_NODEACTIVITY_ENTRY(CoreNetStates::KBearerPresent, PRStates::TStoreParamsAndPostToOriginators)
LAST_NODEACTIVITY_ENTRY(KNoTag, PRStates::TStoreAndRespondWithCurrentParams)
NODEACTIVITY_END()
#else
DEFINE_EXPORT_NODEACTIVITY(ECFActivityParamRequest, PRSetParams, TNodeSignal::TNullMessageId)
NODEACTIVITY_END()
#endif
}
// no Store in case of GetParamsRequest
namespace PRGetParamsRequest
{
#ifdef SYMBIAN_ADAPTIVE_TCP_RECEIVE_WINDOW
DEFINE_EXPORT_NODEACTIVITY(ECFActivityParamRequest, PRGetParams, TCFScpr::TGetParamsRequest)
FIRST_NODEACTIVITY_ENTRY(PRStates::TAwaitingParamRequest, CoreNetStates::TNoTagOrBearerPresent)
NODEACTIVITY_ENTRY(CoreNetStates::KBearerPresent, PRStates::TPassToServiceProvider, CoreNetStates::TAwaitingParamResponse, MeshMachine::TTag<CoreNetStates::KBearerPresent>)
LAST_NODEACTIVITY_ENTRY(CoreNetStates::KBearerPresent, CoreStates::TPostToOriginators)
LAST_NODEACTIVITY_ENTRY(KNoTag, PRStates::TRespondWithRetrievedParams)
NODEACTIVITY_END()
#else
DEFINE_EXPORT_NODEACTIVITY(ECFActivityParamRequest, PRGetParams, TNodeSignal::TNullMessageId)
NODEACTIVITY_END()
#endif
}
namespace PRBindToActivity
{
//PRBindToActivity is responsible for handling TCFDataClient::TBindTo;
DECLARE_DEFINE_CUSTOM_NODEACTIVITY(ECFActivityBindTo, PRBindTo, TCFDataClient::TBindTo, CBindToActivity::NewL)
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingBindTo, CBindToActivity::TNoTagOrBearerReady)
//TBindTo can hold:
//[KNoTag] - a valid serviceProvider cookie that this node isn't bound to;
//[KBearerReady] - a valid serviceProvider cookie that this node is already bound to;
//[KBearerReady] - a NULL serviceProvider (this node is at the stack's bottom);
//{ JOINING NEW SERVICE PROVIDER
//a valid serviceProvider supplied, new to this node, let's join it;
NODEACTIVITY_ENTRY(KNoTag, CBindToActivity::TSendControlClientJoinRequest, CoreStates::TAwaitingJoinComplete, TTag<KBearerReady>)
//}
//serviceProvider provisionally joined. Now the activity needs to propagate iteslf (TBindTo) to its dataclients.
//The dataclients are either present or not. If not this activity will assume this is the layer construction phase
//and will attempt to construct a default dataclient.
THROUGH_NODEACTIVITY_ENTRY(KBearerReady, MeshMachine::TDoNothing, CBindToActivity::TNoTagOrDataClientReady)
//{ DATA CLIENT CREATION
//No dataclients present, assume this is the layer creation phase. Attempt to create a dataclient.
NODEACTIVITY_ENTRY(KNoTag, CBindToActivity::TCreateDataClient, TAcceptErrorState<CoreNetStates::TAwaitingDataClientJoin>, MeshMachine::TErrorTagOr<CBindToActivity::TNoTagOrBindToComplete>)
//BindTo activity is the pre-start layer builder, hence it always requests the dataclient from the factory.
//The factory (being aware of the phase) may decide to:
//1. create a new dataclient -> process dataclient creation [KNoTag]
//2. return a preexisting dataclient -> bind the client [KDataClientReady]
//3. not to create a dataclient -> send TBindToComplete to the originator [KBindToComplete]
THROUGH_NODEACTIVITY_ENTRY(KNoTag, PRStates::TProcessDataClientCreation, TTag<KDataClientReady>)
//}
THROUGH_NODEACTIVITY_ENTRY(KDataClientReady, MeshMachine::TDoNothing, CBindToActivity::TNoTagOrBearerReadyOrBindToComplete)
//{ BINDING DATACLIENTS LOOP
//Dataclient(s) is/are ready. Depending on whether the node has the lower layer or not,
//we will [KNoTag] or will not [KNoBearer] need to request a binder for the dataclient.
//{SERVICE PROVIDER PRESENT
NODEACTIVITY_ENTRY(KNoTag, CBindToActivity::TRequestCommsBinder, TAcceptErrorState<CoreNetStates::TAwaitingBinderResponse>, TErrorTagOr<TTag<KBearerReady> >)
//}
NODEACTIVITY_ENTRY(KBearerReady, PRActivities::CBindToActivity::TSendBindTo, CBindToActivity::TAwaitingBindToCompleteOrError,
TErrorTagOr<TTag<KDataClientReady | NetStateMachine::EBackward> >)
//}
//Binding is finished. If this is not autocommit (see TCFDataClient::TBindTo), the activity will reply TCFDataClient::TBindToComplete
//to the sender await for the confirmation (TCFDataClient::TCommitBindTo) or cancelation (TBase::TCancel) from the sender.
//If this is autommit, the activity will skip awaiting for TCFDataClient::TCommitBindTo and commit itself.
THROUGH_NODEACTIVITY_ENTRY(KBindToComplete, CBindToActivity::TSendBindToComplete, CBindToActivity::TNoTagOrCommit)
NODEACTIVITY_ENTRY(KNoTag, MeshMachine::TDoNothing, MeshMachine::TAwaitingMessageState<TCFDataClient::TCommitBindTo>, TErrorTagOr<TTag<KCommit> >)
//commiting (either implicit or explicit).
NODEACTIVITY_ENTRY(KCommit, CBindToActivity::TCommit, MeshMachine::TAwaitingLeaveComplete, MeshMachine::TNoTag)
//This is not autocommit and the sender has just explicitly cancelled. Alternativelly this is an error path.
//Cancelling/processing error entiles sending TCancel to all dataclients awaiting confirmation
//as well as it entiles leaving the new service provider.
NODEACTIVITY_ENTRY(KErrorTag, CBindToActivity::TCancel, MeshMachine::TAwaitingLeaveComplete, MeshMachine::TNoTag)
LAST_NODEACTIVITY_ENTRY(KNoTag, MeshMachine::TDoNothing)
NODEACTIVITY_END()
}
namespace PRStartActivity
{
DECLARE_DEFINE_CUSTOM_NODEACTIVITY(ECFActivityStart, PRStart, TCFServiceProvider::TStart, PRActivities::CStartActivity::NewL)
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingStart, CoreNetStates::TNoTagOrBearerPresentBlockedByStop)
NODEACTIVITY_ENTRY(KBearerPresent, CoreNetStates::TBindSelfToPresentBearer, CoreNetStates::TAwaitingBindToComplete, TTag<KBearerPresent>)
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TSendNoBearer, MeshMachine::TAwaitingMessageState<TCFControlProvider::TBearer>, CoreNetStates::TNoTagOrBearerPresentOrErrorTag)
//Start the service provider, use the default cancellation.
//Forward TCancel to the service provider, wait for TStarted or TError (via the Error Activity)
//When TStarted arrives after TCancel the activity will move to the nearest KErrorTag
NODEACTIVITY_ENTRY(KBearerPresent, CoreNetStates::TStartServiceProviderRetry, CoreNetStates::TAwaitingStarted, MeshMachine::TNoTagOrErrorTag)
LAST_NODEACTIVITY_ENTRY(KErrorTag, MeshMachine::TDoNothing)
//Start data clients, use the default cancellation.
//Forward TCancel to the self, wait for TCFDataClient::TStarted or TError (via the Error Activity)
//When TCFDataClient::TStarted arrives after TCancel the activity will move to the nearest KErrorTag
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TStartSelf, CoreNetStates::TAwaitingDataClientStarted, MeshMachine::TNoTagOrErrorTag)
NODEACTIVITY_ENTRY(KErrorTag, CoreNetStates::TStopSelf, CoreNetStates::TAwaitingDataClientStopped, MeshMachine::TErrorTag)
LAST_NODEACTIVITY_ENTRY(KErrorTag, MeshMachine::TRaiseAndClearActivityError)
LAST_NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TSendStarted)
NODEACTIVITY_END()
}
namespace PRStopActivity
{
DECLARE_DEFINE_CUSTOM_NODEACTIVITY(ECFActivityStop, PRStop, TCFServiceProvider::TStop, MeshMachine::CNodeRetryActivity::NewL)
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingStop, TActiveOrNoTagBlockedByBindTo)
THROUGH_NODEACTIVITY_ENTRY(KActiveTag, CoreNetStates::TCancelDataClientStart, MeshMachine::TNoTag)
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TStopSelf, CoreNetStates::TAwaitingDataClientStopped, CoreNetStates::TNoTagOrNoBearer)
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TSendStop, CoreNetStates::TAwaitingStopped, MeshMachine::TNoTag)
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TSendClientLeavingRequestToServiceProvider, MeshMachine::TAwaitingLeaveComplete, TTag<CoreNetStates::KNoBearer>)
LAST_NODEACTIVITY_ENTRY(CoreNetStates::KNoBearer, PRStates::TSendStoppedAndGoneDown)
NODEACTIVITY_END()
}
namespace PRDataClientStartActivity
{
DECLARE_DEFINE_NODEACTIVITY(ECFActivityStartDataClient, PRDataClientStart, TCFDataClient::TStart)
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingDataClientStart, CoreNetStates::TNoTagOrNoDataClients)
NODEACTIVITY_ENTRY(KNoTag, PRStates::TStartDataClients, TAcceptErrorState<CoreNetStates::TAwaitingDataClientsStarted>, MeshMachine::TErrorTagOr<MeshMachine::TTag<CoreNetStates::KNoDataClients> >)
LAST_NODEACTIVITY_ENTRY(CoreNetStates::KNoDataClients, PRStates::TSendDataClientStarted)
NODEACTIVITY_ENTRY(KErrorTag, CoreNetStates::TStopSelf, CoreNetStates::TAwaitingDataClientsStopped, MeshMachine::TErrorTag)
LAST_NODEACTIVITY_ENTRY(KErrorTag, MeshMachine::TRaiseAndClearActivityError)
NODEACTIVITY_END()
}
namespace PRDataClientStopActivity
{
DECLARE_DEFINE_CUSTOM_NODEACTIVITY(ECFActivityStopDataClient, PRDataClientStop, TCFDataClient::TStop, MeshMachine::CNodeRetryActivity::NewL)
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingDataClientStop, MeshMachine::TNoTag)
THROUGH_NODEACTIVITY_ENTRY(KNoTag, PRStates::TProcessDataClientStop, CoreNetStates::TNoTagOrDataClientsToStopBlockedByStarting)
NODEACTIVITY_ENTRY(CoreNetStates::KDataClientsToStop, CoreNetStates::TStopDataClients, CoreNetStates::TAwaitingDataClientsStopped, MeshMachine::TNoTag)
THROUGH_NODEACTIVITY_ENTRY(KNoTag, MeshMachine::TDoNothing, CoreNetStates::TNoTagOrUnbindOnStop)
NODEACTIVITY_ENTRY(CoreNetStates::KUnbind, CoreNetStates::TSendClientLeavingRequestToServiceProvider, MeshMachine::TAwaitingLeaveComplete, MeshMachine::TNoTag)
THROUGH_NODEACTIVITY_ENTRY(KNoTag, PRStates::TDestroyOrphanedDataClients, MeshMachine::TNoTag)
LAST_NODEACTIVITY_ENTRY(KNoTag, PRStates::TSendDataClientStopped)
NODEACTIVITY_END()
}
namespace PRForwardStateChangeActivity
{
DECLARE_DEFINE_NODEACTIVITY(ECFActivityForwardStateChange, PRForwardStateChange, TCFMessage::TStateChange)
NODEACTIVITY_ENTRY(KNoTag, PRStates::TForwardStateChange, MeshMachine::TAwaitingMessageState<TCFMessage::TStateChange>, MeshMachine::TNoTag)
NODEACTIVITY_END()
}
namespace PRDataClientStatusChangeActivity
{
DECLARE_DEFINE_NODEACTIVITY(ECFActivityDataClientStatusChange, PRDataClientStatusChange, TCFControlProvider::TDataClientStatusChange)
NODEACTIVITY_ENTRY(KNoTag, PRStates::THandleDataClientStatusChangeAndDestroyOrphans, CoreNetStates::TAwaitingDataClientStatusChange, MeshMachine::TNoTag)
NODEACTIVITY_END()
}
namespace PRGoneDownActivity
{
DECLARE_DEFINE_CUSTOM_NODEACTIVITY(ECFActivityGoneDown, PRGoneDown, TCFControlClient::TGoneDown, CGoneDownActivity::NewL)
// Our Service Provider has gone down unexpectedly (we haven't issued a TStop)
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingGoneDown, MeshMachine::TNoTag)
THROUGH_NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TCancelAndCloseZone0ClientExtIfaces, MeshMachine::TNoTag)
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TSendClientLeavingRequestToServiceProvider, MeshMachine::TAwaitingLeaveComplete, MeshMachine::TNoTag)
NODEACTIVITY_ENTRY(KNoTag, CGoneDownActivity::TSendErrorRecoveryReq, MeshMachine::TAwaitingErrorRecoveryResponseOrError, CoreStates::TRetryOrIgnoreOrPropagate)
THROUGH_NODEACTIVITY_ENTRY(CoreStates::KRetry, MeshMachine::TDoNothing, CGoneDownActivity::TIgnoreOrPropagate)
LAST_NODEACTIVITY_ENTRY(CoreStates::KIgnore, MeshMachine::TDoNothing)
NODEACTIVITY_ENTRY(CoreStates::KPropagate, CoreNetStates::TCancelStartAndStopSelf, CoreNetStates::TAwaitingDataClientStopped, MeshMachine::TNoTag)
LAST_NODEACTIVITY_ENTRY(KNoTag, PRStates::TSendGoneDown)
NODEACTIVITY_END()
}
namespace PRGoneUpActivity
{
// This Activity forward the TGoneUp event to the Control Clients nodes that are
// not in the originator lis
DECLARE_DEFINE_NODEACTIVITY(ECFActivityGoneUp, PRGoneUp, TCFControlClient::TGoneUp)
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingGoneUp, MeshMachine::TNoTag)
LAST_NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TSendGoneUp)
NODEACTIVITY_END()
}
namespace PRLegacyRMessage2HandlerActivity
{
DECLARE_DEFINE_CUSTOM_NODEACTIVITY(ECFActivityLegacyRMessage2Handler, PRLegacyRMessage2Handler, TNodeSignal::TNullMessageId, MeshMachine::CNodeParallelMessageStoreActivityBase::NewL)
FIRST_NODEACTIVITY_ENTRY(CoreNetStates::TAwaitingLegacyRMessage2Ext, MeshMachine::TNoTag)
NODEACTIVITY_ENTRY(KNoTag, CoreNetStates::TProcessOrForwardRMessage2Ext, CoreNetStates::TAwaitingRMessage2Processed, MeshMachine::TNoTag)
LAST_NODEACTIVITY_ENTRY(KNoTag, CoreStates::TPostToOriginators)
NODEACTIVITY_END()
}
namespace CoreActivities
{
DECLARE_DEFINE_ACTIVITY_MAP(coreActivitiesAll)
ACTIVITY_MAP_ENTRY(CoreErrorActivity, CoreError) //Must be first in the table
ACTIVITY_MAP_END()
//-=========================================================
//
//Error Activity
//
//-=========================================================
MeshMachine::CNodeActivityBase* CErrorActivity::NewL( const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode )
{
TUint c = GetNextActivityCountL(aActivitySig,aNode);
return new(ELeave)CErrorActivity(aActivitySig, aNode, c);
}
CErrorActivity::CErrorActivity(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode, TUint aActivitiesCount)
: MeshMachine::CNodeParallelActivityBase(aActivitySig, aNode, aActivitiesCount), iErroredActivityId(MeshMachine::KActivityNull)
{
}
CErrorActivity::~CErrorActivity()
{
if (Error() != KErrNone)
{
CNodeActivityBase* a = iNode.FindActivityById(iErroredActivityId);
if (a)
{
a->SetError(Error());
a->SetIdle();
}
}
SetError(KErrNone);
}
TBool CErrorActivity::IsIdle() const
{
return NetStateMachine::ACore::IsIdle();
}
void CErrorActivity::StartL(TNodeContextBase& aContext, const Messages::XNodePeerId& /*aOriginator*/, const TStateTriple& aFirst)
{
__ASSERT_DEBUG(IsIdle(), User::Panic(KSpecAssert_ESockCrStaCPRAC, 1));
MESH_LOG_ACTIVITY_EXT(KESockMeshMachine, this, &aContext, (_L8("CErrorActivity %08x:\tStartL->starting activity"), this));
NetStateMachine::ACore::Start(&aContext, aFirst);
MESH_LOG_ACTIVITY_EXT(KESockMeshMachine, this, &aContext, (_L8("CErrorActivity %08x:\tStartL->activity started"),this));
}
TBool CErrorActivity::Next(TNodeContextBase& aContext)
{
TBool ret = EFalse;
if (aContext.iMessage.IsMessage<TEBase::TCancel>())
{
CNodeActivityBase* a = iNode.FindActivityById(iErroredActivityId);
//Special handling for TCancel.
if (a && a->FindOriginator(aContext.iSender) != KErrNotFound)
{
ret = ETrue;
//iActiviy could have handled it, but chose not to.
Cancel(aContext);
//consume the message, otherwise the iActivity will get idled and iActivity reference
//will become invalid.
aContext.iMessage.ClearMessageId();
}
}
else
{
//If we have sent TErrorRecoveryRequest, we had to have set PostedToId() to the recipient (ControlProvider)
//as otherwise there would be no path for propagating the potential TCancel.
//The response however (TErrorRecoveryResponse or TError) will not necesserily come from that recipient (CP)
//(for example it could be coming from the MCpr and we could be the SCpr).
//Normally this would be a problem because any unrelated TError message arriving to the node
//and presented to the awaiting state would easily be confused with the response (TError == no recovery on the MCpr == EPropagate).
//We avoid the problem by checking all arriving messages if they are adressed to our activity (but we don't
//check the sender.
const TNodeCtxId* recipient = address_cast<const TNodeCtxId>(&aContext.iRecipient);
if (recipient && (ActivityId() == recipient->NodeCtx()))
{
ret = ACore::Next(&aContext);
if(ret)
{
MESH_LOG_ACTIVITY_EXT(KMeshMachineSubTag, this, &aContext, (_L8("CNodeActivityBase %08x:\tNext->transition"), this));
}
}
}
return ret;
}
EXPORT_DEFINE_SMELEMENT(CErrorActivity::TAwaitingError, NetStateMachine::MState, CErrorActivity::TContext)
EXPORT_C TBool CErrorActivity::TAwaitingError::Accept()
{
if (! iContext.iMessage.IsMessage<TEBase::TError>())
{
return EFalse;
}
TEBase::TError& errorMessage = message_cast<TEBase::TError>(iContext.iMessage);
//Diagnostic panic only. TError message should not be travelling around with KErrNone.
//If you see this panic, please send a proper error code.
__ASSERT_DEBUG(errorMessage.iValue != KErrNone, User::Panic(KSpecAssert_ESockCrStaCPRAC, 2));
MeshMachine::CNodeActivityBase* aa = iContext.Node().FindAddressedActivity(iContext);
//TError is always a response. If there is no activity addressed by the TError,
//then we assume the activity hasn't bothered waiting for the result.
//We hence ignore the error.
if (aa)
{
aa->SetError(errorMessage.iValue);
aa->SetIdle();
}
errorMessage.ClearMessageId();
return EFalse;
}
DEFINE_SMELEMENT(CErrorActivity::TCFAwaitingError, NetStateMachine::MState, CErrorActivity::TContext)
EXPORT_C TBool CErrorActivity::TCFAwaitingError::Accept()
{
if (! iContext.iMessage.IsMessage<TEBase::TError>())
{
return EFalse;
}
TEBase::TError& errorMessage = message_cast<TEBase::TError>(iContext.iMessage);
//Diagnostic panic only. TError message should not be travelling around with KErrNone.
//If you see this panic, please send a proper error code.
__ASSERT_DEBUG(errorMessage.iValue != KErrNone, User::Panic(KSpecAssert_ESockCrStaCPRAC, 3));
RNodeInterface* client = iContext.Node().FindClient(iContext.iSender);
if (client &&
client->Type() & TCFClientType::EServProvider &&
iContext.Node().ControlProvider() != NULL &&
iContext.Node().CountActivities(ECFActivityDestroy) == 0)
{
//this is the only way out into the activity and into error recovery steps
//that error activity is responsible for doing.
return ETrue;
}
return CErrorActivity::TAwaitingError::Accept();
}
//Simply leaving from this DoL will NOT have the effect of sending TError to originators
//of the Errored activity! iContext.iNodeActivity is the Error activity.
//Reassign iContext.iNodeActivity before leaving or handle the error.
EXPORT_DEFINE_SMELEMENT(CErrorActivity::TSendErrorRecoveryReq, NetStateMachine::MStateTransition, CErrorActivity::TContext)
EXPORT_C void CErrorActivity::TSendErrorRecoveryReq::DoL()
{
//Find matching activity, if any
MeshMachine::CNodeActivityBase* aa = iContext.Node().FindAddressedActivity(iContext);
//we are started based on the fact the the last message iContext.Node()'s received is TError
TEBase::TError& errmsg = message_cast<TEBase::TError>(iContext.iMessage);
//The error comes from someone else than our Data Client (or we wouldn't be here).
//It may be our Service Provider or it can be some other node which has originated
//an activity on us (in which case the errored activity must be present).
if (aa==NULL)
{
__CFLOG_VAR((KCoreProviderStatesTag, KCoreProviderStatesSubTag, _L8("ASendErrorRecoveryReq::DoL - TError but no addressed activity - ignoring")));
#ifdef SYMBIAN_NETWORKING_UPS
// Terminate the error activity (not UPS specific).
iContext.iNodeActivity->SetIdle();
#endif //SYMBIAN_NETWORKING_UPS
return;
}
AContextStore* intf = NULL;
if (aa->SupportsExtInterface(AContextStore::KInterfaceId))
{
//FetchExtInterfaceL below can never leave because it is being checked few lines above in the "if"
intf = reinterpret_cast<AContextStore*>(aa->FetchExtInterfaceL(AContextStore::KInterfaceId));
}
//Check if there is any point in sending Error Recovery Request
if (intf==NULL || !intf->IsStored() || !iContext.Node().ControlProvider())
{
__CFLOG_VAR((KCoreProviderStatesTag, KCoreProviderStatesSubTag, _L8("ERROR: ASendErrorRecoveryReq::DoL - KErrNotSupported")));
iContext.iNodeActivity->SetIdle();
aa->SetError(errmsg.iValue);
aa->SetIdle();
return;
}
//Determine who TErrorRecoveryRequest should be sent to.
//If there is no ControlProvider we send a RecoveryRequest to ourselves to recover from the error,
//otherwise we sned the RecoveryRequest up to our ControlProvider.
//MCPrs typically put all of the error recovery function in a single error recovery activity therefore
//it makes sense even for MCPrs to send TErrorRecoveryRequest to their error recovery function. By
//posting a TErrorRecoveryRequest sub-classes of the MCPrs get a chance to override the default error
//recovery.
RNodeInterface* errorRecoverer = iContext.Node().ControlProvider() ? iContext.Node().ControlProvider() : &iContext.Node().SelfInterface();
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CoreActivities::CErrorActivity& activity = static_cast<CoreActivities::CErrorActivity&>(*iContext.iNodeActivity);
__ASSERT_DEBUG(activity.iErroredActivityId==MeshMachine::KActivityNull, User::Panic(KSpecAssert_ESockCrStaCPRAC, 4));
// Save a reference to the activity and a point
// Each time we use the activity, query it from the node, because the activity may have gone away (originator left node etc)
activity.iErroredActivityId = aa->ActivityId();
activity.SetError(errmsg.iValue);
activity.iMessageId = errmsg.iMsgId;
TErrContext ctx(iContext.NodeId(), errmsg.iMsgId, aa->ActivitySigId(), TStateChange(0, errmsg.iValue));
TEErrorRecovery::TErrorRecoveryRequest msg(ctx);
activity.PostRequestTo(
*errorRecoverer,//ControlProvider() verified above
TCFSafeMessage::TRequestCarrierEast<TEErrorRecovery::TErrorRecoveryRequest>(msg).CRef()
);
//The original activiy might have set 'sent to', but that's surely
//not meaningful anymore (we've just received a response from that 'sent to').
//We could have pretended that the orginal activity knows it's sent
//error recovery to the control provider but it's best just to clear
//'sent to' (and handle TCancel from here (CErrorActivity::Next()).
aa->ClearPostedTo();
}
EXPORT_DEFINE_SMELEMENT(CErrorActivity::TDoErrorRecovery, NetStateMachine::MStateTransition, CErrorActivity::TContext)
EXPORT_C void CErrorActivity::TDoErrorRecovery::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CoreActivities::CErrorActivity* act = static_cast<CoreActivities::CErrorActivity*>(iContext.iNodeActivity);
CNodeActivityBase* a = iContext.Node().FindActivityById(act->iErroredActivityId);
if (a == NULL)
{
iContext.iNodeActivity->SetIdle();
return;
}
if (iContext.iMessage.IsMessage<TEErrorRecovery::TErrorRecoveryResponse>())
{
TErrResponse& resp = message_cast<TEErrorRecovery::TErrorRecoveryResponse>(iContext.iMessage).iErrResponse;
if (resp.iAction == TErrResponse::ERetry)
{ //rerun current transition
__CFLOG_VAR((KCoreProviderStatesTag, KCoreProviderStatesSubTag, _L8("ADoErrorRecovery::DoL - instructed to retry")));
__ASSERT_DEBUG(a->SupportsExtInterface(AContextStore::KInterfaceId), User::Panic(KCorePrPanic, KPanicExtInterfaceNotSupported));
AContextStore* intf = reinterpret_cast<AContextStore*>(a->FetchExtInterfaceL(AContextStore::KInterfaceId));
__ASSERT_DEBUG(intf->IsStored(), User::Panic(KSpecAssert_ESockCrStaCPRAC, 5));
intf->Retry(*a,iContext);
if (iContext.iReturn == KErrNone)
{ //retry succeded
act->SetError(KErrNone);
}
//if Retry had failed, then the d'tor of act will raise the error on
//and terminate act->iActivity,
}
else if (resp.iAction == TErrResponse::EPropagate)
{ //set new error values and fall through
__CFLOG_VAR((KCoreProviderStatesTag, KCoreProviderStatesSubTag, _L8("ADoErrorRecovery::DoL - instructed to propagate the error")));
act->iMessageId = resp.iMessageId;
a->SetError(resp.iError);
}
else //if (resp.iAction == TErrResponse::EIgnore)
{
__CFLOG_VAR((KCoreProviderStatesTag, KCoreProviderStatesSubTag,
_L8("WARNING: ADoErrorRecovery::DoL() - instructed to ignore the error!")));
}
}
}
//-=========================================================
//
//Destroy Activity - will delete the node when destructed
//
//-=========================================================
EXPORT_C MeshMachine::CNodeActivityBase* CDestroyActivity::New(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
{
TAny* space = BorrowPreallocatedSpace(aNode, sizeof(CDestroyActivity));
CDestroyActivity* self = new (space) CDestroyActivity(aActivitySig, aNode);
self->InsertPreallocatedDestroyActivity(); //Destructing preallocated activity
return self;
}
CDestroyActivity::CDestroyActivity(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
: CNodeRetryActivity(aActivitySig, aNode),
APreallocatedOriginators<1>(iOriginators)
{
//Mark the provider for deletion, so that it's not served by the factory from now on.
static_cast<ESock::CMMCommsProviderBase&>(iNode).MarkMeForDeletion();
}
void CDestroyActivity::Destroy()
{
ReturnPreallocatedSpace(this);
this->~CDestroyActivity(); //Run the destructor
//Delete the provider.
static_cast<ESock::CMMCommsProviderBase&>(iNode).DeleteMeNow();
}
TBool CDestroyActivity::Next(TNodeContextBase& aContext)
{
if (aContext.iMessage.IsMessage<TEBase::TCancel>())
{
return ETrue;
}
else
return CNodeActivityBase::Next(aContext);
}
EXPORT_DEFINE_SMELEMENT(CDestroyActivity::TNoTagOrNoTagBackwards, NetStateMachine::MStateFork, PRStates::TContext)
EXPORT_C TInt CDestroyActivity::TNoTagOrNoTagBackwards::TransitionTag()
{
if (iContext.iMessage.IsMessage<TEChild::TLeft>())
{
TClientIter<TDefaultClientMatchPolicy> iter = iContext.Node().GetClientIter<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EData|TCFClientType::ECtrl));
__ASSERT_DEBUG(iter[0], User::Panic(KSpecAssert_ESockCrStaCPRAC, 7)); //One leaving client must still be there.
return iter[1] == NULL ? MeshMachine::KNoTag : MeshMachine::KNoTag | NetStateMachine::EBackward;
}
else if (iContext.iMessage.IsMessage<TEPeer::TLeaveComplete>())
{
__ASSERT_DEBUG(iContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(TClientType(TCFClientType::ECtrl|TCFClientType::EData))==NULL,
User::Panic(KCorePrPanic, KPanicClientsStillPresent));
if (iContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EServProvider))==NULL)
{
return NetStateMachine::EForward | MeshMachine::KNoTag;
}
return NetStateMachine::EBackward | MeshMachine::KNoTag; //Loop back to the same triple (& remove the peer)
}
__ASSERT_DEBUG(EFalse, User::Panic(KSpecAssert_ESockCrStaCPRAC, 8));
return KNoTag;
}
EXPORT_DEFINE_SMELEMENT(CDestroyActivity::TMakeClientsLeaveOrProcessClientLeave, NetStateMachine::MStateTransition, PRStates::TContext)
EXPORT_C void CDestroyActivity::TMakeClientsLeaveOrProcessClientLeave::DoL()
{
if (iContext.iMessage.IsMessage<TEChild::TLeft>())
{
ProcessClientLeaveL();
}
else
{
MakeClientsLeaveL();
}
}
void CDestroyActivity::TMakeClientsLeaveOrProcessClientLeave::MakeClientsLeaveL()
{
__ASSERT_DEBUG(iContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(TClientType(TCFClientType::ECtrl))==NULL,
User::Panic(KCorePrPanic, KPanicClientsStillPresent));
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
iContext.iNodeActivity->ClearPostedTo();
//MZTODO: this asserion may need to be changed since TDestroy can
//come while data client is active etc.
__ASSERT_DEBUG(iContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EData, TCFClientType::EActive|TCFClientType::EActivating|TCFClientType::EStarting|TCFClientType::EStarted))==NULL,
User::Panic(KCorePrPanic, KPanicClientsStillPresent));
TClientIter<TDefaultClientMatchPolicy> dciter = iContext.Node().GetClientIter<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EData), TClientType(0, TCFClientType::ELeaving));
RNodeInterface* dc = NULL;
while ((dc = dciter[0]) != NULL) //always inspect the first elem as we're invalidating the iterator with each hit.
{
dc->PostMessage(iContext.NodeId(), TEChild::TDestroy().CRef());
dc->SetFlags(TCFClientType::ELeaving);
}
}
void CDestroyActivity::TMakeClientsLeaveOrProcessClientLeave::ProcessClientLeaveL()
{
CDestroyActivity::TProcessClientLeave processClientLeave(iContext);
processClientLeave.DoL();
}
//-=========================================================
//
//Loppin Activity
//
//-=========================================================
EXPORT_C ACountLoopActivity::~ACountLoopActivity()
{
}
EXPORT_C MeshMachine::CNodeActivityBase* CCountLoopActivityBase::NewL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
{
return new (ELeave) CCountLoopActivityBase(aActivitySig, aNode);
}
EXPORT_C CCountLoopActivityBase::CCountLoopActivityBase(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
: MeshMachine::CNodeActivityBase(aActivitySig, aNode),
TIfStaticFetcherNearestInHierarchy(this)
{
}
EXPORT_C CCountLoopActivityBase::~CCountLoopActivityBase()
{
}
EXPORT_DEFINE_SMELEMENT(ACountLoopActivity::TNoTagOrNoTagBackwards, NetStateMachine::MStateFork, PRStates::TContext)
EXPORT_C TInt ACountLoopActivity::TNoTagOrNoTagBackwards::TransitionTag()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(ACountLoopActivity::KInterfaceId),User::Panic(KCorePrPanic, KPanicInterfaceNotSupported));
ACountLoopActivity* countLoopActivity = static_cast<ACountLoopActivity*>(iContext.iNodeActivity->FetchExtInterface(ACountLoopActivity::KInterfaceId));
if (countLoopActivity->DecCount() > 0)
{
return KNoTag | NetStateMachine::EBackward;
}
return KNoTag | NetStateMachine::EForward;
}
//-=========================================================
//
//
//Binding Activity
//
//
//-=========================================================
EXPORT_C ABindingActivity::~ABindingActivity()
{
//Handle premature termination of the ABindingActivity object
//by responding to the originator
//If the originator has not been replied to yet, reply now with an error code
if (IsBinding())
{
ReplyToOriginator(KErrAbort);
}
}
EXPORT_C void ABindingActivity::StoreOriginator(const TRuntimeCtxId& aNodeCtxId)
{
//Check if the originator wasn't set before. If it was, it must be replied to before storing ths new one.
__ASSERT_DEBUG(iOriginator.IsNull(), User::Panic(KSpecAssert_ESockCrStaCPRAC, 9));
iOriginator = aNodeCtxId;
}
EXPORT_C void ABindingActivity::ReplyToOriginator(TInt aError)
{
//NOTE: Please do not make this diagnostic panic conditional.
//Please allow it to server everyone equally.
//Please handle the error conditions properly so that you obey this API's semantics.
//If you are not providing a clean error handling solution for your activity,
//please use IsBinding() before calling this API!
__ASSERT_DEBUG(!iOriginator.IsNull(), User::Panic(KSpecAssert_ESockCrStaCPRAC, 10)); //The iOriginator must be set.
RClientInterface::OpenPostMessageClose(iOurNode, iOriginator, TCFDataClient::TBindToComplete(aError).CRef());
iOriginator.SetNull();
}
EXPORT_DEFINE_SMELEMENT(ABindingActivity::TSendBindToComplete, NetStateMachine::MStateTransition, CoreStates::TContext)
EXPORT_C void ABindingActivity::TSendBindToComplete::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(ABindingActivity::KInterfaceId), User::Panic(KSpecAssert_ESockCrStaCPRAC, 11));
ABindingActivity* bindingActivity = reinterpret_cast<ABindingActivity*>(iContext.iNodeActivity->FetchExtInterfaceL(ABindingActivity::KInterfaceId));
bindingActivity->ReplyToOriginator(iContext.iNodeActivity->Error());
}
EXPORT_DEFINE_SMELEMENT(ABindingActivity::TSendBindToCompleteIfExpected, NetStateMachine::MStateTransition, CoreStates::TContext)
EXPORT_C void ABindingActivity::TSendBindToCompleteIfExpected::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(ABindingActivity::KInterfaceId), User::Panic(KSpecAssert_ESockCrStaCPRAC, 12));
ABindingActivity* bindingActivity = reinterpret_cast<ABindingActivity*>(iContext.iNodeActivity->FetchExtInterfaceL(ABindingActivity::KInterfaceId));
if (bindingActivity->IsBinding())
{
bindingActivity->ReplyToOriginator(iContext.iNodeActivity->Error());
}
}
void ABindingActivity::FinalReplyToOriginator(TInt aError)
/**
Intended to be called from derived class destructors to arrange for a TBindToComplete reply to be sent
before any other messages in those derived class destructors (for example TDestroy).
*/
{
if (IsBinding())
{
ReplyToOriginator(aError);
// Ensure that we don't send another reply in ~ABindingActivity.
iOriginator = Messages::TNodeCtxId();
}
}
} // CoreActivities
namespace PRActivities
{
DECLARE_DEFINE_ACTIVITY_MAP(coreActivitiesPR)
ACTIVITY_MAP_ENTRY(PRDataClientJoinActivity, PRDataClientJoin)
ACTIVITY_MAP_ENTRY(PRControlClientJoinActivity, PRControlClientJoin)
ACTIVITY_MAP_ENTRY(PRClientLeaveActivity, PRClientLeave)
ACTIVITY_MAP_ENTRY(PRForwardStateChangeActivity, PRForwardStateChange)
ACTIVITY_MAP_ENTRY(PRBindToActivity, PRBindTo)
ACTIVITY_MAP_ENTRY(PRDataClientStartActivity, PRDataClientStart)
ACTIVITY_MAP_ENTRY(PRDataClientStopActivity, PRDataClientStop)
ACTIVITY_MAP_END_BASE(CoreActivities,coreActivitiesAll)
//Activity Map provided by CorePr to be used by SCprs.
//(it is further extended in CoreSCpr).
DEFINE_EXPORT_ACTIVITY_MAP(coreActivitiesSCpr)
ACTIVITY_MAP_ENTRY(PRProvisionActivity, PrProvision)
ACTIVITY_MAP_ENTRY(PRStartActivity, PRStart)
ACTIVITY_MAP_ENTRY(PRStopActivity, PRStop)
ACTIVITY_MAP_ENTRY(PRDataClientIdleActivity, PRDataClientIdle)
ACTIVITY_MAP_ENTRY(PRDataClientActiveActivity, PRDataClientActive)
ACTIVITY_MAP_ENTRY(PRDestroyActivity, PRDestroy)
ACTIVITY_MAP_ENTRY(PRGoneDownActivity, PRGoneDown)
ACTIVITY_MAP_ENTRY(PRGoneUpActivity, PRGoneUp) //robertomaro
#ifdef SYMBIAN_ADAPTIVE_TCP_RECEIVE_WINDOW
ACTIVITY_MAP_ENTRY(PRSetParamsRequest, PRSetParams)
ACTIVITY_MAP_ENTRY(PRGetParamsRequest, PRGetParams)
#endif // SYMBIAN_ADAPTIVE_TCP_RECEIVE_WINDOW
ACTIVITY_MAP_ENTRY(PRLegacyRMessage2HandlerActivity, PRLegacyRMessage2Handler)
ACTIVITY_MAP_END_BASE(PRActivities,coreActivitiesPR)
//Activity Map provided by CorePr to be used by Cprs.
//(it is further extended in CoreCpr).
DEFINE_EXPORT_ACTIVITY_MAP(coreActivitiesCpr)
ACTIVITY_MAP_ENTRY(PRProvisionActivity, PrProvision)
ACTIVITY_MAP_ENTRY(PRStartActivity, PRStart)
ACTIVITY_MAP_ENTRY(PRStopActivity, PRStop)
ACTIVITY_MAP_ENTRY(PRDataClientIdleActivity, PRDataClientIdle)
ACTIVITY_MAP_ENTRY(PRDataClientActiveActivity, PRDataClientActive)
ACTIVITY_MAP_ENTRY(PRDestroyActivity, PRDestroy)
ACTIVITY_MAP_ENTRY(PRGoneDownActivity, PRGoneDown)
ACTIVITY_MAP_ENTRY(PRGoneUpActivity, PRGoneUp) //robertomaro
ACTIVITY_MAP_ENTRY(PRDataClientStatusChangeActivity, PRDataClientStatusChange)
#ifdef SYMBIAN_ADAPTIVE_TCP_RECEIVE_WINDOW
ACTIVITY_MAP_ENTRY(PRSetParamsRequest, PRSetParams)
ACTIVITY_MAP_ENTRY(PRGetParamsRequest, PRGetParams)
#endif // SYMBIAN_ADAPTIVE_TCP_RECEIVE_WINDOW
ACTIVITY_MAP_ENTRY(PRLegacyRMessage2HandlerActivity, PRLegacyRMessage2Handler)
ACTIVITY_MAP_END_BASE(PRActivities,coreActivitiesPR)
//Activity Map provided by CorePr to be used by MCprs.
//(it is further extended in CoreMCpr).
DEFINE_EXPORT_ACTIVITY_MAP(coreActivitiesMCpr)
ACTIVITY_MAP_ENTRY(PRDataClientIdleActivity, PRDataClientIdle)
ACTIVITY_MAP_ENTRY(PRDataClientActiveActivity, PRDataClientActive)
ACTIVITY_MAP_ENTRY(PRDataClientStatusChangeActivity, PRDataClientStatusChange)
ACTIVITY_MAP_ENTRY(PRLegacyRMessage2HandlerActivity, PRLegacyRMessage2Handler)
ACTIVITY_MAP_END_BASE(PRActivities,coreActivitiesPR)
//Activity Map provided by CorePr to be used by TMs.
//(it is further extended in CoreTM).
DEFINE_EXPORT_ACTIVITY_MAP(coreActivitiesTM)
ACTIVITY_MAP_END_BASE(PRActivities,coreActivitiesPR)
//-=========================================================
//
//CBindToActivity
//
//-=========================================================
EXPORT_C CBindToActivity::CBindToActivity(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode, TInt aNextActivityCount)
: MeshMachine::CNodeParallelActivityBase(aActivitySig, aNode, aNextActivityCount),
CoreActivities::ABindingActivity(aNode.Id()),
TIfStaticFetcherNearestInHierarchy(this)
{
}
EXPORT_C MeshMachine::CNodeActivityBase* CBindToActivity::NewL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
{
//there can be only one BindTo activity running at a time.
TUint c = GetNextActivityCountL(aActivitySig,aNode);
__ASSERT_DEBUG(c == 1,User::Panic(KCorePrPanic, KPanicPeerMisbehaving));
if (c > 1)
{
User::Leave(KErrInUse);
}
return new (ELeave) CBindToActivity(aActivitySig, aNode, c);
}
EXPORT_C CBindToActivity::~CBindToActivity()
{
//If the activity is aborted then no cleanup will be performed (the destroy activity will do
//that for us) so we should not assert that iSuccessfulDataClients is empty or iNewServiceProvider
//is null.
//CBindToActivity::TCommit or CBindToActivity::TCancel should have been executed
//and rendered iSuccessfulDataClients empty.
//__ASSERT_DEBUG(iSuccessfulDataClients.Count() == 0, User::Panic(KCorePrPanic, KPanicIncorrectState));
//CBindToActivity::iNewServiceProvider should have been cleared by CBindToActivity::TCommit or CBindToActivity::TCancel
//__ASSERT_DEBUG(iNewServiceProvider == NULL, User::Panic(KCorePrPanic, KPanicIncorrectState));
iSuccessfulDataClients.Close();
}
Messages::RNodeInterface* CBindToActivity::NextDataClient()
{
TClientIter<TDefaultClientMatchPolicy> iter = iNode.GetClientIter<TDefaultClientMatchPolicy>(
/*include*/TClientType(TCFClientType::EData),
/*exclude*/TClientType(0, TCFClientType::ELeaving | TCFClientType::EConfigAccessPoint));
iCurrentDataClient = iter++;
while (iCurrentDataClient && (iSuccessfulDataClients.Find(iCurrentDataClient) != KErrNotFound))
{
iCurrentDataClient = iter++;
};
return iCurrentDataClient;
}
TBool CBindToActivity::DataClientsAutocommit()
{
TInt nonLeavingDataClients = iNode.CountClients<TDefaultClientMatchPolicy>(
/*include*/TClientType(TCFClientType::EData),
/*exclude*/TClientType(0, TCFClientType::ELeaving | TCFClientType::EConfigAccessPoint));
return nonLeavingDataClients <=1 && IsAutocommit();
}
void CBindToActivity::AddClientAsSuccessfulL(Messages::RNodeInterface* aDataClient)
{
__ASSERT_DEBUG(aDataClient, User::Panic(KCorePrPanic, KPanicDataClient));
__ASSERT_DEBUG(iSuccessfulDataClients.Find(aDataClient) == KErrNotFound, User::Panic(KCorePrPanic, KPanicIncorrectState));
iSuccessfulDataClients.Append(aDataClient);
}
void CBindToActivity::RemoveClientFromSuccessful(Messages::RNodeInterface* aDataClient)
{
TInt index = iSuccessfulDataClients.Find(aDataClient);
__ASSERT_DEBUG(index >= 0, User::Panic(KCorePrPanic, KPanicDataClient));
iSuccessfulDataClients.Remove(index);
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TSendControlClientJoinRequest, NetStateMachine::MStateTransition, CBindToActivity::TContext)
void CBindToActivity::TSendControlClientJoinRequest::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CBindToActivity& activity = static_cast<CBindToActivity&>(*iContext.iNodeActivity);
const TCFDataClient::TBindTo& bindToMsg(message_cast<const TCFDataClient::TBindTo>(iContext.iMessage));
__ASSERT_DEBUG(!bindToMsg.iNodeId.IsNull(), User::Panic(KCorePrPanic, KPanicNoServiceProvider));
RNodeInterface* newServiceProvider = iContext.Node().AddClientL(bindToMsg.iNodeId,
TClientType(TCFClientType::EServProvider, TCFClientType::EActivating));
__ASSERT_DEBUG(newServiceProvider, User::Panic(KCorePrPanic, KPanicNoServiceProvider));
activity.iNewServiceProvider = bindToMsg.iNodeId;
//Join the new service provider
iContext.Activity()->PostRequestTo(*newServiceProvider,
TCFControlClient::TJoinRequest(iContext.NodeId(), TClientType(TCFClientType::ECtrl)).CRef());
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TAwaitingBindToCompleteOrError, NetStateMachine::MState, CRejoinDataClientActivity::TContext)
TBool CBindToActivity::TAwaitingBindToCompleteOrError::Accept()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CBindToActivity& activity = static_cast<CBindToActivity&>(*iContext.iNodeActivity);
if (CoreNetStates::TAwaitingBindToComplete(iContext).Accept())
{
if (activity.IsBinding())
{
//Activity is binding (i.e.: we havent received TBindToComplete as a response
//to null-carrying TBindTo.
activity.ReplyToOriginator(KErrNone);
}
activity.ResetCurrentDataClient();
return ETrue;
}
else if (iContext.iMessage.IsMessage<TEBase::TError>())
{
activity.ReplyToOriginator(message_cast<TEBase::TError>(iContext.iMessage).iValue);
activity.RemoveClientFromSuccessful(activity.CurrentDataClient());
activity.ResetCurrentDataClient();
return ETrue;
}
return EFalse;
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TNoTagOrDataClientReady, NetStateMachine::MStateFork, CBindToActivity::TContext)
TInt CBindToActivity::TNoTagOrDataClientReady::TransitionTag()
{
//Any non-leaving dataclients already present?
if (iContext.Node().CountClients<TDefaultClientMatchPolicy>(
/*include*/TClientType(TCFClientType::EData),
/*exclude*/TClientType(0, TCFClientType::ELeaving | TCFClientType::EConfigAccessPoint)))
{
return KDataClientReady;
}
return KNoTag;
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TRequestCommsBinder, NetStateMachine::MStateTransition, CBindToActivity::TContext)
void CBindToActivity::TRequestCommsBinder::DoL()
{
__ASSERT_DEBUG(iContext.Node().CountClients<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EData)),User::Panic(KCorePrPanic, KPanicDataClient));
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CBindToActivity& activity = static_cast<CBindToActivity&>(*iContext.iNodeActivity);
//The service provider has been joined already and must be found here
__ASSERT_DEBUG(!activity.iNewServiceProvider.IsNull(), User::Panic(KCorePrPanic, KPanicNoServiceProvider));
RNodeInterface* newServiceProvider = iContext.Node().FindClient(activity.iNewServiceProvider);
__ASSERT_DEBUG(newServiceProvider, User::Panic(KCorePrPanic, KPanicNoServiceProvider));
//We must not be in this transition if dc was not found
__ASSERT_DEBUG(activity.CurrentDataClient(), User::Panic(KCorePrPanic, KPanicDataClient));
// Also if it is not so common to have multiple DataClient (except
// for the relation "SCPR<-CPR"), there are situation where it happens
// and where only one of them is marked as Default.
// So, we check if this is the case and, in case the
// Originator of this activity is NOT a Default one, send ECreateNew.
// If the Current DC is marked as Default, we ask to the lower layer
// to "AttachToDefault". If it is not, we ask "CreateNew".
TInt subConnOpenType = (activity.CurrentDataClient()->Flags() & TCFClientType::EDefault) ?
TSubConnOpen::EAttachToDefault : TSubConnOpen::ECreateNew;
// --- WORKAROUND START ---
// [399TODO] There are situation were we don't have any DataClient marked
// as Default, but, asking for ECreateNew, the lower layer doesn't
// manage the request very well.
// This is a WORKAROUND and need fixing (see DEF113154).
// In the meanwhile, we count the number of "DefaultDataClient" and,
// if the result is "0", we ask the lower layer "AttachToDefault"
TInt numberOfDefaultDataClient = iContext.Node().CountClients<TDefaultClientMatchPolicy>(
TClientType(TCFClientType::EData, TCFClientType::EDefault)
);
if (numberOfDefaultDataClient == 0)
{
subConnOpenType = TSubConnOpen::EAttachToDefault;
}
// --- WORKAROUND END ---
// Send "TCommsBinderRequest" to the Current ServiceProvider
activity.PostRequestTo(
*newServiceProvider,
TCFServiceProvider::TCommsBinderRequest(subConnOpenType).CRef()
);
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TCreateDataClient, NetStateMachine::MStateTransition, CBindToActivity::TContext)
void CBindToActivity::TCreateDataClient::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
IssuePeerCreationRequestL ();
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TSendBindTo, NetStateMachine::MStateTransition, CBindToActivity::TContext)
void CBindToActivity::TSendBindTo::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CBindToActivity& bindToActivity = static_cast<CBindToActivity&>(*iContext.iNodeActivity);
//Provisionally stash the current dataclient as successful. If it fails to bind, we'll unstash it
//We're doing this now, as stashing may fail and we don't want that to be the sole reason for
//unrolling.
bindToActivity.AddClientAsSuccessfulL(bindToActivity.CurrentDataClient());
TCFServiceProvider::TCommsBinderResponse* commsBinderResponse = message_cast<TCFServiceProvider::TCommsBinderResponse>(&iContext.iMessage);
Messages::TNodeId commsBinder = commsBinderResponse ? commsBinderResponse->iNodeId : Messages::TNodeId::NullId();
bindToActivity.PostRequestTo(*bindToActivity.CurrentDataClient(),
TCFDataClient::TBindTo(commsBinder, !bindToActivity.DataClientsAutocommit()).CRef());
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TSendBindToComplete, NetStateMachine::MStateTransition, CBindToActivity::TContext)
void CBindToActivity::TSendBindToComplete::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
iContext.iNodeActivity->PostToOriginators(TCFDataClient::TBindToComplete().CRef());
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TNoTagOrCommit, NetStateMachine::MStateFork, CBindToActivity::TContext)
TInt CBindToActivity::TNoTagOrCommit::TransitionTag()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CBindToActivity& bindToActivity = static_cast<CBindToActivity&>(*iContext.iNodeActivity);
if (bindToActivity.IsAutocommit())
{
return KCommit;
}
return KNoTag;
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TNoTagOrBindToComplete, NetStateMachine::MStateFork, CBindToActivity::TContext)
EXPORT_C TInt CBindToActivity::TNoTagOrBindToComplete::TransitionTag()
{
TCFFactory::TPeerFoundOrCreated& dcJoined = message_cast<TCFFactory::TPeerFoundOrCreated>(iContext.iMessage);
if (dcJoined.iNodeId.IsNull())
{
//Factory decided not to create a dataclient;
return KBindToComplete;
}
//factory created a new citizen.
return KNoTag;
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TNoTagOrBearerReady, NetStateMachine::MStateFork, CBindToActivity::TContext)
TInt CBindToActivity::TNoTagOrBearerReady::TransitionTag()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CBindToActivity& bindToActivity = static_cast<CBindToActivity&>(*iContext.iNodeActivity);
TCFDataClient::TBindTo& bindToReq = message_cast<TCFDataClient::TBindTo>(iContext.iMessage);
bindToActivity.SetAutocommit(!bindToReq.iValue);
if (bindToReq.iNodeId.IsNull())
//received a null service provider, the node is at the stack's bottom.
{
return KBearerReady;
}
RNodeInterface* sp = iContext.Node().ServiceProvider();
if (sp && bindToReq.iNodeId == sp->RecipientId())
{
//received the same service provider, it's already bound to.
bindToActivity.iNewServiceProvider = sp->RecipientId();
return KBearerReady;
}
RNodeInterface* newServiceProvider = iContext.Node().FindClient(bindToReq.iNodeId);
if (newServiceProvider)
{
__ASSERT_DEBUG(newServiceProvider->Type() == TCFClientType::EServProvider, User::Panic(KCorePrPanic, KPanicIncorrectState));
//Ok, we've received a TBindTo holding a service provider that we already know of and that is not
//our current service provider. We're going to assume this node tolerates multiple service providers (like MCPRs do).
//the current service provider will be swapped, but won't be dropped.
bindToActivity.iNewServiceProvider = bindToReq.iNodeId;
newServiceProvider->SetFlags(TCFClientType::EActivating);
bindToActivity.SetDontLeaveServiceProvider();
return KBearerReady;
}
else
{
bindToActivity.iNewServiceProvider = TNodeId::NullId();
}
//The node received a new service provider...
return KNoTag;
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TNoTagOrBearerReadyOrBindToComplete, NetStateMachine::MStateFork, CBindToActivity::TContext)
TInt CBindToActivity::TNoTagOrBearerReadyOrBindToComplete::TransitionTag()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CBindToActivity& bindToActivity = static_cast<CBindToActivity&>(*iContext.iNodeActivity);
if (!bindToActivity.NextDataClient())
{
//No more dataclients to bind
return KBindToComplete;
}
if (bindToActivity.iNewServiceProvider.IsNull())
{
//There is no service provider (new or old) below us.
return KBearerReady;
}
return KNoTag;
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TCommit, NetStateMachine::MStateTransition, CBindToActivity::TContext)
void CBindToActivity::TCommit::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CBindToActivity& bindToActivity = static_cast<CBindToActivity&>(*iContext.iNodeActivity);
TInt count = bindToActivity.DataClientsAutocommit() ? 0 : bindToActivity.iSuccessfulDataClients.Count();
while (count )
{
bindToActivity.PostRequestTo(*bindToActivity.iSuccessfulDataClients[--count], TCFDataClient::TCommitBindTo().CRef());
};
bindToActivity.iSuccessfulDataClients.Reset();
RNodeInterface* sp = iContext.Node().ServiceProvider();
if (sp && sp->RecipientId() != bindToActivity.iNewServiceProvider)
{
if (bindToActivity.ShouldLeaveServiceProvider())
{
bindToActivity.PostRequestTo(*sp, TEPeer::TLeaveRequest().CRef());
sp->SetFlags(TCFClientType::ELeaving);
}
else
{
//Didn't leave, no need for waiting for TLeaveComplete;
bindToActivity.SetIdle();
}
sp->ClearFlags(TCFClientType::EActive);
}
else
{
//Didn't leave, no need for waiting for TLeaveComplete;
bindToActivity.SetIdle();
}
if (!bindToActivity.iNewServiceProvider.IsNull() && (sp == NULL || sp->RecipientId() != bindToActivity.iNewServiceProvider))
{
RNodeInterface* newServiceProvider = iContext.Node().FindClient(bindToActivity.iNewServiceProvider);
if (newServiceProvider)
{
__ASSERT_DEBUG(newServiceProvider->Flags() & TCFClientType::EActivating, User::Panic(KCorePrPanic, KPanicIncorrectState));
newServiceProvider->ClearFlags(TCFClientType::EActivating);
newServiceProvider->SetFlags(TCFClientType::EActive);
// Note: iContext.Node().ServiceProvider() must be re-evaluated in the ASSERT below (i.e. don't use any previously cached value).
__ASSERT_DEBUG(iContext.Node().ServiceProvider() == newServiceProvider, User::Panic(KCorePrPanic, KPanicIncorrectState));
}
}
bindToActivity.iNewServiceProvider = TNodeId::NullId();
}
EXPORT_DEFINE_SMELEMENT(CBindToActivity::TCancel, NetStateMachine::MStateTransition, CBindToActivity::TContext)
void CBindToActivity::TCancel::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CBindToActivity& bindToActivity = static_cast<CBindToActivity&>(*iContext.iNodeActivity);
TInt count = bindToActivity.iSuccessfulDataClients.Count();
while (count )
{
bindToActivity.PostRequestTo(*bindToActivity.iSuccessfulDataClients[--count], TEBase::TCancel().CRef());
};
bindToActivity.iSuccessfulDataClients.Reset();
TBool setIdle = ETrue;
if (!bindToActivity.iNewServiceProvider.IsNull())
{
RNodeInterface* newServiceProvider = iContext.Node().FindClient(bindToActivity.iNewServiceProvider);
if (newServiceProvider && newServiceProvider != iContext.Node().ServiceProvider())
{
__ASSERT_DEBUG(newServiceProvider->Flags() & TCFClientType::EActivating, User::Panic(KCorePrPanic, KPanicIncorrectState));
newServiceProvider->ClearFlags(TCFClientType::EActivating);
if (bindToActivity.ShouldLeaveServiceProvider())
{
bindToActivity.PostRequestTo(*newServiceProvider, TEPeer::TLeaveRequest().CRef());
newServiceProvider->SetFlags(TCFClientType::ELeaving);
setIdle = EFalse;
}
}
}
if (setIdle)
{
bindToActivity.SetIdle();
}
bindToActivity.iNewServiceProvider = TNodeId::NullId();
}
//-=========================================================
//
//Rejoin DataClient Activity
//
//-=========================================================
EXPORT_C MeshMachine::CNodeActivityBase* CRejoinDataClientActivity::NewL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
{
TUint c = GetNextActivityCountL(aActivitySig,aNode);
return new(ELeave)CRejoinDataClientActivity(aActivitySig, c, aNode);
}
CRejoinDataClientActivity::~CRejoinDataClientActivity()
{
if ( iDataClients.Count() )
{
if (Error() != KErrNone)
{
//An error has occured when processing rejoin as the activity hasn't been properly wrapped
//up. This error must have happened before any of the clients have been added to the new
//owner as such addition must either collectively succeed or collectively fail. Reinstall
//clients in at the current owner.
for (TInt i = 0; i < iDataClients.Count(); i++)
{
if (!(iDataClients[i].iDataClient.Flags() & TCFClientType::EActive))
{
#ifndef __GCCXML__
//If the dataclient managed to report idle in the mean time, have him destroyed
RClientInterface::OpenPostMessageClose(iNode.Id(), iDataClients[i].iDataClient.RecipientId(), TEChild::TDestroy().CRef());
#endif
}
iDataClients[i].iDataClient.ClearFlags(TCFClientType::EActivating);
#ifndef __GCCXML__
//Simulate client leaving on the new owner.
RClientInterface::OpenPostMessageClose(iDataClients[i].iDataClient.RecipientId(), iDataClients[i].iNewOwner,
TEChild::TLeft().CRef());
#endif
}
}
else
{
//All clear. Remove the clients for good.
for (TInt i = 0; i < iDataClients.Count(); i++)
{
iNode.RemoveClient(iDataClients[i].iDataClient.RecipientId());
}
}
}
iDataClients.Reset();
}
void CRejoinDataClientActivity::TCFDataClientJoiningRequest::DispatchL(const TRuntimeCtxId& aSender, const TRuntimeCtxId& aRecipient)
{
const TNodeId& nodeId = address_cast<const TNodeId>(aRecipient); //This message type operates on nodes
MeshMachine::AMMNodeBase* nodeBase = reinterpret_cast<MeshMachine::AMMNodeBase*>(nodeId.Node().FetchNodeInterfaceL(AMMNodeBase::KInterfaceId));
RNodeInterface* client = NULL;
client = nodeBase->AddClientL(iDataClient, iDataClientType);
client->SetFlags(TCFClientType::EJoining|TCFClientType::EStarted);
RClientInterface::OpenPostMessageClose(nodeId, aSender, TCFPeer::TJoinComplete().CRef());
}
EXPORT_DEFINE_SMELEMENT(CRejoinDataClientActivity::TAwaitingJoinComplete, NetStateMachine::MState, CRejoinDataClientActivity::TContext)
TBool CRejoinDataClientActivity::TAwaitingJoinComplete::Accept()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 13));
if (iContext.iMessage.IsMessage<TCFPeer::TJoinComplete>())
{
return ETrue;
}
else if (iContext.iMessage.IsMessage<TEBase::TError>())
{
iContext.iNodeActivity->SetError(message_cast<TEBase::TError>(iContext.iMessage).iValue);
iContext.iNodeActivity->SetIdle();
iContext.iMessage.ClearMessageId();
}
return EFalse;
}
EXPORT_DEFINE_SMELEMENT(CRejoinDataClientActivity::TRejoinDataClient, NetStateMachine::MStateTransition, CRejoinDataClientActivity::TContext)
EXPORT_C void CRejoinDataClientActivity::TRejoinDataClient::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 14));
CRejoinDataClientActivity* rejoinActivity = static_cast<CRejoinDataClientActivity*>(iContext.iNodeActivity);
TCFRejoiningProvider::TRejoinDataClientRequest& rejoinDCMsg = message_cast<TCFRejoiningProvider::TRejoinDataClientRequest>(iContext.iMessage);
RNodeInterface* subject = iContext.Node().FindClient(rejoinDCMsg.iNodeId1);
if (NULL == subject //client not found
|| subject->Flags() & TCFClientType::ELeaving //client leaving/gone
|| !(subject->Flags() & TCFClientType::EActive)) //client reported idle or never bound to
{
User::Leave(KErrNotFound);
}
if (subject->Flags() & TCFClientType::EActivating) //client requested by someone
{
User::Leave(KErrInUse);
}
rejoinActivity->iDataClients.AppendL(TMigrationPairs(*subject, rejoinDCMsg.iNodeId2));
CRejoinDataClientActivity::TCFDataClientJoiningRequest msg(subject->RecipientId(), subject->ClientType());
RClientInterface::OpenPostMessageClose(
iContext.NodeId(),
rejoinDCMsg.iNodeId2,
msg);
//Set Client being migrated to a new owner.. reference handed over. secure lifetime.
subject->SetFlags(TCFClientType::EActivating);
}
EXPORT_DEFINE_SMELEMENT(CRejoinDataClientActivity::TApplyRejoin, NetStateMachine::MStateTransition, CRejoinDataClientActivity::TContext)
void CRejoinDataClientActivity::TApplyRejoin::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 15));
CRejoinDataClientActivity* rejoinActivity = static_cast<CRejoinDataClientActivity*>(iContext.iNodeActivity);
__ASSERT_DEBUG(rejoinActivity->iDataClients.Count(), User::Panic(KSpecAssert_ESockCrStaCPRAC, 16));
for (TInt i = 0; i < rejoinActivity->iDataClients.Count(); i++)
{
RClientInterface::OpenPostMessageClose(iContext.NodeId(), rejoinActivity->iDataClients[i].iDataClient.RecipientId(),
TCFFlow::TRejoin(rejoinActivity->iDataClients[i].iNewOwner).CRef());
rejoinActivity->iDataClients[i].iDataClient.SetFlags(TCFClientType::ELeaving);
}
rejoinActivity->PostRequestTo(iContext.NodeId(), TCFScpr::TApplyRequest().CRef());
}
EXPORT_DEFINE_SMELEMENT(CRejoinDataClientActivity::TRejoinLoopTag,NetStateMachine::MStateFork, CRejoinDataClientActivity::TContext)
EXPORT_C TInt CRejoinDataClientActivity::TRejoinLoopTag::TransitionTag()
{
if (iContext.iMessage.IsMessage<TCFRejoiningProvider::TRejoinDataClientRequest>())
{
return CoreStates::KLoopTag | NetStateMachine::EBackward;
}
return MeshMachine::KNoTag | NetStateMachine::EForward;
}
//-=========================================================
//
// CommsBinderActivity (parallel)
//
//-=========================================================
EXPORT_C MeshMachine::CNodeActivityBase* CCommsBinderActivity::NewL( const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode )
{
TUint c = GetNextActivityCountL(aActivitySig,aNode);
return new(ELeave)CCommsBinderActivity(aActivitySig, aNode, c);
}
EXPORT_C CCommsBinderActivity::CCommsBinderActivity(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode, TUint aNextActivityCount)
: MeshMachine::CNodeRetryParallelActivity(aActivitySig, aNode, aNextActivityCount),
TIfStaticFetcherNearestInHierarchy(this)
{
}
//-=========================================================
//
// CCommsBinderActivity
//
// Aggregate class containing common functionality for
// CommsBinderActivity and CCommsBinderCombiningActivity.
//
//-=========================================================
EXPORT_C TBool CCommsBinderActivity::TDataClientMutex::IsBlocked(MeshMachine::TNodeContextBase& aContext)
{
TInt c = aContext.Node().CountActivities(aContext.iNodeActivity->ActivitySigId());
__ASSERT_DEBUG(c>0, User::Panic(KSpecAssert_ESockCrStaCPRAC, 17)); //Diagnostic
if (c == 1 || CCommsBinderActivity::IsDataClientPresent(aContext))
{
return EFalse;
}
return ETrue;
}
EXPORT_C TBool CCommsBinderActivity::TDefaultDataClientMutex::IsBlocked(MeshMachine::TNodeContextBase& aContext)
{
TInt c = aContext.Node().CountActivities(aContext.iNodeActivity->ActivitySigId());
__ASSERT_DEBUG(c>0, User::Panic(KSpecAssert_ESockCrStaCPRAC, 18)); //Diagnostic
if (c == 1 || CCommsBinderActivity::IsDataClientPresent(aContext, TCFClientType::EDefault))
{
return EFalse;
}
return ETrue;
}
EXPORT_C /*virtual*/ CCommsBinderActivity::~CCommsBinderActivity()
{
if(!iBinderRequestParameters.IsNull())
{
iBinderRequestParameters.Close();
}
}
EXPORT_C void CCommsBinderActivity::StoreBinder(RNodeInterface* aDataClient)
{
__ASSERT_DEBUG(iPendingBinder == aDataClient || iPendingBinder == NULL, User::Panic(KSpecAssert_ESockCrStaCPRAC, 19));
iPendingBinder = aDataClient;
}
EXPORT_C RNodeInterface* CCommsBinderActivity::Binder() const
{
return iPendingBinder;
}
EXPORT_C void CCommsBinderActivity::StoreBinderRequestParameters(const RCFParameterFamilyBundleC& aBinderRequestParameters)
{
__ASSERT_DEBUG(iBinderRequestParameters.IsNull(), User::Panic(KSpecAssert_ESockCrStaCPRAC, 20));
if(! aBinderRequestParameters.IsNull())
{
iBinderRequestParameters.Open(aBinderRequestParameters);
}
}
void CCommsBinderActivity::SendCustomFlowProvision()
/**
Send a custom message that provisions a flow with flow parameters
*/
{
__ASSERT_DEBUG(iPendingBinder, User::Panic(KSpecAssert_ESockCrStaCPRAC, 21));
// Only send the message if we have parameters to send
if(!iBinderRequestParameters.IsNull())
{
RParameterFamily parameterFamily =
iBinderRequestParameters.FindFamily(KFlowParametersFamily);
if(!parameterFamily.IsNull())
{
STypeId typeId = STypeId::CreateSTypeId(CFlowRequestParameters::EUid, CFlowRequestParameters::EType);
CFlowRequestParameters* flowParams = static_cast<CFlowRequestParameters*>(parameterFamily.FindParameterSet(typeId, RParameterFamily::ERequested));
iPendingBinder->PostMessage(
iNode.Id(),
TCFInternalEsock::TFlowProvision(
flowParams->GetFlowParams()
).CRef()
);
}
}
}
void CCommsBinderActivity::SendBinderResponseToOriginator()
/**
Send out CommsBinderResponse to all originators.
We send to all originators that have joined up until this point, and store this count
in iOriginatorsCountSnapshot. See comment in ProcessBindToComplete().
*/
{
__ASSERT_DEBUG(iPendingBinder, User::Panic(KSpecAssert_ESockCrStaCPRAC, 22));
PostRequestTo(
address_cast<Messages::TNodeId>(FirstOriginator().RecipientId()),
TCFServiceProvider::TCommsBinderResponse(iPendingBinder->RecipientId()).CRef());
iPendingBinder->SetFlags(TCFClientType::EActivating);
}
void CCommsBinderActivity::BindToComplete()
{
__ASSERT_DEBUG(iPendingBinder, User::Panic(KSpecAssert_ESockCrStaCPRAC, 23));
TUint c = iNode.CountActivities(ActivitySigId());
// Note: this routine can be used with parallel and non-parallel binder activities. In the
// former case we start with multiple activities and eventually end up with a single one. In
// the latter case we have a single activity throughout.
if(c == 1)
{
iPendingBinder->ClearFlags(TCFClientType::EActivating);
}
iPendingBinder = NULL;
}
//
// CCommsBinderActivity methods that are embedded transitions/states/stateforks
//
EXPORT_C RNodeInterface* CCommsBinderActivity::IsDataClientPresent(TNodeContextBase& aContext, TUint aClientFlags)
/**
Check if we have a data client and, if so, store it as the binder for this activity.
@param aContext Node context
@param aClientFlags client flags to use in iterator check
@return ETrue if data client present, else EFalse.
*/
{
// Be careful not to use a client to which we have already sent TDestroy previously.
// Find the first data client that does not have the ELeaving flag set. If all are
// marked ELeaving then return EFalse - they are on the way out and will disappear
// eventually. The effect will be that a new data client will be created.
RNodeInterface* dataClient = aContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EData, aClientFlags), TClientType(0, TCFClientType::ELeaving));
return dataClient;
}
EXPORT_DEFINE_SMELEMENT(CCommsBinderActivity::TNoTagOrUseExisting, NetStateMachine::MStateFork, CCommsBinderActivity::TContext)
EXPORT_C TInt CCommsBinderActivity::TNoTagOrUseExisting::TransitionTag()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 24));
TCFServiceProvider::TCommsBinderRequest& msg = message_cast<TCFServiceProvider::TCommsBinderRequest>(iContext.iMessage);
// Save away the parameters sent to us so that they are accessible during the activity
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(CCommsBinderActivity::KInterfaceId), User::Panic(KCorePrPanic, KPanicExtInterfaceNotSupported));
CCommsBinderActivity* intf = reinterpret_cast<CCommsBinderActivity*>(iContext.iNodeActivity->FetchExtInterface(CCommsBinderActivity::KInterfaceId));
intf->StoreBinderRequestParameters(msg.iFamilyBundle);
if(msg.iValue == TSubConnOpen::EAttachToDefault)
{
RNodeInterface* dc = CCommsBinderActivity::IsDataClientPresent(iContext);
if (dc)
{
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(CCommsBinderActivity::KInterfaceId), User::Panic(KCorePrPanic, KPanicExtInterfaceNotSupported));
CCommsBinderActivity* intf = reinterpret_cast<CCommsBinderActivity*>(iContext.iNodeActivity->FetchExtInterface(CCommsBinderActivity::KInterfaceId));
intf->StoreBinder(dc);
return CoreStates::KUseExisting;
}
}
return MeshMachine::KNoTag;
}
//MZTODO - logic of:
//TNoTagOrWaitForIncomingOrUseExisting
//&
//TNoTagOrWaitForIncomingOrUseExistingDefault
//has been copied but does not seem right, as both use EDefault?
//Why?
//[401TODO] DL : Only one of TNoTagOrWaitForIncomingOrUseExisting(Default) is used, is it ok to nuke one?
EXPORT_DEFINE_SMELEMENT(CCommsBinderActivity::TNoTagOrWaitForIncomingOrUseExisting, NetStateMachine::MStateFork, CCommsBinderActivity::TContext)
EXPORT_C TInt CCommsBinderActivity::TNoTagOrWaitForIncomingOrUseExisting::TransitionTag()
{
TCFServiceProvider::TCommsBinderRequest& msg = message_cast<TCFServiceProvider::TCommsBinderRequest>(iContext.iMessage);
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 25));
if (msg.iValue == TSubConnOpen::EWaitForIncoming)
{
return CoreNetStates::KWaitForIncoming;
}
else
{
RNodeInterface* dc = CCommsBinderActivity::IsDataClientPresent(iContext, TCFClientType::EDefault);
if (dc)
{
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(CCommsBinderActivity::KInterfaceId), User::Panic(KCorePrPanic, KPanicExtInterfaceNotSupported));
CCommsBinderActivity* intf = reinterpret_cast<CCommsBinderActivity*>(iContext.iNodeActivity->FetchExtInterface(CCommsBinderActivity::KInterfaceId));
intf->StoreBinder(dc);
return CoreStates::KUseExisting;
}
}
return MeshMachine::KNoTag;
}
EXPORT_DEFINE_SMELEMENT(CCommsBinderActivity::TNoTagOrWaitForIncomingOrUseExistingDefault, NetStateMachine::MStateFork, CCommsBinderActivity::TContext)
EXPORT_C TInt CCommsBinderActivity::TNoTagOrWaitForIncomingOrUseExistingDefault::TransitionTag()
{
TCFServiceProvider::TCommsBinderRequest& msg = message_cast<TCFServiceProvider::TCommsBinderRequest>(iContext.iMessage);
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 26));
if(msg.iValue == TSubConnOpen::EAttachToDefault)
{
RNodeInterface* dc = CCommsBinderActivity::IsDataClientPresent(iContext, TCFClientType::EDefault);
if (dc)
{
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(CCommsBinderActivity::KInterfaceId), User::Panic(KCorePrPanic, KPanicExtInterfaceNotSupported));
CCommsBinderActivity* intf = reinterpret_cast<CCommsBinderActivity*>(iContext.iNodeActivity->FetchExtInterface(CCommsBinderActivity::KInterfaceId));
intf->StoreBinder(dc);
return CoreStates::KUseExisting;
}
}
else if (msg.iValue == TSubConnOpen::EWaitForIncoming)
{
return CoreNetStates::KWaitForIncoming;
}
return MeshMachine::KNoTag;
}
EXPORT_DEFINE_SMELEMENT(CCommsBinderActivity::TStorePendingBinder, NetStateMachine::MStateTransition, CCommsBinderActivity::TContext)
EXPORT_C void CCommsBinderActivity::TStorePendingBinder::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 27));
message_cast<TCFFactory::TPeerFoundOrCreated>(iContext.iMessage);
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(CCommsBinderActivity::KInterfaceId), User::Panic(KCorePrPanic, KPanicExtInterfaceNotSupported));
CCommsBinderActivity* intf = reinterpret_cast<CCommsBinderActivity*>(iContext.iNodeActivity->FetchExtInterface(CCommsBinderActivity::KInterfaceId));
intf->StoreBinder(iContext.iPeer);
}
EXPORT_DEFINE_SMELEMENT(CCommsBinderActivity::TSendBinderResponse, NetStateMachine::MStateTransition, CCommsBinderActivity::TContext)
EXPORT_C void CCommsBinderActivity::TSendBinderResponse::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 28));
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(CCommsBinderActivity::KInterfaceId), User::Panic(KCorePrPanic, KPanicExtInterfaceNotSupported));
CCommsBinderActivity* intf = reinterpret_cast<CCommsBinderActivity*>(iContext.iNodeActivity->FetchExtInterface(CCommsBinderActivity::KInterfaceId));
intf->SendBinderResponseToOriginator();
}
EXPORT_DEFINE_SMELEMENT(CCommsBinderActivity::TSendCustomFlowProvision, NetStateMachine::MStateTransition, CCommsBinderActivity::TContext)
EXPORT_C void CCommsBinderActivity::TSendCustomFlowProvision::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 29));
__ASSERT_DEBUG(iContext.iNodeActivity->SupportsExtInterface(CCommsBinderActivity::KInterfaceId), User::Panic(KCorePrPanic, KPanicExtInterfaceNotSupported));
CCommsBinderActivity* intf = reinterpret_cast<CCommsBinderActivity*>(iContext.iNodeActivity->FetchExtInterface(CCommsBinderActivity::KInterfaceId));
intf->SendCustomFlowProvision();
}
EXPORT_DEFINE_SMELEMENT(CCommsBinderActivity::TAwaitingBindToComplete, NetStateMachine::MState, PRStates::TContext)
EXPORT_C TBool CCommsBinderActivity::TAwaitingBindToComplete::Accept()
{
CoreNetStates::TAwaitingBindToComplete awaitingBindToComplete(iContext);
if (awaitingBindToComplete.Accept())
{
CCommsBinderActivity* binderActivity = reinterpret_cast<CCommsBinderActivity*>(iContext.iNodeActivity->FetchExtInterface(CCommsBinderActivity::KInterfaceId));
__ASSERT_DEBUG(binderActivity, User::Panic(KSpecAssert_ESockCrStaCPRAC, 30));
binderActivity->BindToComplete();
iContext.Node().DestroyOrphanedDataClients();
return ETrue;
}
return EFalse;
}
//-=========================================================
//
//CNoBearer Activity
//
//-=========================================================
CNoBearer::CNoBearer(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode, TUint aActivitiesCount)
: MeshMachine::CNodeRetryParallelActivity(aActivitySig, aNode, aActivitiesCount),
ABindingActivity(aNode.Id()),
TIfStaticFetcherNearestInHierarchy(this)
{
}
/*virtual*/ CNoBearer::~CNoBearer()
{
iNoBearerParameters.Close();
}
EXPORT_C MeshMachine::CNodeActivityBase* CNoBearer::NewL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
{
TUint c = GetNextActivityCountL(aActivitySig,aNode);
return new(ELeave)CNoBearer(aActivitySig, aNode, c);
}
EXPORT_C TNodePeerId& CNoBearer::GetOriginator()
{
__ASSERT_DEBUG(iOriginators.Count() == 1, User::Panic(KSpecAssert_ESockCrStaCPRAC, 31));
return iOriginators[0];
}
EXPORT_C void CNoBearer::ReturnInterfacePtrL(CoreActivities::ABindingActivity*& aInterface)
{
aInterface = this;
}
EXPORT_C TBool CNoBearer::TServiceProviderMutex::IsBlocked(MeshMachine::TNodeContextBase& aContext)
{
TInt c = aContext.Node().CountActivities(aContext.iNodeActivity->ActivitySigId());
__ASSERT_DEBUG(c>0, User::Panic(KSpecAssert_ESockCrStaCPRAC, 32)); //Diagnostic
if (c == 1 || aContext.Node().CountClients<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EServProvider)) != 0)
{
return EFalse;
}
return ETrue;
}
EXPORT_DEFINE_SMELEMENT(CNoBearer::TRequestCommsBinder, NetStateMachine::MStateTransition, CNoBearer::TContext)
EXPORT_C void CNoBearer::TRequestCommsBinder::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CNoBearer& noBearer = static_cast<CNoBearer&>(*iContext.iNodeActivity);
RNodeInterface* sp = iContext.Node().ServiceProvider();
__ASSERT_DEBUG(sp, User::Panic(KCorePrPanic, KPanicNoServiceProvider));
TSubConnOpen::TSubConnType type = TSubConnOpen::EAttachToDefault;
if (!(noBearer.GetOriginator().Flags() & TCFClientType::EDefault))
{
type = TSubConnOpen::ECreateNew;
}
noBearer.PostRequestTo(
*sp,
TCFServiceProvider::TCommsBinderRequest(
type, noBearer.iNoBearerParameters
).CRef()
);
}
EXPORT_DEFINE_SMELEMENT(CNoBearer::TStoreRequestParameters, NetStateMachine::MStateTransition, CNoBearer::TContext)
EXPORT_C void CNoBearer::TStoreRequestParameters::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CNoBearer& noBearer = static_cast<CNoBearer&>(*iContext.iNodeActivity);
const TCFControlProvider::TNoBearer& noBearerMessage = message_cast<TCFControlProvider::TNoBearer>(iContext.iMessage);
__ASSERT_DEBUG(noBearer.iNoBearerParameters.IsNull(), User::Panic(KSpecAssert_ESockCrStaCPRAC, 33)); // handle should be empty when this fn is called
if(noBearerMessage.iFamilyBundle.IsNull())
{
noBearer.iNoBearerParameters.Open();
}
else
{
noBearer.iNoBearerParameters.Open(noBearerMessage.iFamilyBundle);
}
}
EXPORT_DEFINE_SMELEMENT(CNoBearer::TNoTagOrDataClientsToStart, NetStateMachine::MStateFork, CNoBearer::TContext)
TInt CNoBearer::TNoTagOrDataClientsToStart::TransitionTag()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CNoBearer& activity = static_cast<CNoBearer&>(*iContext.iNodeActivity);
const TNodePeerId& originator = activity.GetOriginator();
__ASSERT_DEBUG(originator.Type() & TCFClientType::EData, User::Panic(KSpecAssert_ESockCrStaCPRAC, 34));
if (activity.Error() == KErrNone && (originator.Flags() & (TCFClientType::EStarting|TCFClientType::EStarted|TCFClientType::ELeaving)) == 0)
{
//Start dc
return CoreNetStates::KDataClientsToStart;
}
//Finish the activity
return MeshMachine::KNoTag;
}
EXPORT_DEFINE_SMELEMENT(CNoBearer::TStartOriginatingDataClient, NetStateMachine::MStateTransition, CNoBearer::TContext)
void CNoBearer::TStartOriginatingDataClient::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CNoBearer& activity = static_cast<CNoBearer&>(*iContext.iNodeActivity);
TNodePeerId& originator = activity.GetOriginator();
__ASSERT_DEBUG(originator.Type() & TCFClientType::EData, User::Panic(KSpecAssert_ESockCrStaCPRAC, 35));
activity.PostRequestTo(originator.Peer(), TCFDataClient::TStart().CRef());
originator.SetFlags(TCFClientType::EStarting);
}
EXPORT_DEFINE_SMELEMENT(CNoBearer::TNoTagOrBearerPresent, NetStateMachine::MStateFork, CNoBearer::TContext)
EXPORT_C TInt CNoBearer::TNoTagOrBearerPresent::TransitionTag()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CNoBearer& noBearer = static_cast<CNoBearer&>(*iContext.iNodeActivity);
const TCFControlProvider::TNoBearer& noBearerMessage = message_cast<TCFControlProvider::TNoBearer>(iContext.iMessage);
__ASSERT_DEBUG(noBearer.iNoBearerParameters.IsNull(), User::Panic(KSpecAssert_ESockCrStaCPRAC, 36)); // should not yet be set when this fn is called
noBearer.iNoBearerParameters.Open(noBearerMessage.iFamilyBundle);
CoreNetStates::TNoTagOrBearerPresent fork(iContext);
return fork.TransitionTag();
}
EXPORT_DEFINE_SMELEMENT(CNoBearer::TNoTagOrBearerPresentForAutostart, NetStateMachine::MStateFork, CNoBearer::TContext)
EXPORT_C TInt CNoBearer::TNoTagOrBearerPresentForAutostart::TransitionTag()
{
TInt cntrlClients = iContext.Node().CountClients<TDefaultClientMatchPolicy>(
/*include*/TClientType(TCFClientType::ECtrl));
if (cntrlClients > 0 &&
iContext.Node().ServiceProvider() &&
!(iContext.Node().ServiceProvider()->Flags() & TCFClientType::EStarted))
{
//This fork calculates if the NoBearer activity (which this fork has been implemented for)
//should attempt to autostart the service provider when returning it to the sender of TNoBearer.
//The philosphy here is that if the local node doesn't have a control client, then there's noone
//that could posibly start it. It will hence decide to autostart as the top layer of what looks
//like an implicit connection. In the future this autostart behaviour should become a specialty
//of someone more concrete (rather than generic function). We are speculating about the implicit
//top layer that could acquire this function if it ever comes into being.
return CoreNetStates::KBearerPresent;
}
return KNoTag;
}
//-=========================================================
//
//CStartActivity Activity
//
//-=========================================================
CStartActivity::CStartActivity(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
: MeshMachine::CNodeRetryActivity(aActivitySig, aNode),
CoreActivities::ABindingActivity(aNode.Id()),
TIfStaticFetcherNearestInHierarchy(this)
{
}
EXPORT_C CStartActivity::~CStartActivity()
{
}
EXPORT_C MeshMachine::CNodeActivityBase* CStartActivity::NewL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
{
return new (ELeave) CStartActivity(aActivitySig, aNode);
}
//-=========================================================
//
//Gone Down Activity
//
//-=========================================================
MeshMachine::CNodeActivityBase* CGoneDownActivity::NewL(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
{
CGoneDownActivity* self = new (ELeave) CGoneDownActivity(aActivitySig,aNode);
return self;
}
CGoneDownActivity::CGoneDownActivity(const MeshMachine::TNodeActivity& aActivitySig, MeshMachine::AMMNodeBase& aNode)
: MeshMachine::CNodeRetryActivity(aActivitySig, aNode)
{
}
CGoneDownActivity::~CGoneDownActivity()
{
//This is a gone down activity. Error mode is its only/natural state
//CGoneDownActivity inherits ultimatelly from CNodeActivityBase, which
//will attempt to interpret the error mode as a failure to execute (and
//auto respond to orignators), which we don't want. Hence clearing
//the error and allowing 'this' to die peacefully.
SetError(KErrNone);
}
void CGoneDownActivity::StartL(TNodeContextBase& aContext, const Messages::XNodePeerId& aOriginator, const TStateTriple& aFirst)
{
//399TODO: for the moment ignore duplicated TGoneDown messages
//but this needs to be fixed (someone is sending TGoneDown from TSendDataClientStopped
//hence the problem)
//ASSERT(IsIdle());
if (!IsIdle())
{
return;
}
//This activity provides service for only one single requestor at a time.
__ASSERT_DEBUG(iOriginators.Count()==0, User::Panic(KSpecAssert_ESockCrStaCPRAC, 37)); //Diagnostic panic
TCFControlClient::TGoneDown& msg = message_cast<TCFControlClient::TGoneDown>(aContext.iMessage);
SetError(msg.iValue1);
iGoneDownApId = msg.iValue2;
MESH_LOG_ACTIVITY_EXT(KMeshMachineSubTag, this, &aContext, (_L8("CGoneDownActivity %08x:\tStartL->starting activity"), this));
NetStateMachine::ACore::Start(&aContext, aFirst);
MESH_LOG_ACTIVITY_EXT(KMeshMachineSubTag, this, &aContext, (_L8("CGoneDownActivity %08x:\tStartL->activity started"), this));
(void)aOriginator;
}
//Find next DC to rebind
TBool CGoneDownActivity::IsIdle() const
{
return NetStateMachine::ACore::IsIdle();
}
DEFINE_SMELEMENT(CGoneDownActivity::TSendErrorRecoveryReq, NetStateMachine::MStateTransition, CGoneDownActivity::TContext)
void CGoneDownActivity::TSendErrorRecoveryReq::DoL()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
CGoneDownActivity& activity = static_cast<CGoneDownActivity&>(*iContext.iNodeActivity);
//TInt error = ExtractErrorCode(iContext.iMessage);
TErrContext ctx(iContext.NodeId(), TCFControlClient::TGoneDown::Id(), activity.ActivitySigId(), TStateChange(0, activity.Error()));
ctx.iInfo = (TAny*)activity.iGoneDownApId;
TEErrorRecovery::TErrorRecoveryRequest msg(ctx);
//We can not set SetSentTo() to Control Provider, because the response may not be coming from it
//(for example it could be coming from the MCpr and we could be the SCpr).
//Normally this would be a problem because any unrelated TError message arriving to the node
//and presented to the awaiting state would easily be confused with the response (TError ==
//no recovery on the MCpr == EPropagate).
//We avoid the problem by checking all arriving TError messages if they are adressed to our activity.
__ASSERT_DEBUG(iContext.Node().ControlProvider(), User::Panic(KCorePrPanic, KPanicNoControlProvider));
activity.PostRequestTo(*iContext.Node().ControlProvider(),
TCFSafeMessage::TRequestCarrierEast<TEErrorRecovery::TErrorRecoveryRequest>(msg).CRef());
activity.ClearPostedTo();
}
DEFINE_SMELEMENT(CGoneDownActivity::TIgnoreOrPropagate, NetStateMachine::MStateFork, CGoneDownActivity::TContext)
TInt CGoneDownActivity::TIgnoreOrPropagate::TransitionTag()
{
__ASSERT_DEBUG(iContext.iMessage.IsMessage<TEErrorRecovery::TErrorRecoveryResponse>(), User::Panic(KSpecAssert_ESockCrStaCPRAC, 38));
RNodeInterface* sp = iContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EServProvider, TCFClientType::EStarted));
if (sp)
{
return CoreStates::KIgnore | NetStateMachine::EForward;
}
//There is no started service provider, the reconnection, mobility, etc must have failed,
//continue with tearing this layer down.
CGoneDownActivity& activity = static_cast<CGoneDownActivity&>(*iContext.iNodeActivity);
TErrResponse& resp = message_cast<TEErrorRecovery::TErrorRecoveryResponse>(iContext.iMessage).iErrResponse;
resp.iAction=TErrResponse::EPropagate;
__ASSERT_DEBUG(activity.Error()!=KErrNone, User::Panic(KSpecAssert_ESockCrStaCPRAC, 39));
resp.iError = activity.Error();
return CoreStates::KPropagate | NetStateMachine::EForward;
}
EXPORT_DEFINE_SMELEMENT(CStartActivity::TAwaitingBindToCompleteOrCancel, NetStateMachine::MState, CStartActivity::TContext)
TBool CStartActivity::TAwaitingBindToCompleteOrCancel::Accept()
{
__ASSERT_DEBUG(iContext.iNodeActivity, User::Panic(KCorePrPanic, KPanicNoActivity));
if (iContext.iMessage.IsMessage<TEBase::TCancel>())
{
iContext.iNodeActivity->SetError(KErrCancel);
iContext.iMessage.ClearMessageId();
return EFalse;
}
else
{
CoreNetStates::TAwaitingBindToComplete state(iContext);
return state.Accept();
}
}
} //PRActivities
EXPORT_DEFINE_SMELEMENT(PRDataClientStopActivity::TNoTagOrProviderStopped, NetStateMachine::MStateFork, PRDataClientStopActivity::TContext)
EXPORT_C TInt PRDataClientStopActivity::TNoTagOrProviderStopped::TransitionTag()
{
iContext.iNodeActivity->SetError(message_cast<TCFDataClient::TStop>(iContext.iMessage).iValue);
if (iContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(
TClientType(TCFClientType::EData, TCFClientType::EStarted)) != NULL)
{
// At least one started data client
return MeshMachine::KNoTag;
}
return CoreNetStates::KProviderStopped;
}