// Copyright (c) 2007-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
//
#include <s32strm.h>
#include <barsread2.h>
#include "ssmcommandparameters.h"
#include "cmdmultiplewait.h"
#include "ssmdebug.h"
#include "ssmpanic.h"
const TInt KMultipleWaitMilliToMicro = 1000;
/**
Used to create an instance of CCmdMultipleWait class from given parameters.
This method is used by SsmCommandFactory to create a command.
Creating multiple wait command with timeout value and
Timer will be constructed only when command is executed through CLE
@param aTimeout Timeout specified for MULTIPLE_WAIT command
@return A pointer to an object of type CCmdMultipleWait.
*/
CCmdMultipleWait* CCmdMultipleWait::NewL(TInt32 aTimeout)
{
CCmdMultipleWait* self = new (ELeave) CCmdMultipleWait(aTimeout);
return self;
}
#ifdef SYMBIAN_SSM_FLEXIBLE_MERGE
/**
Used to create an instance of CCmdMultipleWait class from given parameters.
This method is used by SsmCommandFactory to create a command.
Creating multiple wait command with timeout value and Priority
Timer will be constructed only when command is executed through CLE
@param aTimeout Timeout specified for MULTIPLE_WAIT command
@param aPriority The priority of command in the list
@return A pointer to an object of type CCmdMultipleWait.
*/
CCmdMultipleWait* CCmdMultipleWait::NewL(TInt32 aTimeout, const TUint16 aPriority)
{
CCmdMultipleWait* self = new (ELeave) CCmdMultipleWait(aTimeout, aPriority);
return self;
}
#endif //SYMBIAN_SSM_FLEXIBLE_MERGE
/**
Used to create an instance of CCmdMultipleWait class from a read stream.
CSsmCommandList::InternalizeL() uses this method to construct a command from stream.
Creating multiple wait command with ReadStream and DeferredCommands
Timer will be constructed only when command is executed through CLE
@param aReadStream Read stream containing data through which object can be created
@param aDeferredCommands List of deferred commands
@return A pointer to an object of type CCmdMultipleWait.
*/
CCmdMultipleWait* CCmdMultipleWait::NewL(RReadStream& aReadStream, TArray<MSsmCommand*>& aDeferredCommands)
{
CCmdMultipleWait* self = new (ELeave) CCmdMultipleWait();
CleanupStack::PushL(self);
self->ConstructL(aDeferredCommands, aReadStream);
CleanupStack::Pop(self);
return self;
}
/**
Used to create an instance of CCmdMultipleWait class from resource.
Creating multiple wait command with CommandParameters and
Timer will be constructed only when command is executed through CLE
@param aCommandParameters Object data from a resource file
@return A pointer to an object of type CCmdMultipleWait.
*/
CCmdMultipleWait* CCmdMultipleWait::NewL(TSsmCommandParameters& aCommandParameters)
{
CCmdMultipleWait* self = new (ELeave) CCmdMultipleWait();
CleanupStack::PushL(self);
self->ConstructL(aCommandParameters);
CleanupStack::Pop(self);
return self;
}
/**
Used to create an instance of CCmdMultipleWait class from CCmdMultipleWait object
Must be used only by CLE
@param aCmdMultipleWait CCmdMultipleWait reference
@param aDeferredCommands TArray<MSsmCommand*> reference
@return A pointer to an object of type CCmdMultipleWait.
*/
CCmdMultipleWait* CCmdMultipleWait::NewLC(const CCmdMultipleWait& aCmdMultipleWait, TArray<MSsmCommand*>& aDeferredCommands)
{
#ifdef SYMBIAN_SSM_FLEXIBLE_MERGE
CCmdMultipleWait* self = new (ELeave) CCmdMultipleWait(aCmdMultipleWait.Timeout(),aCmdMultipleWait.Priority());
#else
CCmdMultipleWait* self = new (ELeave) CCmdMultipleWait(aCmdMultipleWait.Timeout());
#endif
CleanupStack::PushL(self);
self->ConstructL(aCmdMultipleWait, aDeferredCommands);
return self;
}
void CCmdMultipleWait::ConstructL(const CCmdMultipleWait& aCmdMultipleWait, TArray<MSsmCommand*>& aDeferredCommands)
{
iConditionalResourceId = aCmdMultipleWait.ConditionalInformation();
#ifdef SYMBIAN_SSM_FLEXIBLE_MERGE
if (iConditionalResourceId != 0)
{
SetCommandResourceFileNameL(aCmdMultipleWait.GetCommandResourceFileName());
}
#endif
const TInt count = aDeferredCommands.Count();
for (TInt i = 0; i < count; i++)
{
iDeferredCommands.AppendL(aDeferredCommands[i]);
}
ConstructL(); // Constructs the timer
}
/**
Returns the version of the BIC
@return The maximum supported version of the BIC
*/
TInt CCmdMultipleWait::MaxSupportedVersion()
{
#ifdef SYMBIAN_SSM_FLEXIBLE_MERGE
return (static_cast<TInt>(ECmdMultipleWaitVersionWithPriority));
#else
return (static_cast<TInt>(ECmdMultipleWaitInitialVersion));
#endif //SYMBIAN_SSM_FLEXIBLE_MERGE
}
/**
Destructor
*/
CCmdMultipleWait::~CCmdMultipleWait()
{
Cancel();
iDeferredCommands.Close();
delete iMultipleWaitTimer;
}
/**
Execute this command
@param aStatus The TRequestStatus which is completed when value is set either
with KErrNone or with error value.
*/
void CCmdMultipleWait::Execute(TRequestStatus& aStatus)
{
aStatus = KRequestPending;
iExecuteRequest = &aStatus;
if (0 == iDeferredCommands.Count())
{
DEBUGPRINT1A("Deferred command list is empty, Multiple wait completing request with KErrNone");
CompleteExecuteRequest(KErrNone);
}
else
{
iCommandIndex = 0; // start processing with first command in deferred command list
MoveToNextState(EStateCheckCompletionStatus);
}
}
/**
Releases resources associated with this BIC
*/
void CCmdMultipleWait::Release()
{
delete this;
}
/**
Cancels the BIC
*/
void CCmdMultipleWait::ExecuteCancel()
{
//cancel the outstanding request
Cancel();
//and complete the request with KErrCancel
CompleteExecuteRequest(KErrCancel);
}
/**
Returns the type of the BIC
@return Type of BIC
*/
TSsmCommandType CCmdMultipleWait::Type() const
{
return (ESsmCmdMultipleWait);
}
/**
Externalises the configuration of the BIC
@param aWriteStream A write stream to write BIC data to
*/
void CCmdMultipleWait::ExternalizeL(RWriteStream& aWriteStream) const
{
aWriteStream.WriteInt32L(iTimeout);
#ifdef SYMBIAN_SSM_FLEXIBLE_MERGE
aWriteStream.WriteUint16L(iPriority);
#endif //SYMBIAN_SSM_FLEXIBLE_MERGE
}
/**
Handles command's request completion event.
@panic EInvalidRunLAction if the RunL action is invalid
*/
void CCmdMultipleWait::RunL()
{
switch (iInternalState)
{
case EStateCheckCompletionStatus:
{
CheckCompletion();
break;
}
case EStateTakeAction:
{
// pending command is completed so take the proper action
TakeProperAction();
// and process remaining deferred commands
iCommandIndex++;
MoveToNextState(EStateCheckCompletionStatus);
break;
}
case EStateTimerExpired:
{
// multiple wait will not consider the severity in this case,
// it will just complete the request with KErrTimedOut.
if (iExecuteRequest && (iExecuteRequest->Int() == KRequestPending))
{
CompleteRequest(*iExecuteRequest, KErrTimedOut);
}
iExecuteRequest = NULL;
break;
}
default:
{
PanicNow(KPanicCmdMultipleWait, EInvalidRunLAction);
break;
}
}
}
/**
Cancellation of an outstanding request.
*/
void CCmdMultipleWait::DoCancel()
{
Cleanup();
}
/**
Complete the command request with aError. It gets called when RunL leaves.
@param aError Error code with which RunL has left.
@return KErrNone as error is handled in this function.
*/
TInt CCmdMultipleWait::RunError(TInt aError)
{
DEBUGPRINT2A("CCmdMultipleWait::RunError called with reason %d", aError);
CompleteExecuteRequest(aError);
return KErrNone;
}
/**
Helper function to check the completion code of a deferred command and move to the next state.
*/
void CCmdMultipleWait::CheckCompletion()
{
TInt count = iDeferredCommands.Count();
for ( ; iCommandIndex < count; iCommandIndex++)
{
DEBUGPRINT2A("Processing command %d", iCommandIndex);
MSsmCommand* cmd = iDeferredCommands[iCommandIndex];
// Severity of multiple wait should be same as the current command,
iSeverity = cmd->Severity();
if (cmd->CompletionStatus() == KSsmCommandPending)
{
// Register for the command completion and wait for command to complete
DEBUGPRINT2A("Command %d is pending, Register for completion", iCommandIndex);
SetActive();
iInternalState = EStateTakeAction;
cmd->RegisterCompletionObserver(iStatus);
//start timer if not yet started
if (iMultipleWaitTimer && !iMultipleWaitTimer->IsActive())
{
if (iTimeout > 0)
{
DEBUGPRINT2A("Timer started for %d milliseconds", iTimeout);
iMultipleWaitTimer->StartTimer(iTimeout * KMultipleWaitMilliToMicro);
}
}
break;
}
else
{
TakeProperAction();
}
}
// processed all deferred command so complete the request
if (iCommandIndex == count)
{
DEBUGPRINT1A("All commands processed!!!");
CompleteExecuteRequest(iCommandError);
}
}
/**
Helper function to take the proper action and move to the next state.
*/
void CCmdMultipleWait::TakeProperAction()
{
MSsmCommand* cmd = iDeferredCommands[iCommandIndex];
iCommandError = cmd->CompletionStatus();
DEBUGPRINT4A("Pending command %d completed with error %d and Severity is %d", iCommandIndex, iCommandError, cmd->Severity());
if (iCommandError != KErrNone && iSeverity != ECmdIgnoreFailure)
{
// means command has failed which has severity other then ECmdIgnoreFailure
//cancel all pending commands if any
Cleanup();
CompleteExecuteRequest(iCommandError);
}
else
{
// ignore the error if command has ECmdIgnoreFailure severity
iCommandError = KErrNone;
}
}
#ifdef SYMBIAN_SSM_FLEXIBLE_MERGE
/**
Overloaded CTOR
@param aTimeout Timeout for this command
@param aPriority The priority for the command
*/
CCmdMultipleWait::CCmdMultipleWait( TInt32 aTimeout, const TUint16 aPriority)
:iTimeout(aTimeout)
{
iPriority = aPriority;
}
#endif //SYMBIAN_SSM_FLEXIBLE_MERGE
/**
Overloaded CTOR
@param aTimeout Timeout for this command
*/
CCmdMultipleWait::CCmdMultipleWait( TInt32 aTimeout)
: iTimeout(aTimeout)
{
}
/**
Default CTOR
*/
CCmdMultipleWait::CCmdMultipleWait()
{
}
/**
Construct the command object with deferred commands and readstream.
@param aDeferredCommands List of deferred commands.
@param aReadStream Readstream containing data for this BIC.
*/
void CCmdMultipleWait::ConstructL(TArray<MSsmCommand*>& aDeferredCommands, RReadStream& aReadStream)
{
TInt count = aDeferredCommands.Count();
for (TInt i = 0; i < count; i++)
{
iDeferredCommands.AppendL(aDeferredCommands[i]);
}
InternalizeL(aReadStream);
}
/**
Constructs an object from resource file.
@param aCommandParameters Object data from a resource file
*/
void CCmdMultipleWait::ConstructL(TSsmCommandParameters& aCommandParameters)
{
RResourceReader& reader = aCommandParameters.MainReader();
const TSsmCommandType type = static_cast<TSsmCommandType>(reader.ReadInt16L());
SSMLOGLEAVEIFFALSE(type == Type(), KErrNotSupported);
const TInt version = reader.ReadInt16L();
SSMLOGLEAVEIFFALSE(__COMPARE_VERSION(version, CCmdMultipleWait::MaxSupportedVersion()), KErrNotSupported);
iTimeout = reader.ReadInt32L();
#ifdef SYMBIAN_SSM_FLEXIBLE_MERGE
iPriority = (version > ECmdMultipleWaitInitialVersion) ? reader.ReadUint16L() : KDefaultCommandPriority;
#endif
}
void CCmdMultipleWait::ConstructL()
{
iMultipleWaitTimer = CMultipleWaitTimer::NewL(*this);
}
/**
Helper function to move to the next action.
@param aNextState Next action to be taken.
*/
void CCmdMultipleWait::MoveToNextState(TStates aNextState)
{
DEBUGPRINT2A("CCmdMultipleWait Moving to next state : %d", aNextState);
iInternalState = aNextState;
TRequestStatus* status = &iStatus;
User::RequestComplete(status, KErrNone);
SetActive();
}
/**
Helper function to handle the timeout.
*/
void CCmdMultipleWait::HandleTimeoutCallback()
{
DEBUGPRINT1A("Timer has expired");
Cleanup();
iInternalState = EStateTimerExpired;
if (iMultipleWaitTimer)
{
iMultipleWaitTimer->Cancel();
}
}
void CCmdMultipleWait::Cleanup()
{
// cancel all pending deferred commands,
// starting from the current command in the list
TInt count = iDeferredCommands.Count();
if (iCommandIndex < count && iCommandIndex >= 0)
{
MSsmCommand* cmd = iDeferredCommands[iCommandIndex];
if (cmd)
{
DEBUGPRINT1A("Cancel completion observer");
cmd->RegisterCompletionObserverCancel();
}
for (; iCommandIndex < count; iCommandIndex++)
{
cmd = iDeferredCommands[iCommandIndex];
if (KSsmCommandPending == cmd->CompletionStatus())
{
DEBUGPRINT2A("Cancelling command %d ", iCommandIndex);
iDeferredCommands[iCommandIndex]->ExecuteCancel();
}
}
}
}
/**
Configures the BIC using data contained in a ReadStream
@param aReadStream A read stream containing BIC data
*/
void CCmdMultipleWait::InternalizeL(RReadStream& aReadStream)
{
iTimeout = aReadStream.ReadInt32L();
#ifdef SYMBIAN_SSM_FLEXIBLE_MERGE
iPriority = aReadStream.ReadUint16L();
#endif
}
CCmdMultipleWait::CMultipleWaitTimer* CCmdMultipleWait::CMultipleWaitTimer::NewL(CCmdMultipleWait& aMultipleWaitCmd)
{
CMultipleWaitTimer* self = new (ELeave) CMultipleWaitTimer(aMultipleWaitCmd);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
CCmdMultipleWait::CMultipleWaitTimer::~CMultipleWaitTimer()
{
Cancel();
}
void CCmdMultipleWait::CMultipleWaitTimer::StartTimer(TInt32 aTimeout)
{
After(aTimeout);
}
void CCmdMultipleWait::CMultipleWaitTimer::RunL()
{
iMultipleWaitCmd.HandleTimeoutCallback();
}
void CCmdMultipleWait::CMultipleWaitTimer::ConstructL()
{
CTimer::ConstructL();
}
CCmdMultipleWait::CMultipleWaitTimer::CMultipleWaitTimer(CCmdMultipleWait& aMultipleWaitCmd)
: CTimer(EPriorityStandard), iMultipleWaitCmd(aMultipleWaitCmd)
{
CActiveScheduler::Add(this);
}