imagehandlingutilities/thumbnailmanager/thumbnailserver/src/thumbnailtaskprocessor.cpp
/*
* Copyright (c) 2006-2007 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: Processor object for running queued tasks
*
*/
#include <e32base.h>
#include <fbs.h>
#include "thumbnailtaskprocessor.h"
#include "thumbnailtask.h"
#include "thumbnailprovider.h"
#include "thumbnailmanageruids.hrh"
#include "thumbnailmanagerconstants.h"
#include "thumbnailgeneratetask.h"
#include "thumbnailpanic.h"
// ======== MEMBER FUNCTIONS ========
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::NewL()
// Two-phased constructor.
// ---------------------------------------------------------------------------
//
CThumbnailTaskProcessor* CThumbnailTaskProcessor::NewL()
{
CThumbnailTaskProcessor* self = new( ELeave )CThumbnailTaskProcessor();
CleanupStack::PushL( self );
self->ConstructL();
CleanupStack::Pop( self );
return self;
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::CThumbnailTaskProcessor()
// C++ default constructor can NOT contain any code, that might leave.
// ---------------------------------------------------------------------------
//
CThumbnailTaskProcessor::CThumbnailTaskProcessor(): CActive( CActive
::EPriorityStandard )
{
CActiveScheduler::Add( this );
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::ConstructL()
// Symbian 2nd phase constructor can leave.
// ---------------------------------------------------------------------------
//
void CThumbnailTaskProcessor::ConstructL()
{
// define PS property
TInt ret = RProperty::Delete(KServerIdle, KIdle);
TN_DEBUG2( "CThumbnailTaskProcessor::CThumbnailTaskProcessor() Delete KServerIdle %d", ret);
ret=RProperty::Define(KServerIdle, KIdle, RProperty::EInt);
TN_DEBUG2( "CThumbnailTaskProcessor::ConstructL() Define KServerIdle %d", ret);
// attach to the property
ret = iProperty.Attach(KServerIdle, KIdle, EOwnerThread);
TN_DEBUG2( "CThumbnailTaskProcessor::ConstructL()Attach %d", ret);
// set initial PS value
ret = iProperty.Set( ETrue );
TN_DEBUG2( "CThumbnailTaskProcessor::ConstructL() Set IDLE ETrue %d", ret );
iIdle = ETrue;
iPeriodicTimer = CPeriodic::NewL(CActive::EPriorityIdle);
iTimerActive = EFalse;
iIsDaemonAsProcess = EFalse;
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::~CThumbnailTaskProcessor()
// Destructor.
// ---------------------------------------------------------------------------
//
CThumbnailTaskProcessor::~CThumbnailTaskProcessor()
{
Cancel();
iTasks.ResetAndDestroy();
iProperty.Close();
TInt ret = RProperty::Delete(KServerIdle, KIdle);
TN_DEBUG2( "CThumbnailTaskProcessor::CThumbnailTaskProcessor() Delete KServerIdle %d", ret);
if(iPeriodicTimer)
{
iPeriodicTimer->Cancel();
}
delete iPeriodicTimer;
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::AddTaskL()
// Adds new task to the task queue.
// ---------------------------------------------------------------------------
//
void CThumbnailTaskProcessor::AddTaskL( CThumbnailTask* aTask )
{
TN_DEBUG1( "CThumbnailTaskProcessor::AddTaskL()");
__ASSERT_DEBUG(( aTask ), ThumbnailPanic( EThumbnailNullPointer ));
const TInt taskCount = iTasks.Count();
iTasks.AppendL( aTask );
if ( !IsActive() && !taskCount )
{
// this is the first task in queue, go active now
iActiveTask = aTask;
SetActive();
TRequestStatus* statusPtr = &iStatus;
User::RequestComplete( statusPtr, KErrNone );
}
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::RemoveTask()
// Removes specific tasks from the queue.
// ---------------------------------------------------------------------------
//
TInt CThumbnailTaskProcessor::RemoveTask( const TThumbnailServerRequestId&
aRequestId )
{
TN_DEBUG2( "CThumbnailTaskProcessor::RemoveTask() - request ID: %d", aRequestId.iRequestId);
TBool cancel = EFalse;
TInt res = KErrNotFound;
for ( TInt i = iTasks.Count(); --i >= 0; )
{
CThumbnailTask* task = iTasks[i];
if ( task->RequestId() == aRequestId )
{
if ( task->State() != CThumbnailTask::ERunning )
{
// Remove task from queue
delete task;
iTasks.Remove( i );
TN_DEBUG2( "CThumbnailTaskProcessor::RemoveTask() - removed request ID: %d", aRequestId.iRequestId);
}
else
{
// Task is already running, canceled first
task->Cancel();
delete task;
iTasks.Remove( i );
cancel = ETrue;
TN_DEBUG2( "CThumbnailTaskProcessor::RemoveTask() - canceled & removed request ID: %d", aRequestId.iRequestId);
}
res = KErrNone;
// don't break, because there could be many tasks related to the same request ID
}
}
// no tasks active anymore
if ( cancel )
{
Cancel();
TaskComplete(NULL);
}
TN_DEBUG2( "CThumbnailTaskProcessor::RemoveTask() - remaining task count: %d", iTasks.Count());
return res;
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::RemoveTasks()
// Removes specific task from the queue.
// ---------------------------------------------------------------------------
//
void CThumbnailTaskProcessor::RemoveTasks( CThumbnailServerSession* aSession )
{
TN_DEBUG1( "CThumbnailTaskProcessor::RemoveTasks()");
TBool cancel = EFalse;
for ( TInt i = iTasks.Count(); --i >= 0; )
{
CThumbnailTask* task = iTasks[i];
if ( task->RequestId().iSession == aSession)
{
if ( task->State() != CThumbnailTask::ERunning )
{
TThumbnailRequestId id = task->RequestId().iRequestId;
// Remove task from queue
delete task;
iTasks.Remove( i );
TN_DEBUG2( "CThumbnailTaskProcessor::RemoveTasks() - removed request ID: %d", id);
}
else
{
TN_DEBUG1( "CThumbnailTaskProcessor::RemoveTasks() - task still running");
TThumbnailRequestId id = task->RequestId().iRequestId;
// Task is already running, canceled first
task->ResetMessageData();
task->Cancel();
delete task;
iTasks.Remove( i );
cancel = ETrue;
TN_DEBUG2( "CThumbnailTaskProcessor::RemoveTasks() - canceled & removed request ID: %d", id);
}
}
}
// no tasks active anymore
if ( cancel )
{
Cancel();
TaskComplete(NULL);
}
TN_DEBUG2( "CThumbnailTaskProcessor::RemoveTasks() - remaining task count: %d", iTasks.Count());
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::RemoveAllTasks()
// Removes specific task from the queue.
// ---------------------------------------------------------------------------
//
void CThumbnailTaskProcessor::RemoveAllTasks()
{
TN_DEBUG1( "CThumbnailTaskProcessor::RemoveAllTasks()");
TBool cancel = EFalse;
for ( TInt i = iTasks.Count(); --i >= 0; )
{
CThumbnailTask* task = iTasks[i];
if ( task->State() != CThumbnailTask::ERunning )
{
TThumbnailRequestId id = task->RequestId().iRequestId;
// Remove task from queue
delete task;
iTasks.Remove( i );
TN_DEBUG2( "CThumbnailTaskProcessor::RemoveTasks() - removed request ID: %d", id);
}
else
{
TN_DEBUG1( "CThumbnailTaskProcessor::RemoveTasks() - task still running");
TThumbnailRequestId id = task->RequestId().iRequestId;
// Task is already running, canceled first
task->ResetMessageData();
task->Cancel();
delete task;
iTasks.Remove( i );
cancel = ETrue;
TN_DEBUG2( "CThumbnailTaskProcessor::RemoveTasks() - canceled & removed request ID: %d", id);
}
}
// no tasks active anymore
if ( cancel )
{
Cancel();
TaskComplete(NULL);
}
TN_DEBUG1( "CThumbnailTaskProcessor::RemoveAllTasks() - Task removed because of starting format" );
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::ChangeTaskPriority()
// Changes priority of a task.
// ---------------------------------------------------------------------------
//
TInt CThumbnailTaskProcessor::ChangeTaskPriority( const
TThumbnailServerRequestId& aRequestId, const TInt aNewPriority )
{
TInt err = KErrNotFound;
const TInt count = iTasks.Count();
for ( TInt i( 0 ); i < count; i++ )
{
if ( iTasks[i]->RequestId() == aRequestId )
{
iTasks[i]->ChangeTaskPriority( aNewPriority );
err = KErrNone;
break;
}
}
return err;
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::RunL()
// ---------------------------------------------------------------------------
//
void CThumbnailTaskProcessor::RunL()
{
iActiveTask = NULL;
TInt priority( KMinTInt );
TInt taskPriority;
#ifdef _DEBUG
TN_DEBUG2( "CThumbnailTaskProcessor::TASKPROCESSOR-COUNTER---------- in, Tasks = %d", iTasks.Count() );
#endif
/*
// remove completed tasks and run priorised task
for ( TInt i = 0; i < iTasks.Count(); i++ )
{
CThumbnailTask* task = iTasks[i];
if ( task->State() == CThumbnailTask::EComplete )
{
// delete completed task
delete task;
iTasks.Remove( i );
// correct the index so that no tasks are skipped
i--;
if(i <= -1)
{
i = -1;
}
}*/
// remove completed tasks and run priorised task
for ( TInt i = iTasks.Count(); --i >= 0; )
{
CThumbnailTask* task = iTasks[i];
if ( task->State() == CThumbnailTask::EComplete )
{
// Delete completed task
delete task;
iTasks.Remove( i );
}
else
{
if( task->State() == CThumbnailTask::EIdle )
{
taskPriority = task->Priority();
if ( taskPriority > priority )
{
priority = taskPriority;
iActiveTask = task;
}
}
}
}
if ( iActiveTask )
{
iActiveTask->StartL();
}
#ifdef _DEBUG
TN_DEBUG2( "CThumbnailTaskProcessor::TASKPROCESSOR-COUNTER---------- out, Tasks = %d", iTasks.Count() );
#endif
//update PS value for Daemon
if( iTasks.Count() > 0 && iIdle)
{
//set not idle
if(iTimerActive)
{
iPeriodicTimer->Cancel();
iTimerActive = EFalse;
}
TInt ret = iProperty.Set( EFalse );
TN_DEBUG2( "CThumbnailTaskProcessor::RunL() iProperty Set EFalse %d", ret );
iIdle = EFalse;
}
else
{
if(!iIdle)
{
//set idle
if(iIsDaemonAsProcess)
{
if(iTimerActive)
{
iPeriodicTimer->Cancel();
iTimerActive = EFalse;
}
TN_DEBUG1( "CThumbnailTaskProcessor::RunL() - daemon is the process");
TInt ret = iProperty.Set( ETrue );
TN_DEBUG2( "CThumbnailTaskProcessor::RunL() iProperty Set ETrue %d", ret );
iIdle = ETrue;
}
else
{
TN_DEBUG1( "CThumbnailTaskProcessor::RunL() - daemon is not the process - start timer");
if(iTimerActive)
{
iPeriodicTimer->Cancel();
iTimerActive = EFalse;
}
iPeriodicTimer->Start( KHarvestingCompleteTimeout, KHarvestingCompleteTimeout,
TCallBack(PeriodicTimerCallBack, this));
iTimerActive = ETrue;
}
}
}
}
// ---------------------------------------------------------------------------
// Handle any error from RunL
// ---------------------------------------------------------------------------
//
TInt CThumbnailTaskProcessor::RunError( TInt aError )
{
TN_DEBUG1( "CThumbnailTaskProcessor::RunError()");
if ( iActiveTask )
{
// This will complete the task and continue processing from the
// next task
iActiveTask->StartError( aError );
}
return KErrNone;
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::DoCancel()
// ---------------------------------------------------------------------------
//
void CThumbnailTaskProcessor::DoCancel()
{
// No implementation required
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::TaskComplete()
// Marks task to completed
// ---------------------------------------------------------------------------
//
void CThumbnailTaskProcessor::TaskComplete( CThumbnailTask* /*aTask*/ )
{
TN_DEBUG1( "CThumbnailTaskProcessor::TaskComplete()");
if ( iTasks.Count() && !IsActive())
{
// More tasks yet to be run
SetActive();
TRequestStatus* statusPtr = &iStatus;
User::RequestComplete( statusPtr, KErrNone );
}
else if( iTasks.Count() == 0 && !iIdle)
{
if(iIsDaemonAsProcess)
{
if(iTimerActive)
{
iPeriodicTimer->Cancel();
iTimerActive = EFalse;
}
TN_DEBUG1( "CThumbnailTaskProcessor::TaskComplete() - daemon is the process");
TInt ret = iProperty.Set( ETrue );
TN_DEBUG2( "CThumbnailTaskProcessor::TaskComplete() iProperty Set ETrue %d", ret );
iIdle = ETrue;
}
else
{
if(iTimerActive)
{
iPeriodicTimer->Cancel();
iTimerActive = EFalse;
}
iPeriodicTimer->Start( KPSKeyTimeout, KPSKeyTimeout,
TCallBack(PeriodicTimerCallBack, this));
iTimerActive = ETrue;
}
}
}
// ---------------------------------------------------------------------------
// CThumbnailTaskProcessor::PeriodicTimerCallBack()
// ---------------------------------------------------------------------------
//
TInt CThumbnailTaskProcessor::PeriodicTimerCallBack(TAny* aAny)
{
TN_DEBUG1( "CThumbnailTaskProcessor::PeriodicTimerCallBack()");
CThumbnailTaskProcessor* self = static_cast<CThumbnailTaskProcessor*>( aAny );
self->iTimerActive = EFalse;
self->iPeriodicTimer->Cancel();
TInt ret = self->iProperty.Set( ETrue );
TN_DEBUG2( "CThumbnailTaskProcessor::PeriodicTimerCallBack() iProperty Set ETrue %d", ret );
self->iIdle = ETrue;
return KErrNone; // Return value ignored by CPeriodic
}
void CThumbnailTaskProcessor::SetDaemonAsProcess(TBool aValue)
{
TN_DEBUG2( "CThumbnailTaskProcessor::SetDaemonAsProcess() Daemon set %d", aValue );
iIsDaemonAsProcess = aValue;
}
// End of file