kerneltest/f32test/shostmassstorage/testclient/usbtestmsclient/drivepublisher.cpp
Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "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:
// Class implementation of the drive publishing classes -
// RDriveMediaErrorPublisher,
// RDriveStateChangedPublisher,
// CDriveTransferPublisher,
// CDriveWriteTransferPublisher,
// CDriveReadTransferPublisher,
// CUsbTransferPublisher,
// CUsbReadTransferPublisher,
// CUsbReadTransferPublisher.
//
//
/**
@file
@internalTechnology
*/
#include <e32std.h>
#include <e32base.h>
#include <e32property.h>
#include <f32file.h>
#include "mstypes.h"
#include "msctypes.h"
#include "usbmsshared.h"
#include "drivepublisher.h"
#include "drivemanager.h"
#include "debug.h"
#include "msdebug.h"
//
// Use Lookup table to translate from the internal pair of state variables
// to the externally published drive state code.
//
LOCAL_D const TUint8 table[][5] =
{
//TMountState=EDisconnected
{EUsbMsDriveState_Disconnected,
EUsbMsDriveState_Disconnected,
EUsbMsDriveState_Disconnected,
EUsbMsDriveState_Disconnected,
EUsbMsDriveState_Disconnected},
//TMountState=EConnecting
{EUsbMsDriveState_Connecting,
EUsbMsDriveState_Connecting,
EUsbMsDriveState_Connecting,
EUsbMsDriveState_Connecting,
EUsbMsDriveState_Connecting},
//TMountState=EConnected
//EIdle,EActive,ELocked,EMediaNotPresent,EErrDisMounted
{EUsbMsDriveState_Connected,
EUsbMsDriveState_Active,
EUsbMsDriveState_Locked,
EUsbMsDriveState_MediaNotPresent,
EUsbMsDriveState_Removed},
//TMountState=EDisconnecting
{EUsbMsDriveState_Disconnecting,
EUsbMsDriveState_Disconnecting,
EUsbMsDriveState_Disconnecting,
EUsbMsDriveState_Disconnecting,
EUsbMsDriveState_Disconnecting}
};
//----------------------------------------------------------------------------
/**
Constructor
*/
RDriveMediaErrorPublisher::RDriveMediaErrorPublisher()
{
__MSFNLOG
_LIT_SECURITY_POLICY_PASS(KMassStorageReadPolicy);
_LIT_SECURITY_POLICY_S0(KMassStorageWritePolicy, KUsbMsDriveState_Category.iUid);
TInt result = RProperty::Define(EUsbMsDriveState_MediaError, RProperty::EInt,
KMassStorageReadPolicy, KMassStorageWritePolicy);
__ASSERT_DEBUG(result == KErrAlreadyExists || result == KErrNone, User::Invariant());
result = iMediaErrorProperty.Attach(KUsbMsDriveState_Category, EUsbMsDriveState_MediaError);
__ASSERT_DEBUG(result == KErrNone, User::Invariant());
}
RDriveMediaErrorPublisher::~RDriveMediaErrorPublisher()
{
__MSFNLOG
iMediaErrorProperty.Close();
RProperty::Delete(KUsbMsDriveState_Category, EUsbMsDriveState_MediaError);
}
/**
Publishing method
Publishes the Media Error property event
@param aError ETrue if drive media has an error else EFalse for no error
*/
void RDriveMediaErrorPublisher::PublishErrorL(TBool aError)
{
__MSFNLOG
__PRINT1(_L("<< RDriveMediaErrorPublisher::PublishError %x"), aError);
TInt oldValue;
iMediaErrorProperty.Get(oldValue);
if (oldValue != aError)
{
User::LeaveIfError(iMediaErrorProperty.Set(aError));
}
}
//----------------------------------------------------------------------------
/**
Constructor
@param aDrives
@param aDriveMap
*/
RDriveStateChangedPublisher::RDriveStateChangedPublisher(const TMsDriveList& aDrives,
const TLunToDriveMap& aDriveMap)
:
iDrives(aDrives),
iDriveMap(aDriveMap)
{
__MSFNLOG
_LIT_SECURITY_POLICY_PASS(KMassStorageReadPolicy);
_LIT_SECURITY_POLICY_S0(KMassStorageWritePolicy, KUsbMsDriveState_Category.iUid);
TInt result = RProperty::Define(KUsbMsDriveState_Category,
EUsbMsDriveState_DriveStatus, RProperty::EByteArray,
KMassStorageReadPolicy, KMassStorageWritePolicy,
KUsbMsMaxDrives*2);
__ASSERT_DEBUG(result == KErrAlreadyExists || result == KErrNone, User::Invariant());
result = result; // remove urel warning
}
RDriveStateChangedPublisher::~RDriveStateChangedPublisher()
{
__MSFNLOG
RProperty::Delete(KUsbMsDriveState_Category, EUsbMsDriveState_DriveStatus);
}
/**
Publishing method
Sends a property event on behalf of CMassStorageDrive, with the mountstate and drivestate
values encoded into one 32-bit word.
*/
void RDriveStateChangedPublisher::DriveStateChanged()
{
__MSFNLOG
TUsbMsDrivesStatus allDrivesStatus;
for(TUint8 i = 0; i < iDrives.Count(); i++)
{
allDrivesStatus.Append(iDriveMap[i]);
CMassStorageDrive::TMountState ms = iDrives[i]->MountState();
TLocalDriveRef::TDriveState ds = iDrives[i]->DriveState();
TInt driveStatus = EUsbMsDriveState_Error;
if((TUint8)ds < sizeof(table[0]) && (TUint8)ms < sizeof(table)/sizeof(table[0]))
{
driveStatus = table[ms][ds];
__PRINT3(_L("ms=%d ds=%d %d"), ms, ds, driveStatus);
}
allDrivesStatus.Append(driveStatus);
}
__PRINT1(_L("Publishing EUsbMsDriveState_DriveStatus for %d drives\n"),
allDrivesStatus.Length()/2);
if(KErrNone != RProperty::Set(KUsbMsDriveState_Category,
EUsbMsDriveState_DriveStatus,
allDrivesStatus))
{
__ASSERT_DEBUG(EFalse,User::Invariant());
}
}
//----------------------------------------------------------------------------
/**
Private default constructor to ensure that NewL is used
@param aSubKey
@param aArray
*/
CUsbTransferPublisher::CUsbTransferPublisher(TUsbMsDriveState_Subkey aSubKey,
const TBytesTransferedList& aArray)
: iSubKey(aSubKey),
iArray(aArray)
{
__MSFNLOG
}
void CUsbTransferPublisher::ConstructL()
{
__MSFNLOG
_LIT_SECURITY_POLICY_PASS(KMassStorageReadPolicy);
_LIT_SECURITY_POLICY_S0(KMassStorageWritePolicy, KUsbMsDriveState_Category.iUid);
TInt r = RProperty::Define(iSubKey, RProperty::EByteArray,
KMassStorageReadPolicy, KMassStorageWritePolicy,
KUsbMsMaxDrives*sizeof(TInt));
if (r != KErrAlreadyExists)
{
User::LeaveIfError(r);
}
// Attach to the properties here. Only do this once, continuously attaching
// will currently cause a memory leak
User::LeaveIfError(iProperty.Attach(KUsbMsDriveState_Category, iSubKey));
// Create the EDataTransferred timer
iTimer = CPeriodic::NewL(CActive::EPriorityStandard);
iTimerRunning = EFalse;
}
/**
Destructor
*/
CUsbTransferPublisher::~CUsbTransferPublisher()
{
__MSFNLOG
if(iTimer)
{
iTimer->Cancel();
}
delete iTimer;
iProperty.Close();
RProperty::Delete(KUsbMsDriveState_Category, iSubKey);
}
/**
A static wrapper for the DoPublishDataTransferredEvent member function
for use as a timer callback function.
@param obj 'this' pointer
@return not used in CPeriodic callback (see TCallback)
*/
TInt CUsbTransferPublisher::PublishDataTransferredEvent(TAny* obj)
{
__MSFNSLOG
static_cast<CUsbTransferPublisher*>(obj)->DoPublishDataTransferredEvent();
return 1;
}
/**
Update the data transferred properties if the counts have changed since
the last update.
*/
void CUsbTransferPublisher::DoPublishDataTransferredEvent()
{
__MSFNLOG
if (PublishDataTransferred())
{
// some data has been transfered so reset the counter
iTimerCancelCnt = ETimerCancelDelay;
}
// Update the cancel count if no data was transferred the last
// (few) times this has been called
if (--iTimerCancelCnt == 0)
{
StopTimer();
iTimerCancelCnt = ETimerCancelDelay;
}
}
/**
Update the data transferred properties if the counts have changed since
the last update.
*/
TBool CUsbTransferPublisher::PublishDataTransferred()
{
__MSFNLOG
TUsbMsBytesTransferred bytesTransferred;
TBool dataTransferred = EFalse;
for (TInt i = 0; i < iArray.Count(); i++)
{
bytesTransferred[i] = GetBytesTransferred(i);
}
// Update the properties only if they have changed
// (or if there's an error reading the old value.)
// Possible optimisation: keep a copy of the value
// as a member variable so we don't need the Get.
TUsbMsBytesTransferred oldValue;
if ((iProperty.Get(oldValue) != KErrNone) || (oldValue != bytesTransferred))
{
#ifdef __PRINT3
// trace of the bytes transferred
for (TInt j=0; j < iArray.Count(); j++)
{
if(oldValue[j] != bytesTransferred[j])
{
__PRINT3(_L("CDrivePublisher: KBytes[%d] %d->%d\n"), j, oldValue[j], bytesTransferred[j]);
}
}
#endif
if (KErrNone != iProperty.Set(bytesTransferred))
{
__ASSERT_DEBUG(EFalse, User::Invariant());
}
dataTransferred = ETrue;
}
return dataTransferred;
}
/**
Starts timer to periodically publish results.
If the timer is not yet running then start it.
*/
void CUsbTransferPublisher::StartTimer()
{
__MSFNLOG
if (!iTimerRunning)
{
// EDataTransferred event every second
const TTimeIntervalMicroSeconds32 interval = 1 * 1000 * 1000;
TCallBack callback(PublishDataTransferredEvent, this);
__PRINT(_L("Starting timer"));
iTimer->Start(interval, interval, callback);
iTimerRunning = ETrue;
}
}
/**
Ensure that the Timer is stopped
*/
void CUsbTransferPublisher::StopTimer()
{
__MSFNLOG
if (iTimerRunning)
{
__PRINT(_L("Stopping timer"));
iTimer->Cancel();
iTimerRunning = EFalse;
}
}
//----------------------------------------------------------------------------
/**
Constructor for Write property
@param aArray
*/
CUsbWriteTransferPublisher* CUsbWriteTransferPublisher::NewL(const TBytesTransferedList& aArray)
{
__MSFNSLOG
CUsbWriteTransferPublisher* self = new (ELeave) CUsbWriteTransferPublisher(aArray);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop();
return self;
}
CUsbWriteTransferPublisher::CUsbWriteTransferPublisher(const TBytesTransferedList& aArray)
: CUsbTransferPublisher(EUsbMsDriveState_KBytesWritten, aArray)
{
__MSFNLOG
}
//----------------------------------------------------------------------------
/**
Constructor for Read property
@param aArray
*/
CUsbReadTransferPublisher* CUsbReadTransferPublisher::NewL(const TBytesTransferedList& aArray)
{
__MSFNSLOG
CUsbReadTransferPublisher* self = new (ELeave) CUsbReadTransferPublisher(aArray);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop();
return self;
}
CUsbReadTransferPublisher::CUsbReadTransferPublisher(const TBytesTransferedList& aArray)
: CUsbTransferPublisher(EUsbMsDriveState_KBytesRead, aArray)
{
__MSFNLOG
}
/**
Transfer function for the property
@return Cumulative bytes read since the host connected to the drive,
in multiples of KBytesPerKilobyte rounded to nearest integer value.
The KBytes refer to multiples of 1000, not 1024.
*/
TUint CUsbTransferPublisher::GetBytesTransferred(TLun aLun) const
{
return I64LOW(iArray[aLun] / (TUint64)1000);
}