// Copyright (c) 2004-2009 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 CDriveManager and CMassStorageDrive.
//
//
/**
@file
@internalTechnology
*/
#include <f32fsys.h>
#include "massstoragedebug.h"
#include "usbmsshared.h"
#include "drivemanager.h"
///////////////////////////////////////////////////////////////////////////////
/**
A private structure that, when Connected, holds references to
the CProxyDrive and the corresponding TBusLocalDrive's Media Changed flag.
*/
struct CMassStorageDrive::CLocalDriveRef : public CBase
{
CLocalDriveRef(CProxyDrive& aProxyDrive, TBool& aMediaChanged)
: iProxyDrive(aProxyDrive), iMediaChanged(aMediaChanged), iDriveState(EIdle)
{
}
CProxyDrive& iProxyDrive;
TBool& iMediaChanged;
/**
The Drive Media state machine
*/
TDriveState iDriveState;
};
/**
@param aCritSec A Critical Section object shared by all drives.
@param aDrives Reference to the list of CMassStorageDrive objects.
@param aDriveMap Reference to array mapping lun to drive number for supported
mass storage drives.
@post Object is fully constructed
*/
CMassStorageDrive::CMassStorageDrive(RCriticalSection& aCritSec,
RDriveStateChangedPublisher& aDriveStateChangedPublisher)
:
iCritSec(aCritSec),
iMountState(EDisconnected),
iDriveStateChangedPublisher(aDriveStateChangedPublisher)
{
__FNLOG("CMassStorageDrive::CMassStorageDrive");
}
CMassStorageDrive::~CMassStorageDrive()
{
delete iLocalDrive;
}
/**
Read from the target drive unit.
@return KErrNone on success, otherwise system wide error code
*/
TInt CMassStorageDrive::Read(const TInt64& aPos, TInt aLength, TDes8& aBuf, TBool aWholeMedia)
{
__FNLOG("CMassStorageDrive::Read");
TInt err = KErrUnknown; // never return this
iCritSec.Wait();
if(iMountState != EConnected)
{
err = KErrDisconnected;
}
else
{
if(aWholeMedia)
{
err = SafeProxyDrive().Read(aPos, aLength, &aBuf, KLocalMessageHandle, 0, RLocalDrive::ELocDrvWholeMedia);
}
else
{
err = SafeProxyDrive().Read(aPos, aLength, aBuf);
}
if(err == KErrNone)
{
#ifndef USB_TRANSFER_PUBLISHER
iBytesRead += aBuf.Length();
__PRINT1(_L("iBytesRead=%d\n"),iBytesRead);
#endif
}
else if(err == KErrLocked)
{
SetDriveState(ELocked);
}
}
iCritSec.Signal();
return err;
}
/**
Write to the target drive unit.
@return KErrNone on success, otherwise system wide error code
*/
TInt CMassStorageDrive::Write(const TInt64& aPos, TDesC8& aBuf, TBool aWholeMedia)
{
__FNLOG("CMassStorageDrive::Write");
TInt err = KErrNone;
iCritSec.Wait();
if (iMountState != EConnected)
{
err = KErrDisconnected;
}
else
{
__ASSERT_DEBUG(iLocalDrive, User::Invariant());
TDriveState oldState = iLocalDrive->iDriveState;
if(oldState != EActive)
{
// SCSI hasn't called SetCritical
SetDriveState(EActive);
}
if (aWholeMedia)
{
err = SafeProxyDrive().Write(aPos, aBuf.Length(), &aBuf, KLocalMessageHandle, 0, RLocalDrive::ELocDrvWholeMedia);
}
else
{
err = SafeProxyDrive().Write(aPos,aBuf);
}
if (err == KErrNone)
{
#ifndef USB_TRANSFER_PUBLISHER
iBytesWritten += aBuf.Length();
#endif
}
if (err == KErrLocked)
{
SetDriveState(ELocked);
}
else if (oldState != EActive)
{
SetDriveState(oldState);
}
}
iCritSec.Signal();
return err;
}
/**
Get the capabilities of the target drive unit.
@return KErrNone on success, otherwise system wide error code
*/
TInt CMassStorageDrive::Caps(TLocalDriveCapsV4& aInfo)
{
__FNLOG("CMassStorageDrive::Caps");
TInt err = KErrNone;
iCritSec.Wait();
if(iMountState != EConnected)
{
err = KErrDisconnected;
}
else
{
// Initialise in case Caps() fails
aInfo.iType = ::EMediaUnknown;
err = DoCaps(aInfo);
__PRINTERR(_L("CheckDriveState: DoCaps err=%d\n"), err);
if(err == KErrNotReady || (err==KErrNone && aInfo.iType == ::EMediaNotPresent))
{
__PRINT(_L("CMassStorageDrive::Caps detected MediaNotPresent\n"));
SetDriveState(CMassStorageDrive::EMediaNotPresent);
}
}
iCritSec.Signal();
return err;
}
/**
Provides an interface to CProxyDrive::Caps that hides the
package buffer.
@return KErrNone on success, otherwise system wide error code
@param aInfo
*/
TInt CMassStorageDrive::DoCaps(TLocalDriveCapsV4& aInfo)
{
__FNLOG("CMassStorageDrive::DoCaps");
TLocalDriveCapsV4Buf buf;
buf.FillZ();
CProxyDrive& pd = SafeProxyDrive();
__PRINT(_L("CMassStorageDrive::DoCaps calling Caps\n"));
TInt err = pd.Caps(buf);
__PRINT1(_L("CMassStorageDrive::DoCaps: Caps returned %d\n"), err);
if(err==KErrNone)
{
// Invoke function call operator to cast to TLocalDriveCapsV4&
aInfo = buf();
}
return err;
}
/**
Publish media error, user should reinsert the memory card.
Similar to FAT32's TDriver::HandleCriticalError.
Note: User notification is not implemented, instead we abort and dismount.
*/
TInt CMassStorageDrive::HandleCriticalError()
{
__FNLOG("CMassStorageDrive::HandleCriticalError");
iDriveMediaErrorPublisher.PublishError(ETrue);
return KErrAbort;
}
TInt CMassStorageDrive::ClearCriticalError()
{
iDriveMediaErrorPublisher.PublishError(EFalse);
return KErrNone;
}
/**
Checks the Media Changed flag, and optionally resets it.
@return The state of the Media Changed flag.
@param aReset If true, the Media Changed flag is reset to EFalse.
*/
TBool CMassStorageDrive::IsMediaChanged(TBool aReset)
{
__FNLOG("CMassStorageDrive::IsMediaChanged");
iCritSec.Wait();
TBool mediaChanged = EFalse;
if(iLocalDrive)
{
mediaChanged = iLocalDrive->iMediaChanged;
if(aReset)
{
iLocalDrive->iMediaChanged = EFalse;
}
}
else
{
__PRINT(_L("CMassStorageDrive::IsMediaChanged: no drive\n"));
}
iCritSec.Signal();
__PRINT1(_L("CMassStorageDrive::IsMediaChanged: returning %d\n"), mediaChanged);
return mediaChanged;
}
/**
Set the Drive State to Active or Idle.
@return KErrNone on success, KErrNotReady if media not present, KErrDisMounted if not mounted
@param aCritical ETrue for Active, EFalse for Idle
*/
TInt CMassStorageDrive::SetCritical(TBool aCritical)
{
__FNLOG("CMassStorageDrive::SetCritical");
TInt err = KErrDisMounted;
iCritSec.Wait();
if(iLocalDrive)
{
if(iLocalDrive->iDriveState == CMassStorageDrive::EMediaNotPresent)
{
err = KErrNotReady;
}
else
{
SetDriveState(
aCritical
? CMassStorageDrive::EActive
: CMassStorageDrive::EIdle );
err = KErrNone;
}
}
iCritSec.Signal();
return err;
}
/**
Set the mount state
*/
TInt CMassStorageDrive::SetMountConnected(CProxyDrive& aProxyDrive, TBool& aMediaChanged)
{
__FNLOG("CMassStorageDrive::SetMountConnected");
CLocalDriveRef* localDrive = NULL;
__PRINT(_L("SetMountConnected entering critical section\n"));
iCritSec.Wait(); // note: signalled in SetMountState
if (iLocalDrive == NULL)
{
localDrive = new CLocalDriveRef(aProxyDrive, aMediaChanged);
if (localDrive==NULL)
{
iCritSec.Signal();
return KErrNoMemory;
}
}
return SetMountState(EConnected, localDrive);
}
/**
@return KErrNone
@param aNewState
@param aLocalDrive Only provide this if aNewState is EConnected.
*/
TInt CMassStorageDrive::SetMountState(TMountState aNewState, CLocalDriveRef* aLocalDrive/*=NULL*/)
{
__FNLOG("CMassStorageDrive::SetMountState");
if(iMountState == aNewState)
{
__PRINT(_L("SetMountState: No change\n"));
}
else
{
// If called from SetMountConnected, already in critical section,
// otherwise, must enter it here.
if(EConnected!=aNewState)
{
__PRINT(_L("SetMountState entering critical section\n"));
iCritSec.Wait();
}
switch(aNewState)
{
case EConnected:
if(aLocalDrive)
{
__ASSERT_DEBUG(!iLocalDrive, User::Invariant());
iLocalDrive = aLocalDrive;
}
__ASSERT_DEBUG(iLocalDrive, User::Invariant());
break;
case EDisconnected:
delete iLocalDrive;
iLocalDrive = NULL;
#ifndef USB_TRANSFER_PUBLISHER
iBytesWritten = iBytesRead = 0;
#endif
break;
case EDisconnecting:
case EConnecting:
// Do not change iLocalDrive for these state changes
break;
}
iMountState = aNewState;
__PRINT1(_L("SetMountState: state=%d\n"), iMountState);
iDriveStateChangedPublisher.DriveStateChanged();
iCritSec.Signal();
__PRINT(_L("SetMountState has left the critical section\n"));
}
return KErrNone;
}
/**
@return Current drive media state
*/
CMassStorageDrive::TDriveState CMassStorageDrive::DriveState() const
{
return iLocalDrive ? iLocalDrive->iDriveState : EErrDisMounted;
}
/**
Check for media not present, and return the drive state.
@return Current drive media state
*/
CMassStorageDrive::TDriveState CMassStorageDrive::CheckDriveState()
{
__FNLOG("CMassStorageDrive::CheckDriveState");
CMassStorageDrive::TDriveState state = EErrDisMounted;
iCritSec.Wait();
if (iLocalDrive)
{
TInt err = KErrGeneral;
TLocalDriveCapsV4 caps;
FOREVER
{
// Initialise in case Caps() fails
caps.iType = ::EMediaNotPresent;
err = DoCaps(caps);
__PRINTERR(_L("CheckDriveState: DoCaps err=%d\n"), err);
if (err == KErrNotReady || (err == KErrNone && caps.iType == ::EMediaNotPresent))
{
__PRINT(_L("CheckDriveState: detected MediaNotPresent\n"));
SetDriveState(CMassStorageDrive::EMediaNotPresent);
if (HandleCriticalError() == KErrAbort)
break;
}
else
{
ClearCriticalError();
break;
}
}
if (err == KErrNone && caps.iType != ::EMediaNotPresent)
{
if (iLocalDrive->iDriveState == CMassStorageDrive::EMediaNotPresent)
{
__PRINT(_L("CheckDriveState: detected media inserted\n"));
SetDriveState(CMassStorageDrive::EIdle);
}
else if (iLocalDrive->iDriveState == CMassStorageDrive::ELocked &&
!(caps.iMediaAtt & KMediaAttLocked))
{
__PRINT(_L("CheckDriveState: detected media unlocked\n"));
SetDriveState(CMassStorageDrive::EIdle);
}
else if (caps.iMediaAtt & KMediaAttLocked)
{
__PRINT(_L("CheckDriveState: detected media locked\n"));
SetDriveState(CMassStorageDrive::ELocked);
}
iWholeMediaAccess = !(caps.iDriveAtt & KDriveAttLogicallyRemovable);
}
// Get the current state
state = iLocalDrive->iDriveState;
}
iCritSec.Signal();
return state;
}
static TBool IsActive(CMassStorageDrive::TDriveState aDriveState)
{
return aDriveState==CMassStorageDrive::EActive;
}
/**
@param aNewState
*/
void CMassStorageDrive::SetDriveState(TDriveState aNewState)
{
__FNLOG("CMassStorageDrive::SetDriveState");
__ASSERT_DEBUG(aNewState == EIdle ||
(iMountState == EConnected && NULL != iLocalDrive) ||
(iMountState == EDisconnecting && NULL != iLocalDrive),
User::Invariant());
if(!iLocalDrive)
{
__PRINT(_L("SetDriveState: Drive not mounted.\n"));
}
else
{
__PRINT2(_L("SetDriveState: %d->%d\n"), iLocalDrive->iDriveState, aNewState);
if(iLocalDrive->iDriveState != aNewState)
{
CMountCB* mount = SafeProxyDrive().Mount();
#if !defined(USBMSDRIVE_TEST)
__ASSERT_DEBUG(mount != NULL, User::Invariant());
#endif
if(mount)
{
if(!IsActive(iLocalDrive->iDriveState) && IsActive(aNewState))
{
mount->IncLock();
}
else if(IsActive(iLocalDrive->iDriveState) && !IsActive(aNewState))
{
mount->DecLock();
}
__PRINT1(_L("SetDriveState: LockStatus=%d\n"), mount->LockStatus());
}
iLocalDrive->iDriveState = aNewState;
iDriveStateChangedPublisher.DriveStateChanged();
}
}
}
/**
Accessor for iProxyDrive; asserts if NULL
*/
CProxyDrive& CMassStorageDrive::SafeProxyDrive() const
{
__ASSERT_ALWAYS(NULL!=iLocalDrive, User::Invariant());
return iLocalDrive->iProxyDrive;
}
/////////////////////////////////////////////////////////////////
/**
Construct a CDriveManager object.
@param aDriveMap Reference to array mapping lun to drive number for supported
mass storage drives.
*/
CDriveManager* CDriveManager::NewL(TRefDriveMap aDriveMap)
{
__FNLOG("CDriveManager::NewL");
__PRINT1(_L("CDriveManager::NewL - %d drives\n"), aDriveMap.Count());
CDriveManager* self = new (ELeave) CDriveManager(aDriveMap);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop();
return self;
}
CDriveManager::CDriveManager(const RArray<TInt>& aDriveMap)
: iDriveMap(aDriveMap)
{}
/**
Construct a CDriveManager object.
*/
void CDriveManager::ConstructL()
{
__FNLOG("CDriveManager::ConstructL");
User::LeaveIfError(iDriveCritSec.CreateLocal());
iDriveStateChangedPublisher = new (ELeave) RDriveStateChangedPublisher(iDrives, iDriveMap);
for(TInt i = 0; i < iDriveMap.Count(); i++)
{
iDrives[i] = new (ELeave) CMassStorageDrive(iDriveCritSec, *iDriveStateChangedPublisher);
}
// Publish initial drive state
if (iDriveMap.Count() > 0)
{
iDriveStateChangedPublisher->DriveStateChanged();
}
}
/**
Destructor
*/
CDriveManager::~CDriveManager()
{
__FNLOG("CDriveManager::~CDriveManager");
iDrives.DeleteAll();
delete iDriveStateChangedPublisher;
iDriveCritSec.Close();
}
/**
Set the mount state to Connected and specify the Proxy Drive.
@return KErrNone on success, otherwise system wide error code
@param aDrive The mounted Proxy Drive
@param aLun The Logical Drive Unit identifier (0..numDrives-1)
@pre If the Mount State is Connected, then aDrive must be the
same as it was the last time this function was called.
@post The Mount State will be Connected.
*/
TInt CDriveManager::RegisterDrive(CProxyDrive& aProxyDrive, TBool& aMediaChanged, TUint aLun)
{
__FNLOG("CDriveManager::RegisterDrive");
__PRINT1(_L("Lun=%d \n"),aLun);
TInt err = KErrUnknown; // never return this
CMassStorageDrive* drive = CDriveManager::Drive(aLun, err);
if(drive)
{
drive->SetMountConnected(aProxyDrive, aMediaChanged);
}
__PRINT1(_L("CDriveManager::RegisterDrive err=%d\n"), err);
return err;
}
/**
Set the mount state to Disconnected.
@return KErrNone on success, otherwise system wide error code
@param aLun The Logical Drive Unit identifier (0..numDrives-1)
@post The Mount State will be Disconnected.
*/
TInt CDriveManager::DeregisterDrive(TUint aLun)
{
__FNLOG("CDriveManager::DeregisterDrive");
TInt err = KErrUnknown; // never return this
if(CMassStorageDrive* drive = Drive(aLun, err))
{
err = drive->SetMountDisconnected();
}
__PRINT1(_L("CDriveManager::DeregisterDrive err=%d\n"), err);
return err;
}
/**
Return a pointer to the drive specified aLun, or NULL if
aLun is invalid.
@return Pointer to the specified drive, or NULL.
@param aLun The Logical Drive Unit identifier (0..numDrives-1)
@param aError KErrNone on success, KErrArgument if NULL is returned.
*/
CMassStorageDrive* CDriveManager::Drive(TUint aLun, TInt& aError) const
{
aError = KErrNone;
CMassStorageDrive* drive = NULL;
// Check if aLun exceeds the specified number of drives
// (This will panic if it exceeds KMaxLun).
if(aLun>=KUsbMsMaxDrives || !iDrives[aLun])
{
aError = KErrArgument;
}
else
{
drive = iDrives[aLun];
}
return drive;
}
/**
Checks the Media Changed flag, and optionally resets it.
@return The state of the Media Changed flag.
@param aLun The Logical Drive Unit identifier (0..numDrives-1)
@param aReset If true, the Media Changed flag is reset to EFalse.
*/
TBool CDriveManager::IsMediaChanged(TUint aLun, TBool aReset)
{
__FNLOG("CDriveManager::IsMediaChanged");
TInt err; // not used, but is a required parameter
CMassStorageDrive* drive = Drive(aLun, err);
if(!drive)
{
__PRINT1(_L("CDriveManager::IsMediaChanged: LUN=%d not found, returning false\n"), aLun);
return ETrue;
}
else
{
return drive->IsMediaChanged(aReset);
}
}
/**
Set the Drive State to Active or Idle.
Ref: 3.6.3.2 - PREVENT_MEDIUM_REMOVAL
@return KErrNone on success, otherwise system wide error code
@param aLun The Logical Drive Unit identifier (0..numDrives-1)
@param aCritical ETrue for Active, EFalse for Idle
*/
TInt CDriveManager::SetCritical(TUint aLun, TBool aCritical)
{
__FNLOG("CDriveManager::SetCritical");
TInt err = KErrUnknown; // never return this
TInt i=aLun;
TInt cnt=aLun+1;
if (aLun == KAllLuns)
{
i=0;
cnt= iDriveMap.Count();
}
for(; i<cnt; i++)
{
CMassStorageDrive* drive = Drive(i, err);
if(drive)
{
err = drive->SetCritical(aCritical);
}
}
return err;
}
/**
Inititiate transition to Connected.
@return KErrNone on success, otherwise system wide error code
@param aLun The Logical Drive Unit identifier (0..numDrives-1)
@post The Mount State will be Connected or Connecting.
*/
TInt CDriveManager::Connect(TUint aLun)
{
__FNLOG("CDriveManager::Connect");
TInt err = KErrUnknown; // never return this
CMassStorageDrive* drive = Drive(aLun, err);
__PRINT3(_L("CDriveManager::Connect lun=%d, err=%d, mountState=%d\n"), aLun, err, drive->MountState());
if(drive)
{
switch(drive->MountState())
{
case CMassStorageDrive::EDisconnected:
err = drive->SetMountConnecting();
break;
case CMassStorageDrive::EDisconnecting:
err = drive->SetMountConnected();
break;
case CMassStorageDrive::EConnected:
case CMassStorageDrive::EConnecting:
// do nothing
break;
}
}
return err;
}
/**
Inititiate transition to Disconnected.
@return KErrNone on success, otherwise system wide error code
@param aLun The Logical Drive Unit identifier (0..numDrives-1)
@post The Mount State will be Disconnected or Disconnecting.
*/
TInt CDriveManager::Disconnect(TUint aLun)
{
__FNLOG("CDriveManager::Disconnect");
TInt err = KErrUnknown; // never return this
CMassStorageDrive* drive = Drive(aLun, err);
if(drive)
{
switch(drive->MountState())
{
case CMassStorageDrive::EConnected:
err = drive->SetMountDisconnecting();
break;
case CMassStorageDrive::EConnecting:
err = drive->SetMountDisconnected();
break;
case CMassStorageDrive::EDisconnected:
case CMassStorageDrive::EDisconnecting:
// do nothing
break;
}
}
return err;
}