MCL/sf/os/kernelhwsrv: comparison kerneltest/e32utils/usbmsapp/usbmsapp.cpp

equal deleted inserted replaced

--1:000000000000
+:96e5fb8b040d
+// 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 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:
+// USB Mass Storage Application - also used as an improvised boot loader mechanism
+//
+//
+/**
+@file
+*/
+#include "usbmsapp.h"
+#include <e32std.h>
+#include <e32std_private.h>
+#include <e32svr.h>
+#include <e32cons.h>
+#include <f32file.h>
+#include <usbmsshared.h>
+#include <massstorage.h>
+TBool gSharedChunkLdd = EFalse;
+#include <d32usbcsc.h>
+#include <d32usbc.h>
+#ifdef BUILD_OTG_USBMSAPP
+#include <d32otgdi.h>
+#endif
+#include <nkern/nk_trace.h>
+#include <hal.h>
+#ifdef USB_BOOT_LOADER
+#include "usbbootvar.h"
+#include <rebootdrv.h>
+#define KNANDLDRLDD_NAME _L("REBOOT.LDD")
+static RReboot* RebootDrv;
+/// Global number of seconds to delay before reboot
+static TInt gRebootDelay = 0;
+#endif
+enum
+	{
+	EUsbDeviceStateUndefined  = EUsbcDeviceStateUndefined,
+	EUsbDeviceStateConfigured = EUsbcDeviceStateConfigured,
+	};
+static CConsoleBase* console = NULL;
+static RFs fs;
+static TInt selectedDriveIndex = 0;
+static TBuf<0x40> mountList;
+static TFixedArray<TBool, KMaxDrives>                   msfsMountedList;  ///< 'true' entry corresponds to the drive with mounted MSFS.FSY
+static TFixedArray<CFileSystemDescriptor*, KMaxDrives>  unmountedFsList;  ///< every non-NULL entry corresponds to the unmounted original FS for the drive
+_LIT(KMsFsy, "MSFS.FSY");
+_LIT(KMsFs, "MassStorageFileSystem");
+_LIT(KOk,"OK");
+_LIT(KError,"Error");
+_LIT(KBytesTransferredFmt, "%c:%d/%d ");
+_LIT(KErrFmt, "Error: %d\r");
+#ifndef USB_BOOT_LOADER
+_LIT(KTxtApp,"USBMSAPP");
+_LIT(KDefPwd,"123");
+#endif
+//-- if defined, some useful information will be printed out via RDebug interface
+//#define LOGGING_ENABLED
+//-----------------------------------------------------------------------------
+/**
+prints a line to the console and copies it to the debug log if LOGGING_ENABLED
+*/
+void LogPrint(TRefByValue<const TDesC> aFmt,...)
+{
+VA_LIST list;
+VA_START(list, aFmt);
+TBuf<0x100> buf;
+	// coverity[uninit_use_in_call]
+buf.FormatList(aFmt, list); //-- ignore overflows
+if(console)
+console->Write(buf);
+#ifdef LOGGING_ENABLED
+//-- print out the line via RDebug::Print
+const TInt bufLen = buf.Length();
+if(bufLen >0 && buf[bufLen-1] == '\n')
+{
+buf.Insert(bufLen-1, _L("\r"));
+}
+else
+{
+buf.Append(_L("\r\n"));
+}
+RDebug::RawPrint(buf);
+#endif
+}
+//-----------------------------------------------------------------------------
+/**
+prints a line to the debug log if LOGGING_ENABLED
+*/
+void Log(TRefByValue<const TDesC> aFmt,...)
+{
+#ifdef LOGGING_ENABLED
+VA_LIST list;
+VA_START(list, aFmt);
+TBuf<0x100> buf;
+buf.FormatList(aFmt, list); //-- ignore overflows
+//-- print out the line via RDebug::Print
+const TInt bufLen = buf.Length();
+if(bufLen >0 && buf[bufLen-1] == '\n')
+{
+buf.Insert(bufLen-1, _L("\r"));
+}
+RDebug::RawPrint(buf);
+#else
+(void)aFmt;
+#endif
+}
+//-----------------------------------------------------------------------------
+static void Clear(int row, int count=1)
+	{
+	_LIT(KBlank,"                                        ");
+	for(TInt i=0; i<count; i++)
+		{
+		console->SetPos(0,row+i);
+		console->Printf(KBlank);
+		}
+	console->SetPos(0,row);
+	}
+static void ShowDriveSelection()
+	{
+	console->SetPos(0,15);
+	if(PropertyHandlers::allDrivesStatus.Length()/2 > selectedDriveIndex)
+		{
+		LogPrint(_L("Selected Drive: %c"), 'A' + PropertyHandlers::allDrivesStatus[selectedDriveIndex*2]);
+		}
+	else
+		{
+		LogPrint(_L("Selected Drive: (none)"));
+		}
+	}
+#ifdef USB_BOOT_LOADER
+static void rebootit()
+	{
+	TInt r=User::LoadLogicalDevice(KNANDLDRLDD_NAME);
+	RebootDrv=new RReboot;
+	if(!RebootDrv)
+		{
+		User::Panic(_L("Loading driver"),1);
+		}
+	r=RebootDrv->Open();
+	if (r!=KErrNone)
+		{
+		User::Panic(_L("Opening driver"),r);
+		}
+	if (gRebootDelay>0)
+		{
+		_LIT(KMsgRebooting,"*** Reboot in %d secs ***\n");
+		TInt delay=gRebootDelay;
+		console->SetPos(0,20);
+			do
+			{
+			LogPrint(KMsgRebooting, delay);
+			User::After(1000000);
+			} while(--delay);
+		}
+	r=RebootDrv->VariantCtrl(KVariantUsbmsVariantRebootReason, NULL);
+	if (r!=KErrNone)
+		{
+		User::Panic(_L("Rebooting"),r);
+		}
+	}
+#endif
+class CPeriodUpdate : public CActive
+	{
+public:
+	static CPeriodUpdate* NewLC();
+private:
+	CPeriodUpdate();
+	void ConstructL();
+	~CPeriodUpdate();
+	void RunL();
+	void DoCancel();
+	RTimer iTimer;
+	TUint iUpTime;
+	};
+CPeriodUpdate* CPeriodUpdate::NewLC()
+	{
+	CPeriodUpdate* me=new(ELeave) CPeriodUpdate();
+	CleanupStack::PushL(me);
+	me->ConstructL();
+	return me;
+	}
+CPeriodUpdate::CPeriodUpdate()
+	: CActive(0), iUpTime(0)
+	{}
+void CPeriodUpdate::ConstructL()
+	{
+	CActiveScheduler::Add(this);
+	iTimer.CreateLocal();
+	RunL();
+	}
+CPeriodUpdate::~CPeriodUpdate()
+	{
+	Cancel();
+	}
+void CPeriodUpdate::DoCancel()
+	{
+	}
+void CPeriodUpdate::RunL()
+	{
+	SetActive();
+	// Print RAM usage & up time
+	iUpTime++;
+	TUint totmins=(iUpTime/60);
+	TUint tothrs=(totmins/60);
+	TInt mem=0;
+	if (HAL::Get(HALData::EMemoryRAMFree, mem)==KErrNone)
+		{
+		console->SetPos(0,22);
+		console->Printf(_L("mem (bytes) : %d\n"), mem);
+		console->Printf(_L("up time     : %dh:%dm:%ds\n"),
+					tothrs, totmins%60, iUpTime%60);
+		}
+	iTimer.After(iStatus, 1000000);
+	}
+//-----------------------------------------------------------------------------
+/**
+Dismounts the originally mounted FS and optional primary extension from the drive and stores
+this information in the FS descriptor
+@return on success returns a pointer to the instantinated FS descriptor
+*/
+static CFileSystemDescriptor* DoDismountOrginalFS(RFs& aFs, TInt aDrive)
+{
+TInt        nRes;
+TBuf<128>   fsName;
+TBuf<128>   primaryExtName;
+TBool       bDrvSync = EFalse;
+Log(_L("# DoDismountOrginalFS drv:%d\n"), aDrive);
+//-- 1. get file system name
+nRes = aFs.FileSystemName(fsName, aDrive);
+if(nRes != KErrNone)
+{//-- probably no file system installed at all
+return NULL;
+}
+//-- 2. find out if the drive sync/async
+TPckgBuf<TBool> drvSyncBuf;
+nRes = aFs.QueryVolumeInfoExt(aDrive, EIsDriveSync, drvSyncBuf);
+if(nRes == KErrNone)
+{
+bDrvSync = drvSyncBuf();
+}
+//-- 3. find out primary extension name if it is present; we will need to add it againt when mounting the FS
+//-- other extensions (non-primary) are not supported yet
+nRes = aFs.ExtensionName(primaryExtName, aDrive, 0);
+if(nRes != KErrNone)
+{
+primaryExtName.SetLength(0);
+}
+//-- 3.1 check if the drive has non-primary extensions, fail in this case, because this FS can't be mounted back normally
+nRes = aFs.ExtensionName(primaryExtName, aDrive, 1);
+if(nRes == KErrNone)
+{
+LogPrint(_L("Non-primary extensions are not supported!\n"));
+return NULL;
+}
+Log(_L("# DoDismountOrginalFS FS:%S, Prim ext:%S, synch:%d\n"), &fsName, &primaryExtName, bDrvSync);
+//-- create FS descriptor and dismount the FS
+CFileSystemDescriptor* pFsDesc = NULL;
+TRAP(nRes, pFsDesc = CFileSystemDescriptor::NewL(fsName, primaryExtName, bDrvSync));
+if(nRes != KErrNone)
+return NULL; //-- OOM ?
+nRes = aFs.DismountFileSystem(fsName, aDrive);
+if(nRes != KErrNone)
+{
+delete pFsDesc;
+pFsDesc = NULL;
+Log(_L("# DoDismountOrginalFS Dismounting Err:%d\n"), nRes);
+}
+return pFsDesc;
+}
+//-----------------------------------------------------------------------------
+/**
+Tries to restore the original FS on the drive using the FS descriptor provided
+@return standard error code.
+*/
+static TInt DoRestoreFS(RFs& aFs, TInt aDrive, CFileSystemDescriptor* apFsDesc)
+{
+TInt nRes;
+Log(_L("# DoRestoreFS drv:%d\n"), aDrive);
+//-- 1. check that there is no FS installed
+{
+TBuf<128>   fsName;
+nRes = aFs.FileSystemName(fsName, aDrive);
+if(nRes == KErrNone)
+{//-- probably no file system installed at all
+Log(_L("# This drive already has FS intalled:%S \n"), &fsName);
+return KErrAlreadyExists;
+}
+}
+TPtrC ptrN  (apFsDesc->FsName());
+TPtrC ptrExt(apFsDesc->PrimaryExtName());
+Log(_L("# Mounting FS:%S, Prim ext:%S, synch:%d\n"), &ptrN, &ptrExt, apFsDesc->DriveIsSynch());
+if(ptrExt.Length() >0)
+{//-- there is a primary extension to be mounted
+nRes = aFs.AddExtension(ptrExt);
+if(nRes != KErrNone && nRes != KErrAlreadyExists)
+{
+return nRes;
+}
+nRes = aFs.MountFileSystem(ptrN, ptrExt, aDrive, apFsDesc->DriveIsSynch());
+}
+else
+{
+nRes = aFs.MountFileSystem(ptrN, aDrive, apFsDesc->DriveIsSynch());
+}
+if(nRes != KErrNone)
+{
+Log(_L("# Mount failed! code:%d\n"),nRes);
+}
+return nRes;
+}
+//-----------------------------------------------------------------------------
+/**
+Dismount the original FS from the drive and mount MsFS instead
+*/
+static void MountMsFs(TInt driveNumber)
+	{
+	TInt x = console->WhereX();
+	TInt y = console->WhereY();
+//-- 1. try dismounting the original FS
+CFileSystemDescriptor* fsDesc = DoDismountOrginalFS(fs, driveNumber);
+unmountedFsList[driveNumber] = fsDesc;
+console->SetPos(0, 10);
+if(fsDesc)
+{
+TPtrC ptrN(fsDesc->FsName());
+LogPrint(_L("drv:%d FS:%S Dismounted OK"),driveNumber, &ptrN);
+}
+else
+{
+LogPrint(_L("drv:%d Dismount FS Failed!"),driveNumber);
+}
+console->ClearToEndOfLine();
+//-- 2. try to mount the "MSFS"
+TInt error;
+error = fs.MountFileSystem(KMsFs, driveNumber);
+	console->SetPos(0, 11);
+	LogPrint(_L("MSFS Mount:   %S (%d)"), (error?&KError:&KOk), error);
+	console->ClearToEndOfLine();
+	if (!error)
+		msfsMountedList[driveNumber] = ETrue;
+	// restore console position
+	console->SetPos(x,y);
+	}
+//-----------------------------------------------------------------------------
+/**
+Dismount MsFS and mount the original FS
+*/
+static TInt RestoreMount(TInt driveNumber)
+	{
+	TInt err = KErrNone;
+	TInt x = console->WhereX();
+	TInt y = console->WhereY();
+//-- 1. try dismounting the "MSFS"
+	if (msfsMountedList[driveNumber])
+		{
+		err = fs.DismountFileSystem(KMsFs, driveNumber);
+		console->SetPos(0, 11);
+		LogPrint(_L("MSFS Dismount:%S (%d)"), (err?&KError:&KOk), err);
+		console->ClearToEndOfLine();
+		if (err)
+			return err;
+		msfsMountedList[driveNumber] = EFalse;
+}
+//-- 2. try to mount the original FS back
+CFileSystemDescriptor* fsDesc = unmountedFsList[driveNumber];
+if(fsDesc)
+{
+err = DoRestoreFS(fs, driveNumber, fsDesc);
+TPtrC ptrN(fsDesc->FsName());
+console->SetPos(0, 10);
+LogPrint(_L("%S Mount:    %S (%d)"), &ptrN, (err?&KError:&KOk), err);
+console->ClearToEndOfLine();
+delete fsDesc;
+unmountedFsList[driveNumber] = NULL;
+}
+// restore console position
+	console->SetPos(x,y);
+	return err;
+	}
+//////////////////////////////////////////////////////////////////////////////
+//
+// CPropertyWatch
+// An active object that tracks changes to the KUsbMsDriveState properties
+//
+//////////////////////////////////////////////////////////////////////////////
+CPropertyWatch* CPropertyWatch::NewLC(TUsbMsDriveState_Subkey aSubkey, PropertyHandlers::THandler aHandler)
+	{
+	CPropertyWatch* me=new(ELeave) CPropertyWatch(aHandler);
+	CleanupStack::PushL(me);
+	me->ConstructL(aSubkey);
+	return me;
+	}
+CPropertyWatch::CPropertyWatch(PropertyHandlers::THandler aHandler)
+	: CActive(0), iHandler(aHandler)
+	{}
+void CPropertyWatch::ConstructL(TUsbMsDriveState_Subkey aSubkey)
+	{
+	User::LeaveIfError(iProperty.Attach(KUsbMsDriveState_Category, aSubkey));
+	CActiveScheduler::Add(this);
+	// initial subscription and process current property value
+	RunL();
+	}
+CPropertyWatch::~CPropertyWatch()
+	{
+	Cancel();
+	iProperty.Close();
+	}
+void CPropertyWatch::DoCancel()
+	{
+	iProperty.Cancel();
+	}
+void CPropertyWatch::RunL()
+	{
+	// resubscribe before processing new value to prevent missing updates
+	iProperty.Subscribe(iStatus);
+	SetActive();
+	iHandler(iProperty);
+	}
+//////////////////////////////////////////////////////////////////////////////
+//
+// CUsbWatch
+//
+//////////////////////////////////////////////////////////////////////////////
+CUsbWatch* CUsbWatch::NewLC(TAny* aUsb)
+	{
+	CUsbWatch* me=new(ELeave) CUsbWatch(aUsb);
+	CleanupStack::PushL(me);
+	me->ConstructL();
+	return me;
+	}
+CUsbWatch::CUsbWatch(TAny* aUsb)
+	:
+	CActive(0),
+	iUsb(aUsb),
+	iUsbDeviceState(EUsbDeviceStateUndefined),
+	iWasConfigured(EFalse)
+	{}
+void CUsbWatch::ConstructL()
+	{
+	CActiveScheduler::Add(this);
+	RunL();
+	}
+CUsbWatch::~CUsbWatch()
+	{
+	Cancel();
+//	iUsb.DeviceStateNotificationCancel();
+	if (gSharedChunkLdd)
+		((RDevUsbcScClient*)iUsb)->AlternateDeviceStatusNotifyCancel();
+	else
+		((RDevUsbcClient*)iUsb)->AlternateDeviceStatusNotifyCancel();
+	}
+void CUsbWatch::DoCancel()
+	{
+//	iUsb.DeviceStateNotificationCancel();
+	if (gSharedChunkLdd)
+		((RDevUsbcScClient*)iUsb)->AlternateDeviceStatusNotifyCancel();
+	else
+		((RDevUsbcClient*)iUsb)->AlternateDeviceStatusNotifyCancel();
+	}
+static TBool IsDriveConnected(TInt driveStatusIndex)
+	{
+	TInt driveStatus = PropertyHandlers::allDrivesStatus[2*driveStatusIndex+1];
+	return driveStatus >= EUsbMsDriveState_Connected ? ETrue : EFalse;
+	}
+static TChar DriveNumberToLetter(TInt driveNumber)
+	{
+	TChar driveLetter = '?';
+	fs.DriveToChar(driveNumber, driveLetter);
+	return driveLetter;
+	}
+static TBool IsDriveInMountList(TUint driveLetter)
+	{
+	TUint16 driveLetter16 = static_cast<TUint16>(driveLetter);
+	return(!mountList.Length() || KErrNotFound != mountList.Find(&driveLetter16, 1));
+	}
+void CUsbWatch::RunL()
+	{
+//	RDebug::Print(_L(">> CUsbWatch[%d] %d"), iUsbDeviceState, iWasConfigured);
+//	const TUint stateMask = 0xFF;
+//	iUsb.DeviceStateNotification(stateMask, iUsbDeviceState, iStatus);
+	if (gSharedChunkLdd)
+		((RDevUsbcScClient*)iUsb)->AlternateDeviceStatusNotify(iStatus, iUsbDeviceState);
+	else
+		((RDevUsbcClient*)iUsb)->AlternateDeviceStatusNotify(iStatus, iUsbDeviceState);
+	SetActive();
+	//RDebug::Print(_L("CUsbWatch DeviceStateNotification: iUsbDeviceState=%d"), iUsbDeviceState);
+	// If the cable is disconnected, unmount all the connected drives.
+	if(iWasConfigured && iUsbDeviceState == EUsbDeviceStateUndefined)
+		{
+		for(TInt i=0; i<PropertyHandlers::allDrivesStatus.Length()/2; i++)
+			{
+			if(IsDriveConnected(i))
+				{
+				//RDebug::Print(_L("CUsbWatch calling RestoreMount"));
+				RestoreMount(PropertyHandlers::allDrivesStatus[2*i]);
+#ifdef USB_BOOT_LOADER
+				// exit and reboot
+				CActiveScheduler::Stop();
+#endif
+				}
+			}
+		iWasConfigured = EFalse;
+		}
+	// If cable is connected, mount all drives in the auto-mount list.
+	// This is done for performance, since if this is not done here,
+	// mounting will happen later after each drive enters the
+	// Connecting state.
+	if(iUsbDeviceState == EUsbDeviceStateConfigured)
+		{
+		for(TInt i=0; i<PropertyHandlers::allDrivesStatus.Length()/2; i++)
+			{
+			TInt driveNumber = PropertyHandlers::allDrivesStatus[2*i];
+			if(!IsDriveConnected(i) && IsDriveInMountList(DriveNumberToLetter(driveNumber)))
+				{
+				//RDebug::Print(_L("CUsbWatch calling MountMsFs"));
+				MountMsFs(driveNumber);
+				}
+			}
+		iWasConfigured = ETrue;
+		}
+	}
+//////////////////////////////////////////////////////////////////////////////
+//
+// PropertyHandlers
+//
+//////////////////////////////////////////////////////////////////////////////
+TBuf8<16> PropertyHandlers::allDrivesStatus;
+TUsbMsBytesTransferred PropertyHandlers::iKBytesRead;
+TUsbMsBytesTransferred PropertyHandlers::iKBytesWritten;
+TInt PropertyHandlers::iMediaError;
+void PropertyHandlers::Read(RProperty& aProperty)
+	{
+	Transferred(aProperty, iKBytesRead);
+	}
+void PropertyHandlers::Written(RProperty& aProperty)
+	{
+	Transferred(aProperty, iKBytesWritten);
+	}
+void PropertyHandlers::Transferred(RProperty& aProperty, TUsbMsBytesTransferred& aReadOrWritten)
+	{
+	console->SetPos(0,1);
+	console->Printf(_L("KB R/W:  "));
+	TInt err = aProperty.Get(aReadOrWritten);
+	if(err == KErrNone)
+		{
+		for(TInt i = 0; i < allDrivesStatus.Length()/2; i++)
+			{
+			console->Printf(KBytesTransferredFmt, (char)DriveNumberToLetter(allDrivesStatus[2*i]), iKBytesRead[i], iKBytesWritten[i]);
+			}
+		console->ClearToEndOfLine();
+		}
+	else
+		{
+		console->Printf(KErrFmt, err);
+		}
+	}
+void PropertyHandlers::DriveStatus(RProperty& aProperty)
+	{
+//	RDebug::Print(_L(">> PropertyHandlers::DriveStatus"));
+	TInt err = aProperty.Get(allDrivesStatus);
+	console->SetPos(0,0);
+	if(err == KErrNone)
+		{
+		LogPrint(_L("Status:  "));
+		for(TInt i = 0; i < allDrivesStatus.Length()/2; i++)
+			{
+			TInt driveNumber = allDrivesStatus[2*i];
+			TInt driveStatus = allDrivesStatus[2*i+1];
+			TChar driveLetter = DriveNumberToLetter(driveNumber);
+//			RDebug::Print(_L("%c:%d   "), (char)driveLetter, driveStatus);
+			switch(driveStatus)
+				{
+				case EUsbMsDriveState_Disconnected:
+					{
+					LogPrint(_L("%c:%d:Disconnected "), (char)driveLetter, driveStatus);
+					break;
+					}
+				case EUsbMsDriveState_Connecting:
+					{
+					LogPrint(_L("%c:%d:Connecting   "), (char)driveLetter, driveStatus);
+					break;
+					}
+				case EUsbMsDriveState_Connected:
+					{
+					LogPrint(_L("%c:%d:Connected    "), (char)driveLetter, driveStatus);
+					break;
+					}
+				case EUsbMsDriveState_Disconnecting:
+					{
+					LogPrint(_L("%c:%d:Disconnecting"), (char)driveLetter, driveStatus);
+					break;
+					}
+				case EUsbMsDriveState_Active:
+					{
+					LogPrint(_L("%c:%d:Active       "), (char)driveLetter, driveStatus);
+					break;
+					}
+				case EUsbMsDriveState_Locked:
+					{
+					LogPrint(_L("%c:%d:Locked       "), (char)driveLetter, driveStatus);
+					break;
+					}
+				case EUsbMsDriveState_MediaNotPresent:
+					{
+					LogPrint(_L("%c:%d:Not Present  "), (char)driveLetter, driveStatus);
+					break;
+					}
+				case EUsbMsDriveState_Removed:
+					{
+					LogPrint(_L("%c:%d:Removed      "), (char)driveLetter, driveStatus);
+					break;
+					}
+				case EUsbMsDriveState_Error:
+					{
+					LogPrint(_L("%c:%d:Error        "), (char)driveLetter, driveStatus);
+					break;
+					}
+				default :
+					{
+					LogPrint(_L("%c:%d:Unknown      "), (char)driveLetter, driveStatus);
+					break;
+					}
+				}
+			if(IsDriveInMountList(driveLetter))
+				{
+#ifndef USB_BOOT_LOADER
+				if (driveStatus == EUsbMsDriveState_Connecting)
+					{
+					MountMsFs(driveNumber);
+					}
+				else if (driveStatus == EUsbMsDriveState_Disconnected)
+					{
+					RestoreMount(driveNumber);
+					}
+#else
+				if (driveStatus == EUsbMsDriveState_Disconnecting)
+					{
+					RestoreMount(driveNumber);
+					}
+				else if (driveStatus == EUsbMsDriveState_Disconnected)
+					{
+					static TBool firstTime = ETrue;
+					if (!firstTime)
+						{
+						RDebug::Print(_L("Eject..."));
+						// Exit and reboot the target upon receipt of an eject
+						CActiveScheduler::Stop();
+						rebootit();
+						}
+					firstTime = EFalse;
+					}
+#endif
+				else
+					{
+					//RDebug::Print(_L("PropertyHandlers::DriveStatus: nothing to do"));
+					}
+				}
+			else
+				{
+				//RDebug::Print(_L("PropertyHandlers::DriveStatus: %c: is not in mountList\n"), driveLetter);
+				}
+			}
+		}
+	else
+		{
+		LogPrint(KErrFmt, err);
+		}
+	//RDebug::Print(_L("<< PropertyHandlers::DriveStatus"));
+	}
+void PropertyHandlers::MediaError(RProperty& aProperty)
+	{
+	TInt err = aProperty.Get(iMediaError);
+	if(err != KErrNone)
+		{
+		// RDebug::Printf("RProperty::Get returned %d", err);
+		return;
+		}
+	//RDebug::Printf("PropertyHandlers::MediaError %x", iMediaError);
+	TInt x = console->WhereX();
+	TInt y = console->WhereY();
+	Clear(27,1);
+	LogPrint(_L("Media Error %x"), iMediaError);
+	// restore console position
+	console->SetPos(x,y);
+	}
+//////////////////////////////////////////////////////////////////////////////
+//
+// CMessageKeyProcessor
+//
+//////////////////////////////////////////////////////////////////////////////
+CMessageKeyProcessor::CMessageKeyProcessor(CConsoleBase* aConsole)
+	: CActive(CActive::EPriorityUserInput), iConsole(aConsole)
+	{
+	}
+CMessageKeyProcessor* CMessageKeyProcessor::NewLC(CConsoleBase* aConsole
+												 )
+	{
+	CMessageKeyProcessor* self=new (ELeave) CMessageKeyProcessor(aConsole);
+	CleanupStack::PushL(self);
+	self->ConstructL();
+	return self;
+	}
+CMessageKeyProcessor* CMessageKeyProcessor::NewL(CConsoleBase* aConsole
+												)
+	{
+	CMessageKeyProcessor* self = NewLC(aConsole);
+	CleanupStack::Pop();
+	return self;
+	}
+void CMessageKeyProcessor::ConstructL()
+	{
+	// Add to active scheduler
+	CActiveScheduler::Add(this);
+	RequestCharacter();
+	}
+#ifndef USB_BOOT_LOADER
+void CMessageKeyProcessor::MakePassword(TMediaPassword &aPassword)
+	{
+	//  Create password with same format as eshell and S60
+	TBuf<3> password(KDefPwd);
+	// fill aPassword with contents of password, not converting to ASCII
+	const TInt byteLen = password.Length() * 2;
+	aPassword.Copy(reinterpret_cast<const TUint8 *>(password.Ptr()), byteLen);
+	}
+#endif
+CMessageKeyProcessor::~CMessageKeyProcessor()
+	{
+	// Make sure we're cancelled
+	Cancel();
+	}
+void  CMessageKeyProcessor::DoCancel()
+	{
+	iConsole->ReadCancel();
+	}
+void  CMessageKeyProcessor::RunL()
+	{
+	  // Handle completed request
+	ProcessKeyPress(TChar(iConsole->KeyCode()));
+	}
+void CMessageKeyProcessor::RequestCharacter()
+	{
+	  // A request is issued to the CConsoleBase to accept a
+	  // character from the keyboard.
+	iConsole->Read(iStatus);
+	SetActive();
+	}
+void CMessageKeyProcessor::ProcessKeyPress(TChar aChar)
+	{
+#ifndef USB_BOOT_LOADER
+	TInt error = KErrNone;
+#endif
+#if defined(_DEBUG)
+	static TBool tracetoggle=EFalse;
+#endif
+	switch(aChar)
+		{
+		case 'q':
+		case 'Q':
+		case EKeyEscape:
+			{
+			TInt err = KErrNone;
+			for(TInt j=0; j<KMaxDrives; j++)
+				{
+				err = RestoreMount(j);
+				if (err)
+					{
+					// Mount is busy/locked and can not be restored.
+					break;
+					}
+				}
+			if (err == KErrNone)
+				{
+#ifdef USB_BOOT_LOADER
+					gRebootDelay=0;	// Force reboot to occur immediately
+#endif
+				CActiveScheduler::Stop();
+				return;
+				}
+			}
+			break;
+#if defined(_DEBUG)
+		case 't':
+		case 'T':
+			tracetoggle=!tracetoggle;
+			if (tracetoggle)	// 0x44008401
+				User::SetDebugMask(KHARDWARE|KDLL|KSCRATCH|KPOWER|KMEMTRACE);
+			else
+				User::SetDebugMask(0);
+			break;
+#endif
+#ifndef USB_BOOT_LOADER
+		case 'd':
+		case 'D':
+			if(++selectedDriveIndex >= PropertyHandlers::allDrivesStatus.Length()/2)
+				{
+				selectedDriveIndex = 0;
+				}
+			ShowDriveSelection();
+			break;
+		case 'm':
+		case 'M':
+			if(PropertyHandlers::allDrivesStatus.Length())
+				{
+				MountMsFs(PropertyHandlers::allDrivesStatus[selectedDriveIndex*2]);
+				}
+			break;
+		case 'u':
+		case 'U':
+			if(PropertyHandlers::allDrivesStatus.Length())
+				{
+				RestoreMount(PropertyHandlers::allDrivesStatus[selectedDriveIndex*2]);
+				}
+			break;
+		case 'l':
+			{
+			// lock unprotected drive
+			TMediaPassword password;
+			MakePassword(password);
+			_LIT(KEmpty, "");
+			TMediaPassword nul;
+			nul.Copy(KEmpty);
+			error = fs.LockDrive(PropertyHandlers::allDrivesStatus[selectedDriveIndex*2],
+nul, password, ETrue);
+			console->SetPos(0,9);
+			LogPrint(_L("LockDrive %S (%d)"), (error?&KError:&KOk), error);
+			break;
+			}
+			case 'L':
+{
+// lock password protected drive
+TMediaPassword password;
+MakePassword(password);
+error = fs.LockDrive(PropertyHandlers::allDrivesStatus[selectedDriveIndex*2],
+password, password, ETrue);
+console->SetPos(0,9);
+LogPrint(_L("LockDrive %S (%d)"), (error?&KError:&KOk), error);
+break;
+}
+		case 'n':
+case 'N':
+{
+TMediaPassword password;
+MakePassword(password);
+error = fs.UnlockDrive(PropertyHandlers::allDrivesStatus[selectedDriveIndex*2],
+password, ETrue);
+Clear(9);
+LogPrint(_L("UnlockDrive %S (%d)"), (error?&KError:&KOk), error);
+}
+			break;
+		case 'c':
+case 'C':
+{
+TMediaPassword password;
+MakePassword(password);
+error = fs.ClearPassword(PropertyHandlers::allDrivesStatus[selectedDriveIndex*2],
+password);
+Clear(9);
+LogPrint(_L("ClearPassword %S (%d)"), (error?&KError:&KOk), error);
+}
+			break;
+#endif
+		default:
+			break;
+		}
+	RequestCharacter();
+	}
+#ifdef USB_BOOT_LOADER
+static void RunMode()
+	{
+	RFs fs;
+	TInt r=fs.Connect();
+	if (r!=KErrNone)
+		{
+		RDebug::Print(_L("Help\n"));
+		return;
+		}
+	TFileName sessionpath = _L("?:\\");
+	TDriveList drivelist;
+	fs.DriveList(drivelist);
+	for (TInt driveno=EDriveC; driveno<=EDriveZ; driveno++)
+		{
+		if (!drivelist[driveno])
+			continue;
+		sessionpath[0]='A'+driveno;
+		/*
+		 If a filename with the format EJECTDELAY.nnn is found, delay any reboot
+		 action by "nnn" seconds
+		 */
+		CDir* dir;
+		TFindFile finder(fs);
+		r=finder.FindWildByPath(_L("EJECTDELAY.*"),&sessionpath,dir);
+		if (r == KErrNone)
+			{ // Found one or more files
+			TEntry entry;
+			entry=(*dir)[0];
+			TParse parser;
+			parser.Set(entry.iName, NULL, NULL);
+			TPtrC tok = parser.Ext();
+			TLex lex(tok);
+			lex.SkipAndMark(1);
+			tok.Set(lex.NextToken());
+			lex.Assign(tok);
+			r=lex.Val(gRebootDelay);
+			if (r!=KErrNone)
+				continue;
+			}
+		}
+	}
+#endif
+//////////////////////////////////////////////////////////////////////////////
+//
+// Application entry point
+//
+//////////////////////////////////////////////////////////////////////////////
+static void RunAppL()
+	{
+#ifdef USB_BOOT_LOADER
+	RunMode();
+#endif
+TInt error = KErrUnknown;
+	//RDebug::Print(_L("USBMSAPP: Creating console\n"));
+#ifdef USB_BOOT_LOADER
+	console = Console::NewL(KVariantUsbmsTitle,TSize(KConsFullScreen,KConsFullScreen));
+#else
+	console = Console::NewL(KTxtApp,TSize(KConsFullScreen,KConsFullScreen));
+#endif
+	CleanupStack::PushL(console);
+	console->SetPos(0,2);
+	console->Printf(_L("========================================"));
+	CActiveScheduler* sched = new(ELeave) CActiveScheduler;
+	CleanupStack::PushL(sched);
+	CActiveScheduler::Install(sched);
+	TBuf<20> KDriverFileName;
+	// Load the logical device
+	RDevUsbcClient usb;
+	RDevUsbcScClient usbsc;
+	RChunk gChunk;
+	fs.Connect();
+	CleanupClosePushL(fs);
+	_LIT(KMountAllDefault,"(all)");
+	console->SetPos(0,3);
+	LogPrint(_L("Drives to auto-mount: %S"), (mountList.Length() ? &mountList : &KMountAllDefault));
+	// Add MS file system
+	error = fs.AddFileSystem(KMsFsy);
+	if(error != KErrNone && error != KErrAlreadyExists)
+		{
+		User::Leave(error);
+		}
+	console->SetPos(0,4);
+	LogPrint(_L("MSFS file system:\tAdded OK\n"));
+	if (gSharedChunkLdd)
+		{
+		KDriverFileName = _L("EUSBCSC.LDD");
+		error = User::LoadLogicalDevice(KDriverFileName);
+		}
+	else
+		{
+		KDriverFileName = _L("EUSBC.LDD");
+		error = User::LoadLogicalDevice(KDriverFileName);
+		}
+	if (error != KErrAlreadyExists)
+		{
+		User::LeaveIfError(error);
+		}
+	if (gSharedChunkLdd)
+		{
+		error = usbsc.Open(0);
+		}
+	else
+		{
+		error = usb.Open(0);
+		}
+	User::LeaveIfError(error);
+#ifdef BUILD_OTG_USBMSAPP
+	_LIT(KOtgdiLddFilename, "otgdi");
+	// Check for OTG support
+	TBuf8<KUsbDescSize_Otg> otg_desc;
+		if (gSharedChunkLdd)
+		{
+		error = usbsc.GetOtgDescriptor(otg_desc);
+		}
+	else
+		{
+		error = usb.GetOtgDescriptor(otg_desc);
+		}
+	if (!(error == KErrNotSupported || error == KErrNone))
+		{
+		LogPrint(_L("Error %d while fetching OTG descriptor"), error);
+		User::Leave(-1);
+		return;
+		}
+	// On an OTG device we have to start the OTG driver, otherwise the Client
+	// stack will remain disabled forever.
+	if (error == KErrNotSupported)
+	{
+	if (gSharedChunkLdd)
+		{
+		CleanupClosePushL(usbsc);
+		}
+	else
+		{
+		CleanupClosePushL(usb);
+		}
+		User::Leave(-1);
+	}
+	error = User::LoadLogicalDevice(KOtgdiLddFilename);
+	if (error != KErrNone)
+		{
+		LogPrint(_L("Error %d on loading OTG LDD"), error);
+		User::Leave(-1);
+		return;
+		}
+	RUsbOtgDriver iOtgPort;
+	error = iOtgPort.Open();
+	if (error != KErrNone)
+		{
+		LogPrint(_L("Error %d on opening OTG port"), error);
+		User::Leave(-1);
+		return;
+		}
+	error = iOtgPort.StartStacks();
+	if (error != KErrNone)
+		{
+		LogPrint(_L("Error %d on starting USB stack"), error);
+		User::Leave(-1);
+		return;
+		}
+#endif
+	if (gSharedChunkLdd)
+		{
+		CleanupClosePushL(usbsc);
+		RChunk *tChunk = &gChunk;
+		usbsc.FinalizeInterface(tChunk);
+		}
+	else
+		{
+		CleanupClosePushL(usb);
+		}
+//		RDebug::Print(_L("USBMSAPP: Create active objects\n"));
+	CMessageKeyProcessor::NewLC(console);
+	CPropertyWatch::NewLC(EUsbMsDriveState_KBytesRead, PropertyHandlers::Read);
+	CPropertyWatch::NewLC(EUsbMsDriveState_KBytesWritten, PropertyHandlers::Written);
+	CPropertyWatch::NewLC(EUsbMsDriveState_DriveStatus, PropertyHandlers::DriveStatus);
+	CPropertyWatch::NewLC(EUsbMsDriveState_MediaError, PropertyHandlers::MediaError);
+	if (gSharedChunkLdd)
+		{
+		CUsbWatch::NewLC(&usbsc);
+		}
+	else
+		{
+		CUsbWatch::NewLC(&usb);
+		}
+	CPeriodUpdate::NewLC();
+	RUsbMassStorage UsbMs;
+	TBuf<8>  t_vendorId(_L("vendor"));
+	TBuf<16> t_productId(_L("product"));
+	TBuf<4>  t_productRev(_L("1.00"));
+	TMassStorageConfig msConfig;
+	msConfig.iVendorId.Copy(t_vendorId);
+	msConfig.iProductId.Copy(t_productId);
+	msConfig.iProductRev.Copy(t_productRev);
+//   	console->Printf(_L("Connect to Mass Storage"));
+	error = UsbMs.Connect();
+	User::LeaveIfError(error);
+//   	console->Printf(_L("Start Mass Storage"));
+	error = UsbMs.Start(msConfig);
+	User::LeaveIfError(error);
+	TBuf8<KUsbDescSize_Device> deviceDescriptor;
+	if (gSharedChunkLdd)
+		{
+		error = usbsc.GetDeviceDescriptor(deviceDescriptor);
+		}
+	else
+		{
+		error = usb.GetDeviceDescriptor(deviceDescriptor);
+		}
+	User::LeaveIfError(error);
+	const TInt KUsbSpecOffset = 2;
+	const TInt KUsbDeviceClassOffset = 4;
+	const TInt KUsbVendorIdOffset = 8;
+	const TInt KUsbProductIdOffset = 10;
+	const TInt KUsbDevReleaseOffset = 12;
+	//Change the USB spec number to 2.00
+	deviceDescriptor[KUsbSpecOffset]   = 0x00;
+	deviceDescriptor[KUsbSpecOffset+1] = 0x02;
+	//Change the Device Class, Device SubClass and Device Protocol
+	deviceDescriptor[KUsbDeviceClassOffset] = 0x00;
+	deviceDescriptor[KUsbDeviceClassOffset+1] = 0x00;
+	deviceDescriptor[KUsbDeviceClassOffset+2] = 0x00;
+	//Change the device vendor ID (VID) to 0x0E22 (Symbian)
+	deviceDescriptor[KUsbVendorIdOffset]   = 0x22;   // little endian
+	deviceDescriptor[KUsbVendorIdOffset+1] = 0x0E;
+	//Change the device product ID (PID) to 0x1111
+	deviceDescriptor[KUsbProductIdOffset]   = 0x12;
+	deviceDescriptor[KUsbProductIdOffset+1] = 0x11;
+	//Change the device release number to 3.05
+	deviceDescriptor[KUsbDevReleaseOffset]   = 0x05;
+	deviceDescriptor[KUsbDevReleaseOffset+1] = 0x03;
+	if (gSharedChunkLdd)
+		{
+		error = usbsc.SetDeviceDescriptor(deviceDescriptor);
+		}
+	else
+		{
+		error = usb.SetDeviceDescriptor(deviceDescriptor);
+		}
+	User::LeaveIfError(error);
+	// Remove possible Remote-Wakup support in Configuration descriptor,
+	// so that we can use the MSC device also easily for Chapter9 testing.
+	TBuf8<KUsbDescSize_Config> configDescriptor;
+	if (gSharedChunkLdd)
+		{
+		error = usbsc.GetConfigurationDescriptor(configDescriptor);
+		}
+	else
+		{
+		error = usb.GetConfigurationDescriptor(configDescriptor);
+		}
+	User::LeaveIfError(error);
+	const TInt KConfDesc_AttribOffset = 7;
+	configDescriptor[KConfDesc_AttribOffset] &= ~KUsbDevAttr_RemoteWakeup;
+	if (gSharedChunkLdd)
+		{
+		error = usbsc.SetConfigurationDescriptor(configDescriptor);
+		}
+	else
+		{
+		error = usb.SetConfigurationDescriptor(configDescriptor);
+		}
+	User::LeaveIfError(error);
+	_LIT16(productID_L, "Symbian USB Mass Storage Device (Base)");
+	TBuf16<KUsbStringDescStringMaxSize / 2> productID(productID_L);
+		if (gSharedChunkLdd)
+		{
+		error = usbsc.SetProductStringDescriptor(productID);
+		}
+	else
+		{
+		error = usb.SetProductStringDescriptor(productID);
+		}
+	User::LeaveIfError(error);
+	TRequestStatus enum_status;
+	console->SetPos(0,5);
+	LogPrint(_L("Re-enumerating...\n"));
+#ifdef BUILD_OTG_USBMSAPP
+// For OTG: The USB stack may not yet in the peripheral role. If it is not,
+// then ReEnumerate() will not work here as the stack will ignore the call
+// since the stack is not active. Therefore we simulate device connection to
+// force the stack into peripheral role by calling DeviceConnectToHost().
+	if (gSharedChunkLdd)
+		{
+usbsc.DeviceConnectToHost();
+usbsc.ReEnumerate(enum_status);
+		}
+	else
+		{
+usb.DeviceConnectToHost();
+usb.ReEnumerate(enum_status);
+		}
+#else
+	if (gSharedChunkLdd)
+		{
+		usbsc.ReEnumerate(enum_status);
+		}
+	else
+		{
+		usb.ReEnumerate(enum_status);
+		}
+#endif
+	User::LeaveIfError(error);
+	console->SetPos(0,5);
+	User::WaitForRequest(enum_status);
+	if(enum_status.Int() == KErrNone)
+		LogPrint(_L("Re-enumeration Done\n"));
+	else
+		LogPrint(_L("Re-enumeration not successfully done\n"));
+#ifndef USB_BOOT_LOADER
+console->SetPos(0,14);
+TBuf<3>password(KDefPwd);
+LogPrint(_L("Password: %S"), &password);
+#endif
+	ShowDriveSelection();
+	console->SetPos(0,17);
+#ifdef USB_BOOT_LOADER
+	_LIT(KMsgTitleB,"Menu:\n[Esc,Q]=RESET (boot image)\n");
+#else
+	_LIT(KMsgTitleB,"Menu: q=quit  d=chg drv\n      m=mount u=unmount\n       l=lock n=unlock\n      c=clr pwd");
+#endif
+	//RDebug::Print(_L("USBMSAPP: Start CActiveScheduler\n"));
+	console->Printf(KMsgTitleB);
+#ifdef USB_BOOT_LOADER
+	// Mount the mass storage on variant specific drive
+	MountMsFs(KVariantUsbmsRemoveableDrive);
+#endif
+	CActiveScheduler::Start();
+	error = UsbMs.Stop();
+	User::LeaveIfError(error);
+	UsbMs.Close();
+	error = fs.RemoveFileSystem(KMsFs);
+	User::LeaveIfError(error);
+	//The console object is left on the Cleanup Stack,
+	//which is used in the delay processing logic of rebootit().
+	CleanupStack::PopAndDestroy(10);
+#ifdef BUILD_OTG_USBMSAPP
+	iOtgPort.StopStacks();
+	iOtgPort.Close();
+	error = User::FreeLogicalDevice(RUsbOtgDriver::Name());
+	User::LeaveIfError(error);
+#endif
+	// UnLoad the logical device
+	TBuf<20> KDriverName;
+	if (gSharedChunkLdd)
+		{
+		KDriverName = _L("USBCSC");
+		gChunk.Close();
+		usbsc.Close();
+		User::After(100000);
+		error = User::FreeLogicalDevice(KDriverName);
+		}
+	else
+		{
+		KDriverName = _L("USBC");
+		error = User::FreeLogicalDevice(KDriverName);
+		}
+	User::LeaveIfError(error);
+#ifdef USB_BOOT_LOADER
+	rebootit();
+#endif
+	CleanupStack::PopAndDestroy(1);
+	}
+TInt ParseCommandLine()
+	{
+	TBuf<32> args;
+	User::CommandLine(args);
+	TLex lex(args);
+	TInt err=KErrNone;
+	FOREVER
+		{
+		TPtrC token=lex.NextToken();
+		if(token.Length()!=0)
+			{
+			if ((token.MatchF(_L("-sc")) == KErrNone))
+				{
+				gSharedChunkLdd = ETrue;
+				err = KErrNone;
+				}
+			else
+				{
+				// Command line: list of drive letters to auto-mount (all if not specified)
+				mountList.Append(token);
+				mountList.UpperCase();
+				err = KErrNone;
+				} // endif token
+			}
+		else
+			break;
+		}
+	return err;
+	}
+GLDEF_C TInt E32Main()
+	{
+	__UHEAP_MARK;
+	CTrapCleanup* cleanup=CTrapCleanup::New();
+	if (ParseCommandLine())
+		return KErrNone;
+msfsMountedList.Reset();
+unmountedFsList.Reset();
+TRAPD(error,RunAppL());
+#ifdef USB_BOOT_LOADER
+	__ASSERT_ALWAYS(!error, User::Panic(KVariantUsbmsTitle, error));
+#else
+	__ASSERT_ALWAYS(!error, User::Panic(KTxtApp, error));
+#endif
+	delete cleanup;
+	__UHEAP_MARKEND;
+	return 0;
+	}
+//-----------------------------------------------------------------------------
+CFileSystemDescriptor::~CFileSystemDescriptor()
+{
+iFsName.Close();
+iPrimaryExtName.Close();
+}
+//-----------------------------------------------------------------------------
+CFileSystemDescriptor* CFileSystemDescriptor::NewL(const TDesC& aFsName, const TDesC& aPrimaryExtName, TBool aDrvSynch)
+{
+CFileSystemDescriptor* pSelf = new (ELeave) CFileSystemDescriptor;
+CleanupStack::PushL(pSelf);
+pSelf->iFsName.CreateMaxL(aFsName.Length());
+pSelf->iFsName.Copy(aFsName);
+pSelf->iPrimaryExtName.CreateMaxL(aPrimaryExtName.Length());
+pSelf->iPrimaryExtName.Copy(aPrimaryExtName);
+pSelf->iDriveSynch = aDrvSynch;
+CleanupStack::Pop();
+return pSelf;
+}