kerneltest/e32test/device/t_usbco2.cpp
branchRCL_3
changeset 43 c1f20ce4abcf
parent 19 4a8fed1c0ef6
child 44 3e88ff8f41d5
--- a/kerneltest/e32test/device/t_usbco2.cpp	Thu Aug 19 11:14:22 2010 +0300
+++ b/kerneltest/e32test/device/t_usbco2.cpp	Tue Aug 31 16:34:26 2010 +0300
@@ -1,4 +1,4 @@
-// Copyright (c) 2000-2009 Nokia Corporation and/or its subsidiary(-ies).
+// Copyright (c) 2000-2010 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"
@@ -23,6 +23,10 @@
 
 #include "t_usb.h"											// CActiveConsole, CActiveRW
 #include "t_usblib.h"										// Helpers
+#include "OstTraceDefinitions.h"
+#ifdef OST_TRACE_COMPILER_IN_USE
+#include "t_usbco2Traces.h"
+#endif
 
 
 _LIT(KUsbLddFilename, "eusbc");								// .ldd assumed - it's a filename
@@ -91,30 +95,36 @@
 	if (r != KErrNone && r != KErrAlreadyExists)
 		{
 		TUSB_PRINT1("Error %d on loading USB LDD", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL, "Error %d on loading USB LDD", r);
 		User::Leave(-1);
 		return;
 		}
 	TUSB_PRINT("Successfully loaded USB LDD");
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP01, "Successfully loaded USB LDD");
 
 	// Open USB channel
 	r = iPort.Open(0);
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d on opening USB port", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP02, "Error %d on opening USB port", r);
 		User::Leave(-1);
 		return;
 		}
 	TUSB_PRINT("Successfully opened USB port");
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP03, "Successfully opened USB port");
 
 	// Create Reader/Writer active object
 	iRW = CActiveRW::NewL(iConsole, &iPort, iVerbose);
 	if (!iRW)
 		{
 		TUSB_PRINT("Failed to create reader/writer");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP04, "Failed to create reader/writer");
 		User::Leave(-1);
 		return;
 		}
 	TUSB_PRINT("Created reader/writer");
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP05, "Created reader/writer");
 	
 	// check for endpoint resource allocation v2 support
 	TUsbDeviceCaps d_caps;
@@ -122,6 +132,7 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d on querying device capabilities", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP06, "Error %d on querying device capabilities", r);
 		User::Leave(-1);
 		return;
 		}
@@ -133,6 +144,7 @@
 	if (!(r == KErrNotSupported || r == KErrNone))
 		{
 		TUSB_PRINT1("Error %d while fetching OTG descriptor", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP07, "Error %d while fetching OTG descriptor", r);
 		User::Leave(-1);
 		return;
 		}
@@ -143,10 +155,12 @@
 	if (iOtg)
 		{
 		TUSB_PRINT("Running on OTG device: loading OTG driver");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP08, "Running on OTG device: loading OTG driver");
 		r = User::LoadLogicalDevice(KOtgdiLddFilename);
 		if (r != KErrNone)
 			{
 			TUSB_PRINT1("Error %d on loading OTG LDD", r);
+			OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP09, "Error %d on loading OTG LDD", r);
 			User::Leave(-1);
 			return;
 			}
@@ -154,6 +168,7 @@
 		if (r != KErrNone)
 			{
 			TUSB_PRINT1("Error %d on opening OTG port", r);
+			OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP10, "Error %d on opening OTG port", r);
 			User::Leave(-1);
 			return;
 			}
@@ -161,6 +176,7 @@
 		if (r != KErrNone)
 			{
 			TUSB_PRINT1("Error %d on starting USB stack", r);
+			OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_CONSTRUCTL_DUP11, "Error %d on starting USB stack", r);
 			User::Leave(-1);
 			return;
 			}
@@ -175,15 +191,18 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Interface setup failed", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_SETUPINTERFACE, "Interface setup failed:%d", r);
 		return r;
 		}
 	TUSB_PRINT("Interface successfully set up");
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_SETUPINTERFACE_DUP01, "Interface successfully set up");
 
 	// Change some descriptors to contain suitable values
 	r = SetupDescriptors();
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Descriptor setup failed", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_SETUPINTERFACE_DUP02, "Descriptor setup failed:%d ", r);
 		return r;
 		}
 
@@ -192,6 +211,7 @@
 	if (!iDeviceStateNotifier)
 		{
 		TUSB_PRINT("Failed to create device state notifier");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_SETUPINTERFACE_DUP03, "Failed to create device state notifier");
 		return r;
 		}
 	iDeviceStateNotifier->Activate();
@@ -201,6 +221,7 @@
 	if (!iStallNotifier)
 		{
 		TUSB_PRINT("Failed to create stall notifier");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_SETUPINTERFACE_DUP04, "Failed to create stall notifier");
 		return r;
 		}
 	iStallNotifier->Activate();
@@ -212,6 +233,10 @@
 CActiveConsole::~CActiveConsole()
 	{
 	TUSB_VERBOSE_PRINT("CActiveConsole::~CActiveConsole()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVECONSOLE_DCACTIVECONSOLE, "CActiveConsole::~CActiveConsole()");
+	    }
 	Cancel();												// base class cancel -> calls our DoCancel
 	delete iRW;												// destroy the reader/writer
 	delete iDeviceStateNotifier;
@@ -220,21 +245,25 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d on string removal", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_DCACTIVECONSOLE_DUP01, "Error %d on string removal", r);
 		}
 	r = iPort.RemoveStringDescriptor(stridx2);
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d on string removal", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_DCACTIVECONSOLE_DUP02, "Error %d on string removal", r);
 		}
 	if (iOtg)
 		{
 		TUSB_PRINT("Running on OTG device: unloading OTG driver");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_DCACTIVECONSOLE_DUP03, "Running on OTG device: unloading OTG driver");
 		iOtgPort.StopStacks();
 		iOtgPort.Close();
 		r = User::FreeLogicalDevice(RUsbOtgDriver::Name());
 		if (r != KErrNone)
 			{
 			TUSB_PRINT1("Error %d on freeing OTG LDD", r);
+			OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_DCACTIVECONSOLE_DUP04, "Error %d on freeing OTG LDD", r);
 			}
 		}
 	iPort.Close();											// close USB channel
@@ -242,16 +271,22 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d during unloading USB LDD", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_DCACTIVECONSOLE_DUP05, "Error %d during unloading USB LDD", r);
 		User::Leave(-1);
 		return;
 		}
 	TUSB_PRINT("Successfully unloaded USB LDD");	
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_DCACTIVECONSOLE_DUP06, "Successfully unloaded USB LDD");	
 	}
 
 
 void CActiveConsole::DoCancel()
 	{
 	TUSB_VERBOSE_PRINT("CActiveConsole::DoCancel()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVECONSOLE_DOCANCEL, "CActiveConsole::DoCancel()");
+	    }
 	iConsole->ReadCancel();
 	}
 
@@ -259,6 +294,10 @@
 void CActiveConsole::RunL()
 	{
 	TUSB_VERBOSE_PRINT("CActiveConsole::RunL()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVECONSOLE_RUNL, "CActiveConsole::RunL()");
+	    }
 	ProcessKeyPressL(static_cast<TChar>(iConsole->KeyCode()));
 	}
 
@@ -270,53 +309,87 @@
 	if (!iBufferSizeChosen)
 		{
 		iConsole->Printf(_L("\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER, "\n");
 		iConsole->Printf(_L("++++ Choose max. Transfer Size ++++\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP01, "++++ Choose max. Transfer Size ++++\n");
 		iConsole->Printf(_L("  '0' - Set up USB device for USBCV\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP02, "  '0' - Set up USB device for USBCV\n");
 		iConsole->Printf(_L("  '1' -   32 bytes\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP03, "  '1' -   32 bytes\n");
 		iConsole->Printf(_L("  '2' - 1024 bytes\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP04, "  '2' - 1024 bytes\n");
 		iConsole->Printf(_L("  '3' -   64 kbytes\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP05, "  '3' -   64 kbytes\n");
 		iConsole->Printf(_L("  '4' -    1 Mbyte\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP06, "  '4' -    1 Mbyte\n");
 		}
 	else if (!iBandwidthPriorityChosen)
 		{
 		iConsole->Printf(_L("\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP07, "\n");
 		iConsole->Printf(_L("++++ Choose Bandwidth Priority ++++\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP08, "++++ Choose Bandwidth Priority ++++\n");
 		iConsole->Printf(_L("  '1' - Economical buffering - default\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP09, "  '1' - Economical buffering - default\n");
 		iConsole->Printf(_L("  '2' - More memory than default buffering - Plus1\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP10, "  '2' - More memory than default buffering - Plus1\n");
 		iConsole->Printf(_L("  '3' - More memory than Plus1 buffering - Plus2\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP11, "  '3' - More memory than Plus1 buffering - Plus2\n");
 		iConsole->Printf(_L("  '4' - Maximum buffering\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP12, "  '4' - Maximum buffering\n");
 		}
 	else if (!iDMAChosen)
 		{
 		iConsole->Printf(_L("\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP13, "\n");
 		iConsole->Printf(_L("++++ Choose Endpoint I/O Transfer Mode ++++\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP14, "++++ Choose Endpoint I/O Transfer Mode ++++\n");
 		iConsole->Printf(_L("  '1' - Interrupt Mode\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP15, "  '1' - Interrupt Mode\n");
 		iConsole->Printf(_L("  '2' - DMA Mode (recommended)\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP16, "  '2' - DMA Mode (recommended\n");
 		}
 	else if (!iDoubleBufferingChosen)
 		{
 		iConsole->Printf(_L("\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP17, "\n");
 		iConsole->Printf(_L("++++ Choose Endpoint FIFO Mode ++++\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP18, "++++ Choose Endpoint FIFO Mode ++++\n");
 		iConsole->Printf(_L("  '1' - Normal Buffering Mode\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP19, "  '1' - Normal Buffering Mode\n");
 		iConsole->Printf(_L("  '2' - Double Buffering Mode (recommended)\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP20, "  '2' - Double Buffering Mode (recommended\n");
 		}
 	else
 		{
 		iConsole->Printf(_L("\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP21, "\n");
 		iConsole->Printf(_L("++++ Select Program Option ++++\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP22, "++++ Select Program Option ++++\n");
 		iConsole->Printf(_L("  'L'oop test\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP23, "  'L'oop test\n");
 		iConsole->Printf(_L("   Loop test with data 'C'ompare\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP24, "   Loop test with data 'C'ompare\n");
 		iConsole->Printf(_L("  'R'eceive-only test (we receive, host transmits)\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP25, "  'R'eceive-only test (we receive, host transmits\n");
 		iConsole->Printf(_L("  'T'ransmit-only test\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP26, "  'T'ransmit-only test\n");
 		iConsole->Printf(_L("   Receive and 'P'ut (write) to File\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP27, "   Receive and 'P'ut (writeto File\n");
 		iConsole->Printf(_L("   Transmit and 'G'et (read) from File\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP28, "   Transmit and 'G'et (readfrom File\n");
 		iConsole->Printf(_L("   Signal Remote-'W'akeup to the host\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP29, "   Signal Remote-'W'akeup to the host\n");
 		iConsole->Printf(_L("  'S'top current transfer\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP30, "  'S'top current transfer\n");
 #ifdef WITH_DUMP_OPTION
 		iConsole->Printf(_L("  'D'ump USB regs to debugout\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP31, "  'D'ump USB regs to debugout\n");
 #endif
 		iConsole->Printf(_L("   Re'E'numerate device\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP32, "   Re'E'numerate device\n");
 		iConsole->Printf(_L("  'Q'uit this app\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REQUESTCHARACTER_DUP33, "  'Q'uit this app\n");
 		}
 	iConsole->Read(iStatus);
 	SetActive();
@@ -327,7 +400,7 @@
 	{
 	if (aChar == EKeyEscape)
 		{
-		RDebug::Print(_L("CActiveConsole: ESC key pressed -> stopping active scheduler..."));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL, "CActiveConsole: ESC key pressed -> stopping active scheduler...");
 		CActiveScheduler::Stop();
 		return;
 		}
@@ -355,9 +428,11 @@
 			break;
 		default:
 			TUSB_PRINT1("Not a valid input character: %c", aChar.operator TUint());
+			OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP01, "Not a valid input character: %c", aChar.operator TUint());
 			goto request_char;
 			}
 		TUSB_PRINT1("Maximum buffer size set to %d bytes", iRW->MaxBufSize());
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP02, "Maximum buffer size set to %d bytes", iRW->MaxBufSize());
 		iBufferSizeChosen = ETrue;
 		}
 	else if (!iBandwidthPriorityChosen)
@@ -368,33 +443,41 @@
 		case '1':
 			iBandwidthPriority = EUsbcBandwidthOUTDefault | EUsbcBandwidthINDefault;
 			TUSB_PRINT("Bandwith priority set to default");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP03, "Bandwith priority set to default");
 			break;
 		case '2':
 			iBandwidthPriority = EUsbcBandwidthOUTPlus1 | EUsbcBandwidthINPlus1;
 			TUSB_PRINT("Bandwith priority set to Plus1");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP04, "Bandwith priority set to Plus1");
 			break;
 		case '3':
 			iBandwidthPriority = EUsbcBandwidthOUTPlus2 | EUsbcBandwidthINPlus2;
 			TUSB_PRINT("Bandwith priority set to Plus2");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP05, "Bandwith priority set to Plus2");
 			break;
 		case '4':
 			iBandwidthPriority = EUsbcBandwidthINMaximum | EUsbcBandwidthOUTMaximum;
 			TUSB_PRINT("Bandwith priority set to maximum");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP06, "Bandwith priority set to maximum");
 			break;
 		default:
 			TUSB_PRINT1("Not a valid input character: %c", aChar.operator TUint());
+			OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP07, "Not a valid input character: %c", aChar.operator TUint());
 			goto request_char;
 			}
 		TUSB_PRINT1("(Set to 0x%08X)", iBandwidthPriority);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP08, "(Set to 0x%08X)", iBandwidthPriority);
 		iBandwidthPriorityChosen = ETrue;
 		
 		if (!iResourceAllocationV2)
 			{
 			TUSB_PRINT("Configuring interface...");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP09, "Configuring interface...");
 			TInt r = SetupInterface();
 			if (r != KErrNone)
 				{
 				TUSB_PRINT1("Error: %d. Stopping active scheduler...", r);
+				OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP10, "Error: %d. Stopping active scheduler...", r);
 				CActiveScheduler::Stop();
 				return;
 				}
@@ -408,6 +491,7 @@
 		case '1':
 			{
 			TUSB_PRINT("- Trying to deallocate endpoint DMA:\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP11, "- Trying to deallocate endpoint DMA:\n");
 			if (!iResourceAllocationV2)
 				{
 				DeAllocateEndpointDMA(EEndpoint1);
@@ -419,6 +503,7 @@
 		case '2':
 			{
 			TUSB_PRINT("- Trying to allocate endpoint DMA:\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP12, "- Trying to allocate endpoint DMA:\n");
 			if (!iResourceAllocationV2)
 				{
 				AllocateEndpointDMA(EEndpoint1);
@@ -429,6 +514,7 @@
 			}
 		default:
 			TUSB_PRINT1("Not a valid input character: %c", aChar.operator TUint());
+			OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP13, "Not a valid input character: %c", aChar.operator TUint());
 			goto request_char;
 			}
 		iDMAChosen = ETrue;
@@ -441,6 +527,7 @@
 		case '1':
 			{
 			TUSB_PRINT("- Trying to deallocate Double Buffering:\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP14, "- Trying to deallocate Double Buffering:\n");
 			if (!iResourceAllocationV2)
 				{
 				DeAllocateDoubleBuffering(EEndpoint1);
@@ -452,6 +539,7 @@
 		case '2':
 			{
 			TUSB_PRINT("- Trying to allocate Double Buffering:\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP15, "- Trying to allocate Double Buffering:\n");
 			if (!iResourceAllocationV2)
 				{
 				AllocateDoubleBuffering(EEndpoint1);
@@ -462,6 +550,7 @@
 			}
 		default:
 			TUSB_PRINT1("Not a valid input character: %c", aChar.operator TUint());
+			OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP16, "Not a valid input character: %c", aChar.operator TUint());
 			goto request_char;
 			}
 		iDoubleBufferingChosen = ETrue;
@@ -469,10 +558,12 @@
 		if (iResourceAllocationV2)
 		{
 		TUSB_PRINT("Configuring interface...");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP17, "Configuring interface...");
 		TInt r = SetupInterface();
 		if (r != KErrNone)
 			{
 			TUSB_PRINT1("Error: %d. Stopping active scheduler...", r);
+			OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP18, "Error: %d. Stopping active scheduler...", r);
 			CActiveScheduler::Stop();
 			return;
 			}
@@ -480,14 +571,17 @@
 
 		// Everything chosen, so let's re-enumerate...
 		TUSB_PRINT("Enumeration...");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP19, "Enumeration...");
 		TInt r = ReEnumerate();
 		if (r != KErrNone)
 			{
 			TUSB_PRINT1("Error: %d. Stopping active scheduler...", r);
+			OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP20, "Error: %d. Stopping active scheduler...", r);
 			CActiveScheduler::Stop();
 			return;
 			}
 		TUSB_PRINT("Device successfully re-enumerated\n");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP21, "Device successfully re-enumerated\n");
 
 		// Make sure program versions match if testing against USBRFLCT
 		if (iRW->MaxBufSize() != 0)
@@ -496,6 +590,7 @@
 			if (r != KErrNone)
 				{
 				TUSB_PRINT1("Error: %d. Stopping active scheduler...", r);
+				OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP22, "Error: %d. Stopping active scheduler...", r);
 				CActiveScheduler::Stop();
 				return;
 				}
@@ -509,30 +604,35 @@
 		case 'l':					// start loop test
 		case 'L':
 			TUSB_PRINT("-> Loop test selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP23, "-> Loop test selected\n");
 			iRW->SetTransferMode(ELoop);
 			iRW->SendPreamble();
 			break;
 		case 'c':					// start loop/compare test
 		case 'C':
 			TUSB_PRINT("-> Loop test with compare selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP24, "-> Loop test with compare selected\n");
 			iRW->SetTransferMode(ELoopComp);
 			iRW->SendPreamble();
 			break;
 		case 'r':					// start receive-only test
 		case 'R':
 			TUSB_PRINT("-> Receive-only test selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP25, "-> Receive-only test selected\n");
 			iRW->SetTransferMode(EReceiveOnly);
 			iRW->SendPreamble();
 			break;
 		case 't':					// start transmit-only test
 		case 'T':
 			TUSB_PRINT("-> Transmit-only test selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP26, "-> Transmit-only test selected\n");
 			iRW->SetTransferMode(ETransmitOnly);
 			iRW->SendPreamble();
 			break;
 		case 'g':					// start transmit & get-from-file test
 		case 'G':
 			TUSB_PRINT("-> Transmit from file test selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP27, "-> Transmit from file test selected\n");
 			iRW->SetTransferMode(ETransmitOnly);
 			iRW->ReadFromDisk(ETrue);
 			iRW->SendPreamble();
@@ -540,6 +640,7 @@
 		case 'p':					// start receive & put-to-file test
 		case 'P':
 			TUSB_PRINT("-> Receive to file test selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP28, "-> Receive to file test selected\n");
 			iRW->SetTransferMode(EReceiveOnly);
 			iRW->WriteToDisk(ETrue);
 			iRW->SendPreamble();
@@ -547,17 +648,20 @@
 		case 'w':					// remote-wakeup
 		case 'W':
 			TUSB_PRINT("-> Signal Remote-wakeup selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP29, "-> Signal Remote-wakeup selected\n");
 			iPort.SignalRemoteWakeup();
 			break;
 		case 's':					// stop either
 		case 'S':
 			TUSB_PRINT("-> Stop transfer selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP30, "-> Stop transfer selected\n");
 			iRW->Stop();
 			break;
 #ifdef WITH_DUMP_OPTION
 		case 'd':					// dump controller registers
 		case 'D':
 			TUSB_PRINT("-> Dump option selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP31, "-> Dump option selected\n");
 			iPort.DumpRegisters();
 			QueryRxBuffer();
 			break;
@@ -565,16 +669,23 @@
 		case 'e':					// ReEnumerate()
 		case 'E':
 			TUSB_PRINT("-> Re-enumerate device selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP32, "-> Re-enumerate device selected\n");
 			ReEnumerate();
 			break;
 		case 'q':					// quit
 		case 'Q':
 			TUSB_PRINT("-> Quit program selected\n");
+			OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP33, "-> Quit program selected\n");
 			TUSB_VERBOSE_PRINT("CActiveConsole: stopping active scheduler...");
+			if(iVerbose)
+			    {
+			    OstTrace0(TRACE_VERBOSE, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP34, "CActiveConsole: stopping active scheduler...");
+			    }
 			CActiveScheduler::Stop();
 			return;
 		default:
 			TUSB_PRINT1("-> Not a valid input character: %c", aChar.operator TUint());
+			OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_PROCESSKEYPRESSL_DUP35, "-> Not a valid input character: %c", aChar.operator TUint());
 			goto request_char;
 			}
 		}
@@ -592,11 +703,11 @@
 	TInt r = iPort.QueryReceiveBuffer(EEndpoint2, bytes);
 	if (r != KErrNone)
 		{
-		RDebug::Print(_L(" Error %d on querying read buffer\n"), r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYRXBUFFER, " Error %d on querying read buffer\n", r);
 		}
 	else
 		{
-		RDebug::Print(_L(" %d bytes in RX buffer\n"), bytes);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYRXBUFFER_DUP01, " %d bytes in RX buffer\n", bytes);
 		}
 	}
 #endif
@@ -637,35 +748,56 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d on querying device capabilities", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL, "Error %d on querying device capabilities", r);
 		return KErrGeneral;
 		}
 	const TInt n = d_caps().iTotalEndpoints;
 
 	TUSB_PRINT("###  USB device capabilities:");
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP01, "###  USB device capabilities:");
 	TUSB_PRINT1("Number of endpoints:                        %d", n);
+	OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP02, "Number of endpoints:                        %d", n);
 	TUSB_PRINT1("Supports Software-Connect:                  %s",
 				d_caps().iConnect ? _S("yes") : _S("no"));
+	OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP03, "Supports Software-Connect:                  %s",
+				d_caps().iConnect ? _L("yes") : _L("no"));
 	TUSB_PRINT1("Device is Self-Powered:                     %s",
 				d_caps().iSelfPowered ? _S("yes") : _S("no"));
+	OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP04, "Device is Self-Powered:                     %s",
+				d_caps().iSelfPowered ? _L("yes") : _L("no"));
 	TUSB_PRINT1("Supports Remote-Wakeup:                     %s",
 				d_caps().iRemoteWakeup ? _S("yes") : _S("no"));
+	OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP05, "Supports Remote-Wakeup:                     %s",
+				d_caps().iRemoteWakeup ? _L("yes") : _L("no"));
 	TUSB_PRINT1("Supports High-speed:                        %s",
 				d_caps().iHighSpeed ? _S("yes") : _S("no"));
+	OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP06, "Supports High-speed:                        %s",
+				d_caps().iHighSpeed ? _L("yes") : _L("no"));
 	TUSB_PRINT1("Supports OTG:                               %s",
 				iOtg ? _S("yes") : _S("no"));
+	OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP07, "Supports OTG:                               %s",
+				iOtg ? _L("yes") : _L("no"));
 	TUSB_PRINT1("Supports unpowered cable detection:         %s",
 				(d_caps().iFeatureWord1 & KUsbDevCapsFeatureWord1_CableDetectWithoutPower) ?
 				_S("yes") : _S("no"));
+	OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP08, "Supports unpowered cable detection:         %s",
+				(d_caps().iFeatureWord1 & KUsbDevCapsFeatureWord1_CableDetectWithoutPower) ?
+				_L("yes") : _L("no"));
 	TUSB_PRINT1("Supports endpoint resource alloc scheme V2: %s\n",
 				(d_caps().iFeatureWord1 & KUsbDevCapsFeatureWord1_EndpointResourceAllocV2) ?
 				_S("yes") : _S("no"));
+	OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP09, "Supports endpoint resource alloc scheme V2: %s\n",
+				(d_caps().iFeatureWord1 & KUsbDevCapsFeatureWord1_EndpointResourceAllocV2) ?
+				_L("yes") : _L("no"));
 	TUSB_PRINT("");
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP10, "");
 
 	iSoftwareConnect = d_caps().iConnect;					// we need to remember this
 
 	if (n < 2)
 		{
 		TUSB_PRINT1("Error: only %d endpoints available on device", n);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP11, "Error: only %d endpoints available on device", n);
 		return KErrGeneral;
 		}
 
@@ -676,16 +808,21 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d on querying endpoint capabilities", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP12, "Error %d on querying endpoint capabilities", r);
 		return KErrGeneral;
 		}
 	TUSB_PRINT("### USB device endpoint capabilities:");
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP13, "### USB device endpoint capabilities:");
 	for (TInt i = 0; i < n; i++)
 		{
 		const TUsbcEndpointCaps* caps = &data[i].iCaps;
 		TUSB_PRINT2("Endpoint: SizeMask = 0x%08x TypeDirMask = 0x%08x",
 					caps->iSizes, caps->iTypesAndDir);
+		OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP14, "Endpoint: SizeMask = 0x%08x TypeDirMask = 0x%08x",
+					caps->iSizes, caps->iTypesAndDir);
 		}
 	TUSB_PRINT("");
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP15, "");
 
 	// Set up the active interface
 	TUsbcInterfaceInfoBuf ifc;
@@ -703,6 +840,7 @@
 			if (!(mps == 64 || mps == 512))
 				{
 				TUSB_PRINT1("Funny Bulk IN MaxPacketSize: %d - T_USB will probably fail...", mps);
+				OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP16, "Funny Bulk IN MaxPacketSize: %d - T_USB will probably fail...", mps);
 				}
 			// EEndpoint1 is going to be our Tx (IN) endpoint
 			ifc().iEndpointData[0].iType = KUsbEpTypeBulk;
@@ -719,6 +857,7 @@
 			if (!(mps == 64 || mps == 512))
 				{
 				TUSB_PRINT1("Funny Bulk OUT MaxPacketSize: %d - T_USB will probably fail...", mps);
+				OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP17, "Funny Bulk OUT MaxPacketSize: %d - T_USB will probably fail...", mps);
 				}
 			// EEndpoint2 is going to be our Rx (OUT) endpoint
 			ifc().iEndpointData[1].iType = KUsbEpTypeBulk;
@@ -732,6 +871,7 @@
 	if (ep_found != 2)
 		{
 		TUSB_PRINT1("No suitable endpoints found", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP18, "No suitable endpoints found:%d", r);
 		return KErrGeneral;
 		}
 
@@ -759,6 +899,7 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d on setting active interface", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP19, "Error %d on setting active interface", r);
 		}
 
 	// Find ep's for an alternate ifc setting.
@@ -766,6 +907,7 @@
 	if (!SupportsAlternateInterfaces())
 		{
 		TUSB_PRINT("Alternate Interfaces not supported - skipping alternate setting setup\n");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP20, "Alternate Interfaces not supported - skipping alternate setting setup\n");
 		return KErrNone;
 		}
 	ep_found = 0;
@@ -834,6 +976,7 @@
 	if (ep_found == 0)
 		{
 		TUSB_PRINT("Not enough suitable endpoints found for alt ifc");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP21, "Not enough suitable endpoints found for alt ifc");
 		// not a disaster though
 		return KErrNone;
 		}
@@ -850,6 +993,7 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d on setting alternate interface", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_QUERYUSBCLIENTL_DUP22, "Error %d on setting alternate interface", r);
 		}
 
 	return r;
@@ -860,22 +1004,24 @@
 	{
 	TInt r = iPort.AllocateEndpointResource(aEndpoint, EUsbcEndpointResourceDMA);
 	if (r == KErrNone)
-		RDebug::Print(_L("DMA allocation on endpoint %d: KErrNone"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEENDPOINTDMA, "DMA allocation on endpoint %d: KErrNone", aEndpoint);
 	else if (r == KErrInUse)
-		RDebug::Print(_L("DMA allocation on endpoint %d: KErrInUse"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEENDPOINTDMA_DUP01, "DMA allocation on endpoint %d: KErrInUse", aEndpoint);
 	else if (r == KErrNotSupported)
-		RDebug::Print(_L("DMA allocation on endpoint %d: KErrNotSupported"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEENDPOINTDMA_DUP02, "DMA allocation on endpoint %d: KErrNotSupported", aEndpoint);
 	else
-		RDebug::Print(_L("DMA allocation on endpoint %d: unexpected return value %d"),
+		OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEENDPOINTDMA_DUP03, "DMA allocation on endpoint %d: unexpected return value %d",
 					  aEndpoint, r);
 	TBool res = iPort.QueryEndpointResourceUse(aEndpoint, EUsbcEndpointResourceDMA);
 	TUSB_PRINT2("DMA on endpoint %d %s\n",
 				aEndpoint, res ? _S("allocated") : _S("not allocated"));
+	OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEENDPOINTDMA_DUP04, "DMA on endpoint %d %s\n",
+				aEndpoint, res ? _L("allocated") : _L("not allocated"));
 
 	if ((r == KErrNone) && !res)
-		RDebug::Print(_L("(Allocation success but negative query result: contradiction!)\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEENDPOINTDMA_DUP05, "(Allocation success but negative query result: contradiction!)\n");
 	else if ((r != KErrNone) && res)
-		RDebug::Print(_L("(Allocation failure but positive query result: contradiction!)\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEENDPOINTDMA_DUP06, "(Allocation failure but positive query result: contradiction!)\n");
 	}
 
 
@@ -883,15 +1029,17 @@
 	{
 	TInt r = iPort.DeAllocateEndpointResource(aEndpoint, EUsbcEndpointResourceDMA);
 	if (r == KErrNone)
-		RDebug::Print(_L("DMA deallocation on endpoint %d: KErrNone"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_DEALLOCATEENDPOINTDMA, "DMA deallocation on endpoint %d: KErrNone", aEndpoint);
 	else if (r == KErrNotSupported)
-		RDebug::Print(_L("DMA deallocation on endpoint %d: KErrNotSupported"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_DEALLOCATEENDPOINTDMA_DUP01, "DMA deallocation on endpoint %d: KErrNotSupported", aEndpoint);
 	else
-		RDebug::Print(_L("DMA deallocation on endpoint %d: unexpected return value %d"),
+		OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_DEALLOCATEENDPOINTDMA_DUP02, "DMA deallocation on endpoint %d: unexpected return value %d",
 					  aEndpoint, r);
 	TBool res = iPort.QueryEndpointResourceUse(aEndpoint, EUsbcEndpointResourceDMA);
 	TUSB_PRINT2("DMA on endpoint %d %s\n",
 				aEndpoint, res ? _S("allocated") : _S("not allocated"));
+	OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_DEALLOCATEENDPOINTDMA_DUP03, "DMA on endpoint %d %s\n",
+				aEndpoint, res ? _L("allocated") : _L("not allocated"));
 	}
 
 
@@ -899,22 +1047,24 @@
 	{
 	TInt r = iPort.AllocateEndpointResource(aEndpoint, EUsbcEndpointResourceDoubleBuffering);
 	if (r == KErrNone)
-		RDebug::Print(_L("Double Buffering allocation on endpoint %d: KErrNone"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEDOUBLEBUFFERING, "Double Buffering allocation on endpoint %d: KErrNone", aEndpoint);
 	else if (r == KErrInUse)
-		RDebug::Print(_L("Double Buffering allocation on endpoint %d: KErrInUse"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEDOUBLEBUFFERING_DUP01, "Double Buffering allocation on endpoint %d: KErrInUse", aEndpoint);
 	else if (r == KErrNotSupported)
-		RDebug::Print(_L("Double Buffering allocation on endpoint %d: KErrNotSupported"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEDOUBLEBUFFERING_DUP02, "Double Buffering allocation on endpoint %d: KErrNotSupported", aEndpoint);
 	else
-		RDebug::Print(_L("Double Buffering allocation on endpoint %d: unexpected return value %d"),
+		OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEDOUBLEBUFFERING_DUP03, "Double Buffering allocation on endpoint %d: unexpected return value %d",
 					  aEndpoint, r);
 	TBool res = iPort.QueryEndpointResourceUse(aEndpoint, EUsbcEndpointResourceDoubleBuffering);
 	TUSB_PRINT2("Double Buffering on endpoint %d %s\n",
 				aEndpoint, res ? _S("allocated") : _S("not allocated"));
+	OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEDOUBLEBUFFERING_DUP04, "Double Buffering on endpoint %d %s\n",
+				aEndpoint, res ? _L("allocated") : _L("not allocated"));
 
 	if ((r == KErrNone) && !res)
-		RDebug::Print(_L("(Allocation success but negative query result: contradiction!)\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEDOUBLEBUFFERING_DUP05, "(Allocation success but negative query result: contradiction!)\n");
 	else if ((r != KErrNone) && res)
-		RDebug::Print(_L("(Allocation failure but positive query result: contradiction!)\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_ALLOCATEDOUBLEBUFFERING_DUP06, "(Allocation failure but positive query result: contradiction!)\n");
 	}
 
 
@@ -922,15 +1072,17 @@
 	{
 	TInt r = iPort.DeAllocateEndpointResource(aEndpoint, EUsbcEndpointResourceDoubleBuffering);
 	if (r == KErrNone)
-		RDebug::Print(_L("Double Buffering deallocation on endpoint %d: KErrNone"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_DEALLOCATEDOUBLEBUFFERING, "Double Buffering deallocation on endpoint %d: KErrNone", aEndpoint);
 	else if (r == KErrNotSupported)
-		RDebug::Print(_L("Double Buffering deallocation on endpoint %d: KErrNotSupported"), aEndpoint);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_DEALLOCATEDOUBLEBUFFERING_DUP01, "Double Buffering deallocation on endpoint %d: KErrNotSupported", aEndpoint);
 	else
-		RDebug::Print(_L("Double Buffering deallocation on endpoint %d: unexpected return value %d"),
+		OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_DEALLOCATEDOUBLEBUFFERING_DUP02, "Double Buffering deallocation on endpoint %d: unexpected return value %d",
 					  aEndpoint, r);
 	TBool res = iPort.QueryEndpointResourceUse(aEndpoint, EUsbcEndpointResourceDoubleBuffering);
 	TUSB_PRINT2("Double Buffering on endpoint %d %s\n",
 				aEndpoint, res ? _S("allocated") : _S("not allocated"));
+	OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_DEALLOCATEDOUBLEBUFFERING_DUP03, "Double Buffering on endpoint %d %s\n",
+				aEndpoint, res ? _L("allocated") : _L("not allocated"));
 	}
 
 
@@ -941,15 +1093,21 @@
 	if (!iSoftwareConnect)
 		{
 		iConsole->Printf(_L("This device does not support software\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE, "This device does not support software\n");
 		iConsole->Printf(_L("disconnect/reconnect\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE_DUP01, "disconnect/reconnect\n");
 		iConsole->Printf(_L("Please physically unplug and replug\n"));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE_DUP02, "Please physically unplug and replug\n");
 		iConsole->Printf(_L("the USB cable NOW... "));
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE_DUP03, "the USB cable NOW... ");
 		}
 	iConsole->Printf(_L("\n>>> START THE USBRFLCT PROGRAM ON THE HOST SIDE NOW <<<\n"));
+	OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE_DUP04, "\n>>> START THE USBRFLCT PROGRAM ON THE HOST SIDE NOW <<<\n");
 	User::WaitForRequest(enum_status);
 	if (enum_status != KErrNone)
 		{
 		TUSB_PRINT1("Error: Re-enumeration status = %d", enum_status.Int());
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE_DUP05, "Error: Re-enumeration status = %d", enum_status.Int());
 		return KErrGeneral;
 		}
 	TUsbcDeviceState device_state =	EUsbcDeviceStateUndefined;
@@ -957,6 +1115,7 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("Error %d on querying device state", r);
+		OstTrace1(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE_DUP06, "Error %d on querying device state", r);
 		}
 	else
 		{
@@ -969,6 +1128,15 @@
 						((device_state == EUsbcDeviceStateConfigured) ? _S("Configured") :
 						 ((device_state == EUsbcDeviceStateSuspended) ? _S("Suspended") :
 						  _S("Unknown"))))))));
+		OstTraceExt1(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE_DUP07, "Current device state: %s",
+					(device_state == EUsbcDeviceStateUndefined) ? _L("Undefined") :
+					((device_state == EUsbcDeviceStateAttached) ? _L("Attached") :
+					 ((device_state == EUsbcDeviceStatePowered) ? _L("Powered") :
+					  ((device_state == EUsbcDeviceStateDefault) ? _L("Default") :
+					   ((device_state == EUsbcDeviceStateAddress) ? _L("Address") :
+						((device_state == EUsbcDeviceStateConfigured) ? _L("Configured") :
+						 ((device_state == EUsbcDeviceStateSuspended) ? _L("Suspended") :
+						  _L("Unknown"))))))));
 		}
 
 	// Check the speed of the established physical USB connection
@@ -976,12 +1144,14 @@
 	if (iHighSpeed)
 		{
 		TUSB_PRINT("---> USB High-speed Testing\n");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE_DUP08, "---> USB High-speed Testing\n");
 		// It can only be 512 bytes when using high-speed.
 		iRW->SetMaxPacketSize(512);							// iRW already exists at this point
 		}
 	else
 		{
 		TUSB_PRINT("---> USB Full-speed Testing\n");
+		OstTrace0(TRACE_NORMAL, CACTIVECONSOLE_REENUMERATE_DUP09, "---> USB Full-speed Testing\n");
 		// We only support 64 bytes when using full-speed.
 		iRW->SetMaxPacketSize(64);							// iRW already exists at this point
 		}
@@ -1044,6 +1214,12 @@
 				(deviceDescriptor[KUsbDevReleaseOffset + 1] & 0x0f),
 				((deviceDescriptor[KUsbDevReleaseOffset] >> 4) & 0x0f),
 				(deviceDescriptor[KUsbDevReleaseOffset] & 0x0f));
+	OstTraceExt2(TRACE_NORMAL, CACTIVECONSOLE_SETUPDESCRIPTORS, "\nVID = 0x%04X / PID = 0x%04X / ", Vid, Pid);
+	OstTraceExt4(TRACE_NORMAL, CACTIVECONSOLE_SETUPDESCRIPTORS_DUP01, "DevRel = %d%d.%d%d\n", 
+				((deviceDescriptor[KUsbDevReleaseOffset + 1] >> 4) & 0x0f),
+				(deviceDescriptor[KUsbDevReleaseOffset + 1] & 0x0f),
+				((deviceDescriptor[KUsbDevReleaseOffset] >> 4) & 0x0f),
+				(deviceDescriptor[KUsbDevReleaseOffset] & 0x0f));
 
 	// === Configuration Descriptor
 
@@ -1101,6 +1277,10 @@
 	  iVerbose(aVerboseOutput)
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::CActiveRW()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_CACTIVERW, "CActiveRW::CActiveRW()");
+	    }
 	}
 
 
@@ -1118,6 +1298,10 @@
 void CActiveRW::ConstructL()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::ConstructL()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_CONSTRUCTL, "CActiveRW::ConstructL()");
+	    }
 
 	User::LeaveIfError(iFs.Connect());
 
@@ -1140,6 +1324,7 @@
 	if (!iTimeoutTimer)
 		{
 		TUSB_PRINT("Failed to create timeout timer");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_CONSTRUCTL_DUP01, "Failed to create timeout timer");
 		}
 	}
 
@@ -1147,6 +1332,10 @@
 CActiveRW::~CActiveRW()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::~CActiveRW()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_DCACTIVERW, "CActiveRW::~CActiveRW()");
+	    }
 	Cancel();												// base class
 	delete iTimeoutTimer;
 	iFile.Close();
@@ -1159,6 +1348,7 @@
 	if (aBufSz > KMaxBufSize)
 		{
 		TUSB_PRINT2("SetMaxBufSize(): too large: %d! (using %d)", aBufSz, KMaxBufSize);
+		OstTraceExt2(TRACE_NORMAL, CACTIVERW_SETMAXBUFSIZE, "SetMaxBufSize(): too large: %d! (using %d)", aBufSz, KMaxBufSize);
 		aBufSz = KMaxBufSize;
 		}
 	iMaxBufSz = aBufSz;
@@ -1191,13 +1381,19 @@
 void CActiveRW::RunL()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::RunL()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_RUNL, "CActiveRW::RunL()");
+	    }
 	if (iStatus != KErrNone)
 		{
 		TUSB_PRINT1("Error %d in RunL", iStatus.Int());
+		OstTrace1(TRACE_NORMAL, CACTIVERW_RUNL_DUP01, "Error %d in RunL", iStatus.Int());
 		}
 	if (iDoStop)
 		{
 		TUSB_PRINT("Stopped");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RUNL_DUP02, "Stopped");
 		iDoStop = EFalse;
 		return;
 		}
@@ -1222,6 +1418,7 @@
 			if (num != ++iPktNum)
 				{
 				TUSB_PRINT2("*** rcv'd wrong pkt number: 0x%x (expected: 0x%x)", num, iPktNum);
+				OstTraceExt2(TRACE_NORMAL, CACTIVERW_RUNL_DUP03, "*** rcv'd wrong pkt number: 0x%x (expected: 0x%x)", num, iPktNum);
 				// Update the packet number with the received number, so that
 				// if a single packet is duplicated or lost then a single error occurs
 				iPktNum = num;
@@ -1231,6 +1428,11 @@
 				// Write out to disk previous completed Read
 				TUSB_VERBOSE_PRINT2("iMaxBufSz = %d (iReadBuf.Size(): %d)",
 									iMaxBufSz, iReadBuf.Size());
+				if(iVerbose)
+				    {
+				    OstTraceExt2(TRACE_VERBOSE, CACTIVERW_RUNL_DUP04, "iMaxBufSz = %d (iReadBuf.Size(): %d)",
+									iMaxBufSz, iReadBuf.Size());
+				    }
 				WriteBufferToDisk(iReadBuf, iMaxBufSz);
 				}
 			ReadData();										// next we read data
@@ -1241,6 +1443,7 @@
 			if (!CompareBuffers(iBufSz))
 				{
 				TUSB_PRINT1("Error while comparing tx & rx buffers for packet 0x%x", iPktNum);
+				OstTrace1(TRACE_NORMAL, CACTIVERW_RUNL_DUP05, "Error while comparing tx & rx buffers for packet 0x%x", iPktNum);
 				}
 			}
 		else if (iBufSz > 3)
@@ -1249,6 +1452,7 @@
 			if (num != iPktNum)
 				{
 				TUSB_PRINT2("*** rcv'd wrong pkt number: 0x%x (expected: 0x%x)", num, iPktNum);
+				OstTraceExt2(TRACE_NORMAL, CACTIVERW_RUNL_DUP06, "*** rcv'd wrong pkt number: 0x%x (expected: 0x%x)", num, iPktNum);
 				}
 			}
 		if (iBufSz == iMaxBufSz)
@@ -1263,6 +1467,7 @@
 		break;
 	default:
 		TUSB_PRINT("Oops. (Shouldn't end up here...)");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RUNL_DUP07, "Oops. (Shouldn't end up here...)");
 		break;
 		}
 	return;
@@ -1272,15 +1477,21 @@
 TInt CActiveRW::SendVersion()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::SendVersion()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_SENDVERSION, "CActiveRW::SendVersion()");
+	    }
 	if (iXferMode != ::ENone)
 		{
 		TUSB_PRINT1("Error : wrong state: %d", iXferMode);
+		OstTrace1(TRACE_NORMAL, CACTIVERW_SENDVERSION_DUP01, "Error : wrong state: %d", iXferMode);
 		return KErrGeneral;
 		}
 	// Here we send our version packet to the host.
 	// (We can use the preamble buffer because we only need it
 	//  once and that's also before the preamble uses.)
 	TUSB_PRINT1("Sending T_USB version: %d\n", KTusbVersion);
+	OstTrace1(TRACE_NORMAL, CACTIVERW_SENDVERSION_DUP02, "Sending T_USB version: %d\n", KTusbVersion);
 	iPreambleBuf.FillZ();
 	*reinterpret_cast<TUint32*>(&iPreambleBuf[0]) = SWAP_BYTES_32(KTusbVersion);
 	// A 'magic' string so that USBRFLCT doesn't interpret the first 4 bytes
@@ -1292,8 +1503,16 @@
 	TRequestStatus send_status;
 	iPort->Write(send_status, EEndpoint1, iPreambleBuf, KPreambleLength);
 	TUSB_VERBOSE_PRINT("Waiting for write request to complete...");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_SENDVERSION_DUP03, "Waiting for write request to complete...");
+	    }
 	User::WaitForRequest(send_status);
 	TUSB_VERBOSE_PRINT("...done.\n");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_SENDVERSION_DUP04, "...done.\n");
+	    }
 	return send_status.Int();
 	}
 
@@ -1301,50 +1520,87 @@
 TInt CActiveRW::ReceiveVersion()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::ReceiveVersion()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_RECEIVEVERSION, "CActiveRW::ReceiveVersion()");
+	    }
 	if (iXferMode != ::ENone)
 		{
 		TUSB_PRINT1("Error : wrong state: %d", iXferMode);
+		OstTrace1(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP01, "Error : wrong state: %d", iXferMode);
 		return KErrGeneral;
 		}
 	// Here we try to receive a version packet from the host.
 	// (We can use the preamble buffer because we only need it
 	//  once and that's also before the preamble uses.)
 	TUSB_PRINT("Getting host program versions...");
+	OstTrace0(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP02, "Getting host program versions...");
 	iPreambleBuf.FillZ();
 	TRequestStatus receive_status;
 	iPort->Read(receive_status, EEndpoint2, iPreambleBuf, KPreambleLength);
 	TUSB_VERBOSE_PRINT("Waiting for read request to complete...");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_RECEIVEVERSION_DUP03, "Waiting for read request to complete...");
+	    }
 	iTimeoutTimer->Activate(5000000);						// Host gets 5s
 	User::WaitForRequest(receive_status, iTimeoutTimer->iStatus);
 	if (receive_status == KRequestPending)
 		{
 		// Read() still pending...
 		TUSB_PRINT("Cancelling USB Read(): no response from host.\n");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP04, "Cancelling USB Read(): no response from host.\n");
 		iPort->ReadCancel(EEndpoint2);
 		TUSB_PRINT("THIS COULD BE DUE TO AN OLD VERSION OF USBRFLCT ON THE PC:");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP05, "THIS COULD BE DUE TO AN OLD VERSION OF USBRFLCT ON THE PC:");
 		TUSB_PRINT3("PLEASE CHECK THE VERSION THERE - WE NEED AT LEAST V%d.%d.%d!\n",
 					KUsbrflctVersionMajor, KUsbrflctVersionMinor, KUsbrflctVersionMicro);
+		OstTraceExt3(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP06, "PLEASE CHECK THE VERSION THERE - WE NEED AT LEAST V%d.%d.%d!\n",
+					KUsbrflctVersionMajor, KUsbrflctVersionMinor, KUsbrflctVersionMicro);
 		TUSB_PRINT("When updating an existing USBRFLCT installation <= v1.3.1,\n" \
 				   L"the following three things will need to be done:\n");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP07, "When updating an existing USBRFLCT installation <= v1.3.1,\n" \
+				   L"the following three things will need to be done:\n");
 		TUSB_PRINT("1. Connect the device to the PC & start T_USB (just as now),\n" \
 				   L"then find the USB device in the Windows Device Manager\n" \
 				   L"('Control Panel'->'System'->'Hardware'->'Device Manager').\n" \
 				   L"Right click on the device name and choose 'Uninstall...'.\n");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP08, "1. Connect the device to the PC & start T_USB (just as now),\n" \
+				   L"then find the USB device in the Windows Device Manager\n" \
+				   L"('Control Panel'->'System'->'Hardware'->'Device Manager').\n" \
+				   L"Right click on the device name and choose 'Uninstall...'.\n");
 		TUSB_PRINT("2. In c:\\winnt\\inf\\, find (by searching for \"Symbian\") and\n" \
 				   L"delete the *.INF file that was used to install the existing\n" \
 				   L"version of USBRFLCT.SYS. Make sure to also delete the\n" \
 				   L"precompiled version of that file (<samename>.PNF).\n");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP09, "2. In c:\\winnt\\inf\\, find (by searching for \"Symbian\") and\n" \
+				   L"delete the *.INF file that was used to install the existing\n" \
+				   L"version of USBRFLCT.SYS. Make sure to also delete the\n" \
+				   L"precompiled version of that file (<samename>.PNF).\n");
 		TUSB_PRINT("3. In c:\\winnt\\system32\\drivers\\, delete the file USBRFLCT.SYS.\n");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP10, "3. In c:\\winnt\\system32\\drivers\\, delete the file USBRFLCT.SYS.\n");
 		TUSB_PRINT("Then unplug & reconnect the USB device and, when prompted, install\n" \
 				   L"the new USBRFLCT.SYS driver using the .INF file from this distribution.\n" \
 				   L"(All files can be found under e32test\\win32\\usbrflct_distribution\\.)\n");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP11, "Then unplug & reconnect the USB device and, when prompted, install\n" \
+				   L"the new USBRFLCT.SYS driver using the .INF file from this distribution.\n" \
+				   L"(All files can be found under e32test\\win32\\usbrflct_distribution\\.)\n");
 		TUSB_PRINT("Use the new USBRFLCT.EXE from this distribution.\n");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_RECEIVEVERSION_DUP12, "Use the new USBRFLCT.EXE from this distribution.\n");
 		}
 	else
 		{
 		TUSB_VERBOSE_PRINT("...done.");
+		if(iVerbose)
+		    {
+		    OstTrace0(TRACE_VERBOSE, CACTIVERW_RECEIVEVERSION_DUP13, "...done.");
+		    }
 		// Timeout not needed any longer
 		TUSB_VERBOSE_PRINT("Cancelling timeout timer: USB Read() completed.\n");
+		if(iVerbose)
+		    {
+		    OstTrace0(TRACE_VERBOSE, CACTIVERW_RECEIVEVERSION_DUP14, "Cancelling timeout timer: USB Read() completed.\n");
+		    }
 		iTimeoutTimer->Cancel();
 		}
 	return receive_status.Int();
@@ -1354,6 +1610,10 @@
 TInt CActiveRW::ExchangeVersions()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::ExchangeVersions()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_EXCHANGEVERSIONS, "CActiveRW::ExchangeVersions()");
+	    }
 	// First check the version of USBRFLCT that's running on the host
 	TInt r = ReceiveVersion();
 	if (r != KErrNone)
@@ -1368,10 +1628,15 @@
 	TUSB_PRINT5("Host-side: USBRFLCT v%d.%d.%d  USBIO v%d.%d\n",
 				usbrflct_ver_major, usbrflct_ver_minor, usbrflct_ver_micro,
 				usbio_ver_major, usbio_ver_minor);
+	OstTraceExt5(TRACE_NORMAL, CACTIVERW_EXCHANGEVERSIONS_DUP01, "Host-side: USBRFLCT v%d.%d.%d  USBIO v%d.%d\n",
+				usbrflct_ver_major, usbrflct_ver_minor, usbrflct_ver_micro,
+				usbio_ver_major, usbio_ver_minor);
 	if (usbrflct_ver_major < KUsbrflctVersionMajor)
 		{
 		TUSB_PRINT1("USBRFLCT version not sufficient (need at least v%d.x.x)\n",
 					KUsbrflctVersionMajor);
+		OstTrace1(TRACE_NORMAL, CACTIVERW_EXCHANGEVERSIONS_DUP02, "USBRFLCT version not sufficient (need at least v%d.x.x)\n",
+					KUsbrflctVersionMajor);
 		return KErrGeneral;
 		}
 	// Just using '<' instead of the seemingly absurd '<= && !==' doesn't work without
@@ -1381,6 +1646,8 @@
 		{
 		TUSB_PRINT2("USBRFLCT version not sufficient (need at least v%d.%d.x)\n",
 					KUsbrflctVersionMajor, KUsbrflctVersionMinor);
+		OstTraceExt2(TRACE_NORMAL, CACTIVERW_EXCHANGEVERSIONS_DUP03, "USBRFLCT version not sufficient (need at least v%d.%d.x)\n",
+					KUsbrflctVersionMajor, KUsbrflctVersionMinor);
 		return KErrGeneral;
 		}
 	// Just using '<' instead of the seemingly absurd '<= && !==' doesn't work without
@@ -1390,6 +1657,8 @@
 		{
 		TUSB_PRINT3("USBRFLCT version not sufficient (need at least v%d.%d.%d)\n",
 					KUsbrflctVersionMajor, KUsbrflctVersionMinor, KUsbrflctVersionMicro);
+		OstTraceExt3(TRACE_NORMAL, CACTIVERW_EXCHANGEVERSIONS_DUP04, "USBRFLCT version not sufficient (need at least v%d.%d.%d)\n",
+					KUsbrflctVersionMajor, KUsbrflctVersionMinor, KUsbrflctVersionMicro);
 		return KErrGeneral;
 		}
 	// Now we send T_USB's version to the host
@@ -1405,8 +1674,16 @@
 void CActiveRW::SendPreamble()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::SendPreamble()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_SENDPREAMBLE, "CActiveRW::SendPreamble()");
+	    }
 	__ASSERT_ALWAYS(!IsActive(), User::Panic(KActivePanic, 666));
 	TUSB_VERBOSE_PRINT1("Sending data length: %d bytes", iBufSz);
+	if(iVerbose)
+	    {
+	    OstTrace1(TRACE_VERBOSE, CACTIVERW_SENDPREAMBLE_DUP01, "Sending data length: %d bytes", iBufSz);
+	    }
 	*reinterpret_cast<TUint32*>(&iPreambleBuf[0]) = SWAP_BYTES_32(iBufSz);
 	iPort->Write(iStatus, EEndpoint1, iPreambleBuf, KPreambleLength);
 	iCurrentXfer = EPreamble;
@@ -1417,6 +1694,10 @@
 void CActiveRW::SendData()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::SendData()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_SENDDATA, "CActiveRW::SendData()");
+	    }
 	__ASSERT_ALWAYS(!IsActive(), User::Panic(KActivePanic, 666));
 	if (iDiskAccessEnabled)
 		{
@@ -1435,6 +1716,10 @@
 			}
 		}
 	TUSB_VERBOSE_PRINT1("Sending data: %d bytes", iBufSz);
+	if(iVerbose)
+	    {
+	    OstTrace1(TRACE_VERBOSE, CACTIVERW_SENDDATA_DUP01, "Sending data: %d bytes", iBufSz);
+	    }
 	iPort->Write(iStatus, EEndpoint1, iWriteBuf, iBufSz);
 	iCurrentXfer = EWriteXfer;
 	SetActive();
@@ -1448,9 +1733,11 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT1("RFs::DriveList() returned %d", r);
+		OstTrace1(TRACE_NORMAL, CACTIVERW_SELECTDRIVE, "RFs::DriveList() returned %d", r);
 		return r;
 		}
 	TUSB_PRINT("Available drives:");
+	OstTrace0(TRACE_NORMAL, CACTIVERW_SELECTDRIVE_DUP01, "Available drives:");
 	for (TInt n = 0; n < KMaxDrives; n++)
 		{
 		if (driveList[n] != 0)
@@ -1461,13 +1748,17 @@
 				{
 				TPtr name(volumeInfo.iName.Des());
 				TUSB_PRINT2("Drive %c: %- 16S", 'A' + n, &name);
+				OstTraceExt2(TRACE_NORMAL, CACTIVERW_SELECTDRIVE_DUP02, "Drive %c: %S", 'A' + n, name);
 				if (volumeInfo.iDrive.iMediaAtt & KMediaAttWriteProtected)
 					TUSB_PRINT("  (read-only)");
+					OstTrace0(TRACE_NORMAL, CACTIVERW_SELECTDRIVE_DUP03, "  (read-only)");
 				TUSB_PRINT("");
+				OstTrace0(TRACE_NORMAL, CACTIVERW_SELECTDRIVE_DUP04, "");
 				}
 			}
 		}
 	iConsole->Printf(_L("Please select a drive letter (or 'Q' to quit)..."));
+	OstTrace0(TRACE_NORMAL, CACTIVERW_SELECTDRIVE_DUP05, "Please select a drive letter (or 'Q' to quit...");
 	TChar driveLetter;
 	TInt driveNumber;
 	TVolumeInfo volumeInfo;
@@ -1491,7 +1782,9 @@
 	iFileName.Format(_L("%c:"), driveLetter.operator TUint());
 	iFileName.Append(KFileName);
 	TUSB_PRINT1("\nFilename = %S", &iFileName);
+	OstTraceExt1(TRACE_NORMAL, CACTIVERW_SELECTDRIVE_DUP06, "\nFilename = %S", iFileName);
 	TUSB_PRINT1("File size: %d", KMaxFileSize);
+	OstTrace1(TRACE_NORMAL, CACTIVERW_SELECTDRIVE_DUP07, "File size: %d", KMaxFileSize);
 	return r;
 	}
 
@@ -1535,6 +1828,7 @@
 		if (r != KErrNone)
 			{
 			TUSB_PRINT1("RFile::Replace() returned %d", r);
+			OstTrace1(TRACE_NORMAL, CACTIVERW_READFROMDISK, "RFile::Replace() returned %d", r);
 			iDiskAccessEnabled = EFalse;
 			return r;
 			}
@@ -1546,24 +1840,28 @@
 			buffer[n] = static_cast<TUint8>(n & 0x000000ff);
 			}
 		TUSB_PRINT("Writing data to file (this may take some minutes...)");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_READFROMDISK_DUP01, "Writing data to file (this may take some minutes...)");
 		for (TInt n = 0; n < KMaxFileSize; n += KBufferSize)
 			{
 			r = iFile.Write(buffer, KBufferSize);
 			if (r != KErrNone)
 				{
 				TUSB_PRINT1("RFile::Write() returned %d (disk full?)", r);
+				OstTrace1(TRACE_NORMAL, CACTIVERW_READFROMDISK_DUP02, "RFile::Write() returned %d (disk full?)", r);
 				iFile.Close();
 				iDiskAccessEnabled = EFalse;
 				return r;
 				}
 			}
 		TUSB_PRINT("Done.");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_READFROMDISK_DUP03, "Done.");
 		iFile.Close();
 		// Now open the file for reading
 		r = iFile.Open(iFs, iFileName, EFileRead);
 		if (r != KErrNone)
 			{
 			TUSB_PRINT1("RFile::Open() returned %d", r);
+			OstTrace1(TRACE_NORMAL, CACTIVERW_READFROMDISK_DUP04, "RFile::Open() returned %d", r);
 			iDiskAccessEnabled = EFalse;
 			return r;
 			}
@@ -1576,10 +1874,15 @@
 void CActiveRW::WriteBufferToDisk(TDes8& aBuffer, TInt aLen)
 	{
 	TUSB_VERBOSE_PRINT1("CActiveRW::WriteBufferToDisk(), len = %d", aLen);
+	if(iVerbose)
+	    {
+	    OstTrace1(TRACE_VERBOSE, CACTIVERW_WRITEBUFFERTODISK, "CActiveRW::WriteBufferToDisk(), len = %d", aLen);
+	    }
 	TInt r = iFile.Write(aBuffer, aLen);
 	if (r != KErrNone)
 		{
 		TUSB_PRINT2("Error writing to %S (%d)", &iFileName, r);
+		OstTraceExt2(TRACE_NORMAL, CACTIVERW_WRITEBUFFERTODISK_DUP01, "Error writing to %S (%d)", iFileName, r);
 		iDiskAccessEnabled = EFalse;
 		return;
 		}
@@ -1603,15 +1906,22 @@
 	if (r != KErrNone)
 		{
 		TUSB_PRINT2("Error reading from %S (%d)", &iFileName, r);
+		OstTraceExt2(TRACE_NORMAL, CACTIVERW_READBUFFERFROMDISK, "Error reading from %S (%d)", iFileName, r);
 		iDiskAccessEnabled = EFalse;
 		return;
 		}
 	TInt readLen = aBuffer.Length();
 	TUSB_VERBOSE_PRINT1("CActiveRW::ReadBufferFromDisk(), len = %d\n", readLen);
+	if(iVerbose)
+	    {
+	    OstTrace1(TRACE_VERBOSE, CACTIVERW_READBUFFERFROMDISK_DUP01, "CActiveRW::ReadBufferFromDisk(), len = %d\n", readLen);
+	    }
 	if (readLen < aLen)
 		{
 		TUSB_PRINT3("Only %d bytes of %d read from file %S)",
 					readLen, aLen, &iFileName);
+		OstTraceExt3(TRACE_NORMAL, CACTIVERW_READBUFFERFROMDISK_DUP02, "Only %d bytes of %d read from file %S)",
+					readLen, aLen, iFileName);
 		iDiskAccessEnabled = EFalse;
 		return;
 		}
@@ -1622,29 +1932,53 @@
 void CActiveRW::ReadData()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::ReadData()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_READDATA, "CActiveRW::ReadData()");
+	    }
 	__ASSERT_ALWAYS(!IsActive(), User::Panic(KActivePanic, 666));
 	TUSB_VERBOSE_PRINT1("Reading data: %d bytes", iBufSz);
+	if(iVerbose)
+	    {
+	    OstTrace1(TRACE_VERBOSE, CACTIVERW_READDATA_DUP01, "Reading data: %d bytes", iBufSz);
+	    }
 	if (iXferMode == EReceiveOnly)
 		{
 		TUSB_VERBOSE_PRINT("  (rx only)");
+		if(iVerbose)
+		    {
+		    OstTrace0(TRACE_VERBOSE, CACTIVERW_READDATA_DUP02, "  (rx only)");
+		    }
 		iPort->Read(iStatus, EEndpoint2, iReadBuf, iBufSz);
 		}
 	else if (iBufSz == iMaxPktSz)
 		{
 		// we also want to test the packet version of Read()
 		TUSB_VERBOSE_PRINT("  (a single packet)");
+		if(iVerbose)
+		    {
+		    OstTrace0(TRACE_VERBOSE, CACTIVERW_READDATA_DUP03, "  (a single packet)");
+		    }
 		iPort->ReadPacket(iStatus, EEndpoint2, iReadBuf, iBufSz);
 		}
 	else if (iBufSz == iReadBuf.MaxSize())
 		{
 		// or we could perhaps test the three-parameter version
 		TUSB_VERBOSE_PRINT("  (w/o length)");
+		if(iVerbose)
+		    {
+		    OstTrace0(TRACE_VERBOSE, CACTIVERW_READDATA_DUP04, "  (w/o length)");
+		    }
 		iPort->Read(iStatus, EEndpoint2, iReadBuf);
 		}
 	else
 		{
 		// otherwise, we use the universal default version
 		TUSB_VERBOSE_PRINT("  (normal)");
+		if(iVerbose)
+		    {
+		    OstTrace0(TRACE_VERBOSE, CACTIVERW_READDATA_DUP05, "  (normal)");
+		    }
 		iPort->Read(iStatus, EEndpoint2, iReadBuf, iBufSz);
 		}
 	iCurrentXfer = EReadXfer;
@@ -1657,9 +1991,11 @@
 	if (!IsActive())
 		{
 		TUSB_PRINT("CActiveRW::Stop(): Not active");
+		OstTrace0(TRACE_NORMAL, CACTIVERW_STOP, "CActiveRW::Stop(): Not active");
 		return;
 		}
 	TUSB_PRINT("Cancelling outstanding transfer requests\n");
+	OstTrace0(TRACE_NORMAL, CACTIVERW_STOP_DUP01, "Cancelling outstanding transfer requests\n");
 	iBufSz = KInitialBufSz;
 	iPktNum = ~0;
 	iDoStop = ETrue;
@@ -1671,6 +2007,10 @@
 void CActiveRW::DoCancel()
 	{
 	TUSB_VERBOSE_PRINT("CActiveRW::DoCancel()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVERW_DOCANCEL, "CActiveRW::DoCancel()");
+	    }
 	// Canceling the transfer requests can be done explicitly
 	// for every transfer...
 	iPort->WriteCancel(EEndpoint1);
@@ -1683,13 +2023,26 @@
 TBool CActiveRW::CompareBuffers(TInt aLen)
 	{
 	TUSB_VERBOSE_PRINT1("CActiveRW::CompareBuffers(%d)", aLen);
+	if(iVerbose)
+	    {
+	    OstTrace1(TRACE_VERBOSE, CACTIVERW_COMPAREBUFFERS, "CActiveRW::CompareBuffers(%d)", aLen);
+	    }
 	for (TInt i = 0; i < aLen; i++)
 		{
 		if (iReadBuf[i] != iWriteBuf[i])
 			{
 			TUSB_VERBOSE_PRINT1("Error: for i = %d:", i);
+			if(iVerbose)
+			    {
+			    OstTrace1(TRACE_VERBOSE, CACTIVERW_COMPAREBUFFERS_DUP01, "Error: for i = %d:", i);
+			    }
 			TUSB_VERBOSE_PRINT2("iReadBuf: %d != iWriteBuf: %d",
 								iReadBuf[i], iWriteBuf[i]);
+			if(iVerbose)
+			    {
+			    OstTraceExt2(TRACE_VERBOSE, CACTIVERW_COMPAREBUFFERS_DUP02, "iReadBuf: %d != iWriteBuf: %d",
+								iReadBuf[i], iWriteBuf[i]);
+			    }
 			return EFalse;
 			}
 		}
@@ -1730,6 +2083,10 @@
 CActiveStallNotifier::~CActiveStallNotifier()
 	{
 	TUSB_VERBOSE_PRINT("CActiveStallNotifier::~CActiveStallNotifier()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVESTALLNOTIFIER_DCACTIVESTALLNOTIFIER, "CActiveStallNotifier::~CActiveStallNotifier()");
+	    }
 	Cancel();												// base class
 	}
 
@@ -1737,6 +2094,10 @@
 void CActiveStallNotifier::DoCancel()
 	{
 	TUSB_VERBOSE_PRINT("CActiveStallNotifier::DoCancel()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVESTALLNOTIFIER_DOCANCEL, "CActiveStallNotifier::DoCancel()");
+	    }
 	iPort->EndpointStatusNotifyCancel();
 	}
 
@@ -1747,6 +2108,10 @@
 	// In a real world program, the user could take here appropriate action (cancel a
 	// transfer request or whatever).
 	TUSB_VERBOSE_PRINT1("StallNotifier: Endpointstate 0x%x\n", iEndpointState);
+	if(iVerbose)
+	    {
+	    OstTrace1(TRACE_VERBOSE, CACTIVESTALLNOTIFIER_RUNL, "StallNotifier: Endpointstate 0x%x\n", iEndpointState);
+	    }
 	Activate();
 	}
 
@@ -1792,6 +2157,10 @@
 CActiveDeviceStateNotifier::~CActiveDeviceStateNotifier()
 	{
 	TUSB_VERBOSE_PRINT("CActiveDeviceStateNotifier::~CActiveDeviceStateNotifier()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVEDEVICESTATENOTIFIER_DCACTIVEDEVICESTATENOTIFIER, "CActiveDeviceStateNotifier::~CActiveDeviceStateNotifier()");
+	    }
 	Cancel();												// base class
 	}
 
@@ -1799,6 +2168,10 @@
 void CActiveDeviceStateNotifier::DoCancel()
 	{
 	TUSB_VERBOSE_PRINT("CActiveDeviceStateNotifier::DoCancel()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVEDEVICESTATENOTIFIER_DOCANCEL, "CActiveDeviceStateNotifier::DoCancel()");
+	    }
 	iPort->AlternateDeviceStatusNotifyCancel();
 	}
 
@@ -1814,33 +2187,43 @@
 			{
 		case EUsbcDeviceStateUndefined:
 			TUSB_PRINT("Device State notifier: Undefined");
+			OstTrace0(TRACE_NORMAL, CACTIVEDEVICESTATENOTIFIER_RUNL, "Device State notifier: Undefined");
 			break;
 		case EUsbcDeviceStateAttached:
 			TUSB_PRINT("Device State notifier: Attached");
+			OstTrace0(TRACE_NORMAL, CACTIVEDEVICESTATENOTIFIER_RUNL_DUP01, "Device State notifier: Attached");
 			break;
 		case EUsbcDeviceStatePowered:
 			TUSB_PRINT("Device State notifier: Powered");
+			OstTrace0(TRACE_NORMAL, CACTIVEDEVICESTATENOTIFIER_RUNL_DUP02, "Device State notifier: Powered");
 			break;
 		case EUsbcDeviceStateDefault:
 			TUSB_PRINT("Device State notifier: Default");
+			OstTrace0(TRACE_NORMAL, CACTIVEDEVICESTATENOTIFIER_RUNL_DUP03, "Device State notifier: Default");
 			break;
 		case EUsbcDeviceStateAddress:
 			TUSB_PRINT("Device State notifier: Address");
+			OstTrace0(TRACE_NORMAL, CACTIVEDEVICESTATENOTIFIER_RUNL_DUP04, "Device State notifier: Address");
 			break;
 		case EUsbcDeviceStateConfigured:
 			TUSB_PRINT("Device State notifier: Configured");
+			OstTrace0(TRACE_NORMAL, CACTIVEDEVICESTATENOTIFIER_RUNL_DUP05, "Device State notifier: Configured");
 			break;
 		case EUsbcDeviceStateSuspended:
 			TUSB_PRINT("Device State notifier: Suspended");
+			OstTrace0(TRACE_NORMAL, CACTIVEDEVICESTATENOTIFIER_RUNL_DUP06, "Device State notifier: Suspended");
 			break;
 		default:
 			TUSB_PRINT("Device State notifier: ***BAD***");
+			OstTrace0(TRACE_NORMAL, CACTIVEDEVICESTATENOTIFIER_RUNL_DUP07, "Device State notifier: ***BAD***");
 			}
 		}
 	else if (iDeviceState & KUsbAlternateSetting)
 		{
 		TUSB_PRINT1("Device State notifier: Alternate interface setting has changed: now %d",
 					iDeviceState & ~KUsbAlternateSetting);
+		OstTrace1(TRACE_NORMAL, CACTIVEDEVICESTATENOTIFIER_RUNL_DUP08, "Device State notifier: Alternate interface setting has changed: now %d",
+					iDeviceState & ~KUsbAlternateSetting);
 		}
 
 	Activate();
@@ -1890,6 +2273,10 @@
 CActiveTimer::~CActiveTimer()
 	{
 	TUSB_VERBOSE_PRINT("CActiveTimer::~CActiveTimer()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVETIMER_DCACTIVETIMER, "CActiveTimer::~CActiveTimer()");
+	    }
 	Cancel();												// base class
 	iTimer.Close();
 	}
@@ -1898,6 +2285,10 @@
 void CActiveTimer::DoCancel()
 	{
 	TUSB_VERBOSE_PRINT("CActiveTimer::DoCancel()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVETIMER_DOCANCEL, "CActiveTimer::DoCancel()");
+	    }
 	iTimer.Cancel();
 	}
 
@@ -1905,6 +2296,10 @@
 void CActiveTimer::RunL()
 	{
 	TUSB_VERBOSE_PRINT("CActiveTimer::RunL()");
+	if(iVerbose)
+	    {
+	    OstTrace0(TRACE_VERBOSE, CACTIVETIMER_RUNL, "CActiveTimer::RunL()");
+	    }
 	// Nothing to do here, as we call ReadCancel() after a manual WaitForRequest()
 	// (in CActiveRW::ReceiveVersion()).
 	}