// Copyright (c) 2004-2010 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"
// 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:
//
/**
@file
@internalTechnology
*/
#include "cbulkonlytransport.h"
#include "cbulkonlytransportusbcldd.h"
#include "cbulkonlytransportusbcscldd.h"
#include "usbmsshared.h"
#include "massstoragedebug.h"
#include "cusbmassstorageserver.h"
//CBW offsets
LOCAL_D const TInt KCbwSignatureOffset = 0;
LOCAL_D const TInt KCbwTagOffset = 4;
LOCAL_D const TInt KCbwDataTransferLengthOffset = 8;
LOCAL_D const TInt KCbwFlagOffset = 12;
LOCAL_D const TInt KCbwLunOffset = 13;
LOCAL_D const TInt KCbwCbLengthOffset = 14;
LOCAL_D const TInt KMaxCbwcbLength = 16;
// CSW offsets
LOCAL_D const TInt KCswSingnatureOffset = 0;
LOCAL_D const TInt KCswTagOffset = 4;
LOCAL_D const TInt KCswDataResidueOffset = 8;
LOCAL_D const TInt KCswStatusOffset = 12;
/**
This function unpacks into the TUsbRequestHdr class from a descriptor with
the alignment that would be introduced on the USB bus.
@param aBuffer Input buffer
@param aTarget Unpacked header.
@return Error.
*/
TInt TUsbRequestHdr::Decode(const TDesC8& aBuffer)
{
if (aBuffer.Length() < static_cast<TInt>(KRequestHdrSize))
{
__PRINT1(_L("TUsbRequestHdr::Decode buffer invalid length %d"), aBuffer.Length());
return KErrGeneral;
}
iRequestType = aBuffer[0];
iRequest = static_cast<TEp0Request>(aBuffer[1]);
iValue = static_cast<TUint16>(aBuffer[2] + (aBuffer[3] << 8));
iIndex = static_cast<TUint16>(aBuffer[4] + (aBuffer[5] << 8));
iLength = static_cast<TUint16>(aBuffer[6] + (aBuffer[7] << 8));
__PRINT5(_L("type=%d request=%d value=%d index=%d length=%d"), iRequestType,iRequest,iValue,iIndex,iLength);
return KErrNone;
}
/**
This function determines whether data is required by the host in response
to a message header.
@return TBool Flag indicating whether a data response required.
*/
TBool TUsbRequestHdr::IsDataResponseRequired() const
{
return (iRequestType & 0x80) ? (TBool)ETrue : (TBool)EFalse;
}
//-------------------------------------
/**
Create an object of a class derived from CBulkOnlyTransport (default to CBulkOnlyTransportUsbcLdd object)
@param aNumDrives - The number of drives available for MS
@param aController - reference to the parent
@return pointer to newly created derived class object
*/
CBulkOnlyTransport* CBulkOnlyTransport::NewL(TInt aNumDrives,CUsbMassStorageController& aController)
{
__FNLOG("CBulkOnlyTransport::NewL()");
return NewL(aNumDrives,aController, (CUsbMassStorageController::TTransportldd) 1);
}
/**
Create an object of a class derived from CBulkOnlyTransport
@param aNumDrives - The number of drives available for MS
@param aController - reference to the parent
@param aTransportLddFlag - Type of usb client ldd
@return pointer to newly created derived class object
*/
CBulkOnlyTransport* CBulkOnlyTransport::NewL(TInt aNumDrives,CUsbMassStorageController& aController, CUsbMassStorageController::TTransportldd aTransportLddFlag)
{
__FNLOG("CBulkOnlyTransport::NewL()");
if (aNumDrives <=0 || static_cast<TUint>(aNumDrives) > KUsbMsMaxDrives)
{
User::Leave(KErrArgument);
}
CBulkOnlyTransportUsbcScLdd* scTransport;
CBulkOnlyTransportUsbcLdd* nonscTransport;
switch (aTransportLddFlag)
{
case 1:
nonscTransport = new(ELeave) CBulkOnlyTransportUsbcLdd(aNumDrives, aController);
return nonscTransport;
case 2:
scTransport = new(ELeave) CBulkOnlyTransportUsbcScLdd(aNumDrives, aController);
return scTransport;
default:
return NULL;
}
}
TInt CBulkOnlyTransport::InitialiseTransportL(TInt aTransportLddFlag)
{
__FNLOG("CBulkOnlyTransportUsbcScLdd::InitialiseTransportL()");
TInt ret = KErrNone;
MTransportBase* transport;
iController.GetTransport(transport);
switch (aTransportLddFlag)
{
case 2:
ret = ((CBulkOnlyTransportUsbcScLdd*) transport)->Ldd().Open(0);
if (ret != KErrNone)
{
return ret;
}
else
{
((CBulkOnlyTransportUsbcScLdd*) transport)->Ldd().Close();
CleanupStack::PushL(transport);
((CBulkOnlyTransportUsbcScLdd*) transport)->ConstructL();
CleanupStack::Pop(transport);
return ret;
}
case 1:
ret = ((CBulkOnlyTransportUsbcLdd*) transport)->Ldd().Open(0);
if (ret != KErrNone)
{
return ret;
}
else
{
((CBulkOnlyTransportUsbcLdd*) transport)->Ldd().Close();
CleanupStack::PushL(transport);
((CBulkOnlyTransportUsbcLdd*) transport)->ConstructL();
CleanupStack::Pop(transport);
return ret;
}
default:
return KErrNotFound;
}
}
/**
c'tor
@param aNumDrives - The number of drives available for MS
@param aController - reference to the parent
*/
CBulkOnlyTransport::CBulkOnlyTransport(TInt aNumDrives,CUsbMassStorageController& aController):
CActive(EPriorityStandard),
iMaxLun(aNumDrives-1),
iController(aController),
iStallAllowed(ETrue),
iInterfaceConfigured(EFalse),
iCommandBufPtr(NULL,0),
iDataBufPtr(NULL,0),
iCswBufPtr(NULL,0),
iPaddingBufPtr(NULL,0),
iWriteBufPtr(NULL,0),
iReadBufPtr(NULL, 0),
iCbwBufPtr(NULL,0)
{
__FNLOG("CBulkOnlyTransport::CBulkOnlyTransport");
}
/**
Destructor
*/
CBulkOnlyTransport::~CBulkOnlyTransport()
{
}
/**
Called by the protocol after processing the packet to indicate that more data is required.
@param aData reference to the data buffer.
*/
void CBulkOnlyTransport::SetupReadData(TUint aLength)
{
__FNLOG("CBulkOnlyTransport::SetupReadData");
__PRINT1(_L("Length = %d (bytes)\n"), aLength);
iBufSize = aLength;
iReadSetUp = ETrue;
}
/**
Called by the protocol after processing the packet to indicate that data should be written to the host.
@param aData reference to the data buffer.
*/
void CBulkOnlyTransport::SetupWriteData(TPtrC8& aData)
{
__FNLOG("CBulkOnlyTransport::SetupWriteData");
__PRINT1(_L("Length = %d (bytes)\n"), aData.Length());
iWriteBufPtr.Set(aData);
iWriteSetUp = ETrue;
}
TInt CBulkOnlyTransport::Start()
{
__FNLOG("CBulkOnlyTransport::Start");
TInt err = KErrNone;
if (!iProtocol)
{
return KErrBadHandle; //protocol should be set up before start
}
if (IsActive())
{
__PRINT(_L("CBulkOnlyTransport::Start - active before start!\n"));
return KErrInUse;
}
if ((err = SetupConfigurationDescriptor()) != KErrNone ||
(err = SetupInterfaceDescriptors()) != KErrNone )
{
__PRINT(_L("CBulkOnlyTransport::Start - Error during descriptors setup!\n"));
return err;
}
AllocateEndpointResources();
ActivateDeviceStateNotifier(); // activate notifier wich will wait until USB became configured
TUsbcDeviceState deviceStatus = EUsbcDeviceStateDefault;
err = GetDeviceStatus(deviceStatus);
__PRINT1(_L("CBulkOnlyTransport::Start - Device status = %d\n"), deviceStatus);
if (err == KErrNone && deviceStatus == EUsbcDeviceStateConfigured)
{
__PRINT(_L("CBulkOnlyTransport::Start - Starting bulk only transport\n"));
err = HwStart();
}
#ifdef MSDC_MULTITHREADED
TPtr8 aDes1(NULL,0);
TPtr8 aDes2(NULL,0);
GetBufferPointers(aDes1, aDes2);
iProtocol->InitializeBufferPointers(aDes1, aDes2); // have to pass pointer to memory not offsets to initialise TPtr, and lengths
#endif
iInterfaceConfigured = ETrue;
return err;
}
TInt CBulkOnlyTransport::HwStart(TBool aDiscard)
{
__FNLOG("CBulkOnlyTransport::HwStart");
TInt lun = MaxLun();
do
{
Controller().DriveManager().Connect(lun);
}
while(--lun >= 0);
TInt res = StartControlInterface();
iCurrentState = ENone;
iWriteSetUp=EFalse;
iReadSetUp=EFalse;
iStarted = ETrue;
if (aDiscard)
{
FlushData();
}
ReadCBW();
return res;
}
TInt CBulkOnlyTransport::HwStop()
{
__FNLOG("CBulkOnlyTransport::HwStop");
if (iStarted)
{
StopBulkOnlyEndpoint();
CancelControlInterface();
iStarted = EFalse;
}
return KErrNone;
}
void CBulkOnlyTransport::StopBulkOnlyEndpoint()
{
__FNLOG("CBulkOnlyTransport::StopBulkOnlyEndpoint");
TInt lun = MaxLun();
do
{
Controller().DriveManager().Disconnect(lun);
}
while(--lun >= 0);
Cancel();
iProtocol->Cancel();
}
TInt CBulkOnlyTransport::HwSuspend()
{
__FNLOG("CBulkOnlyTransport::HwSuspend");
TInt lun = MaxLun();
do
{
Controller().DriveManager().Disconnect(lun);
}
while(--lun >= 0);
return KErrNone;
}
TInt CBulkOnlyTransport::HwResume()
{
__FNLOG("CBulkOnlyTransport::HwResume");
TInt lun = MaxLun();
do
{
Controller().DriveManager().Connect(lun);
}
while(--lun >= 0);
return KErrNone;
}
/**
Stops the Bulk Only Transport
*/
TInt CBulkOnlyTransport::Stop()
{
__FNLOG("CBulkOnlyTransport::Stop");
CancelControlInterface();
CancelDeviceStateNotifier();
Cancel();
if (iInterfaceConfigured)
{
ReleaseInterface();
SetupConfigurationDescriptor(ETrue);
}
iCurrentState = ENone;
iInterfaceConfigured = EFalse;
return KErrNone;
}
void CBulkOnlyTransport::DoCancel()
{
__FNLOG("CBulkOnlyTransport::DoCancel");
CancelReadWriteRequests();
}
void CBulkOnlyTransport::Activate(TInt aReason)
{
SetActive();
TRequestStatus* r = &iStatus;
User::RequestComplete(r, aReason);
}
void CBulkOnlyTransport::RunL()
{
__FNLOG("CBulkOnlyTransport::RunL");
if (iStatus != KErrNone)
{
__PRINT1(_L("Error %d in RunL, halt endpoints \n"), iStatus.Int());
SetPermError(); //halt endpoints for reset recovery
return;
}
switch (iCurrentState)
{
case EWaitForCBW:
__PRINT(_L("EWaitForCBW"));
ProcessCbwEvent();
break;
case EWritingData:
__PRINT(_L("EWritingData"));
iWriteSetUp = EFalse; //the buffer was used
if (iDataResidue && iStallAllowed)
{
StallEndpointAndWaitForClear();
}
SendCSW(iCbwTag, iDataResidue, iCmdStatus);
break;
case EReadingData:
{
__PRINT(_L("EReadingData"));
ProcessReadingDataEvent();
}
break;
case ESendingCSW:
__PRINT(_L("ESendingCSW"));
ReadCBW();
break;
case EPermErr:
__PRINT(_L("EPermErr"));
StallEndpointAndWaitForClear();
break;
default:
SetPermError(); // unexpected state
}
}
/**
Decode the CBW received from the host via OutEndpoint
- If the header is valid, the data content is passed to the parser.
- Depending on the command, more data may be transmitted/received.
- ...or the CSW is sent (if not a data command).
*/
void CBulkOnlyTransport::DecodeCBW()
{
__FNLOG("CBulkOnlyTransport::DecodeCBW");
SetCbwPtr();
if (!CheckCBW()) //check if CBW valid and meaningful
{
// CBW not valid or meaningful
// Specification says: "If the CBW is not valid, the device shall STALL
// the Bulk-In pipe. Also, the device shall either STALL the Bulk-Out pipe,
// or the device shall accept and discard any Bulk-Out data. The device
// shall maintain this state until a Reset Recovery."
// Here we keep bulk-in ep stalled and ignore bulk-out ep.
SetPermError();
ExpireData((TAny*) (iCbwBufPtr.Ptr()));
return;
}
TPtrC8 aData;
aData.Set(&iCbwBufPtr[KCbwCbLengthOffset], KMaxCbwcbLength+1); //prepare data for protocol starting form Length
TUint8 lun = static_cast<TUint8>(iCbwBufPtr[13] & 0x0f);
iCbwTag = static_cast<TUint32>(iCbwBufPtr[KCbwTagOffset]) |
static_cast<TUint32>(iCbwBufPtr[KCbwTagOffset+1]) <<8 |
static_cast<TUint32>(iCbwBufPtr[KCbwTagOffset+2]) <<16|
static_cast<TUint32>(iCbwBufPtr[KCbwTagOffset+3]) <<24;
TInt i = KCbwDataTransferLengthOffset;
TUint hostDataLength = static_cast<TUint32>(iCbwBufPtr[i ]) |
static_cast<TUint32>(iCbwBufPtr[i+1]) <<8 |
static_cast<TUint32>(iCbwBufPtr[i+2]) <<16 |
static_cast<TUint32>(iCbwBufPtr[i+3]) <<24;
TBool dataToHost = iCbwBufPtr[KCbwFlagOffset] & 0x80;
__PRINT4(_L("lun =%d, hostDataLength=%d, CBWtag = 0x%x, dataToHost=%d\n"), lun, hostDataLength, iCbwTag, dataToHost);
//////////////////////////////////////////////
TBool ret = iProtocol->DecodePacket(aData, lun);
//////////////////////////////////////////////
ExpireData((TAny*) (iCbwBufPtr.Ptr()));
iStallAllowed = ETrue;
if (!ret)
{
__PRINT(_L("Command Failed\n"));
iCmdStatus = ECommandFailed;
}
else
{
__PRINT(_L("Command Passed\n"));
iCmdStatus = ECommandPassed;
}
if (hostDataLength) // Host expected data transfer
{
if (dataToHost) // send data to host
{
if (!iWriteSetUp) //write buffer was not set up
{
__PRINT(_L("Write buffer was not setup\n"));
iDataResidue =hostDataLength;
__PRINT1(_L("DataResidue (write to host)=%d\n"),iDataResidue);
//------------------------------------
if (hostDataLength <= KBOTMaxBufSize)
{
__PRINT(_L("Case 4 or 8\n"));
SetPaddingBufPtr(hostDataLength);
iPaddingBufPtr.FillZ(hostDataLength);
TPtrC8 ptr(NULL, 0);
ptr.Set((TUint8*)iPaddingBufPtr.Ptr(), hostDataLength);
WriteData(iStatus, ptr, hostDataLength, EFalse);
iStallAllowed = EFalse;
if (iReadSetUp) //read buffer WAS set up - case (8)
{
__PRINT(_L("It is Case 8\n"));
iCmdStatus = EPhaseError;
}
return;
}
else
//------------------------------------
// Use next block instead of StallEndpointAndWaitForClear(InEndpoint);
{
SetPaddingBufPtr(hostDataLength);
iPaddingBufPtr.FillZ(KBOTMaxBufSize);
TUint c =0;
TRequestStatus status;
while (c<hostDataLength)
{
TInt len;
if (hostDataLength - c > KBOTMaxBufSize)
{
len = KBOTMaxBufSize;
}
else
{
len = hostDataLength - c;
}
TPtrC8 ptr(NULL, 0);
ptr.Set((TUint8*)iPaddingBufPtr.Ptr(), len);
WriteUsb(status, ptr, len);
User::WaitForRequest(status);
c += KBOTMaxBufSize;
}
}
if (iReadSetUp) //read buffer WAS set up - case (8)
{
__PRINT(_L("Case 8\n"));
SendCSW(iCbwTag, hostDataLength, EPhaseError);
//don't care to reset any flag - should get reset recovery
}
else // case (4)
{
__PRINT(_L("Case 4\n"));
SendCSW(iCbwTag, hostDataLength, iCmdStatus);
}
return;
} // if (!iWriteSetUp)
//==================
TUint deviceDataLength = static_cast<TUint>(iWriteBufPtr.Length());
iDataResidue =hostDataLength - deviceDataLength ;
__PRINT2(_L("Device data length = %d, DataResidue (write to host)=%d\n"), deviceDataLength, iDataResidue);
if (deviceDataLength < hostDataLength &&
hostDataLength < KBOTMaxBufSize )
{
__PRINT(_L("Case 5 (padding)\n"));
SetPaddingBufPtr(hostDataLength);
iPaddingBufPtr.Zero();
iPaddingBufPtr.Append(iWriteBufPtr);
iStallAllowed = EFalse;
__PRINT1(_L("iPaddingBufPtr.Length = %d\n"),iPaddingBufPtr.Length());
TPtrC8 ptr(NULL, 0);
ptr.Set((TUint8*)iPaddingBufPtr.Ptr(), hostDataLength);
WriteData(iStatus, ptr, hostDataLength, EFalse);
return;
}
//===================
if (deviceDataLength == hostDataLength) //case (6)[==]
{
__PRINT(_L("Case 6\n"));
WriteData(iStatus, iWriteBufPtr, deviceDataLength);
return;
}
else if (deviceDataLength < hostDataLength) //case (5)[<]
{
__PRINT(_L("Case 5\n"));
WriteData(iStatus, iWriteBufPtr, deviceDataLength, ETrue); // Send ZLP
return;
}
else // deviceDataLength > hostDataLength - case (7)
{
__PRINT(_L("Case 7\n"));
iCmdStatus = EPhaseError;
iDataResidue = 0;
WriteData(iStatus, iWriteBufPtr, hostDataLength);
return;
}
}
else //read data from host
{
if (!iReadSetUp)
{
iDataResidue = hostDataLength;
__PRINT(_L("Read buffer was not setup\n"));
// Use next block instead of StallEndpointAndWaitForClear(OutEndpoint);
DiscardData(hostDataLength);
if (iWriteSetUp) //case (10)
{
__PRINT(_L("case 10\n"));
SendCSW(iCbwTag, hostDataLength, EPhaseError);
}
else // case (9)
{
__PRINT(_L("Case 9\n"));
SendCSW(iCbwTag, hostDataLength, iCmdStatus);
}
return;
}
TUint deviceDataLength = iBufSize;
iDataResidue = hostDataLength; // calculate residue later
__PRINT2(_L("deviceDataLength = iBufSize = %d, DataResidue = HDL for now (read from host) =%d\n"),deviceDataLength,iDataResidue);
if (deviceDataLength <= hostDataLength) // case (11) and (12)
{
__PRINT(_L("Case 11 or 12\n"));
ReadData(deviceDataLength);
return;
}
if (deviceDataLength > hostDataLength) // case (13)
{
__PRINT(_L("Case 13\n"));
/**
* Comment following line in order to pass compliant test.
* As spec said in case 13:"The device may receive data up to a
* total of dCBWDataTransferLength."
* Here we choose to ignore incoming data.
*/
//StallEndpointAndWaitForClear(OutEndpoint); //Stall Out endpoint
if (iReadSetUp)
{
WriteToClient(hostDataLength);
iReadSetUp = EFalse;
}
SendCSW(iCbwTag, hostDataLength, EPhaseError);
return;
}
}
}
else // Host expected no data transfer
{
__PRINT(_L("No data transfer expected\n"));
iDataResidue = 0;
if (iWriteSetUp || iReadSetUp) // case (2) and (3)
{
__PRINT(_L("Case 2 or 3\n"));
SendCSW(iCbwTag, 0, EPhaseError);
}
else
{
__PRINT(_L("Case 1\n"));
SendCSW(iCbwTag, 0, iCmdStatus); //case (1)
}
}
}
/**
Check if CBW Valid and Meaningful.
@return ETrue if CBW is Valid and Meaningful, EFalse otherwise
*/
TBool CBulkOnlyTransport::CheckCBW()
{
__FNLOG("CBulkOnlyTransport::CheckCBW");
//
// Check valid
//
// Check length
if ((TUint) (iCbwBufPtr.Length()) != KCbwLength)
{
__PRINT2(_L("Bad length: %d != KCbwLength"), iCbwBufPtr.Length(), KCbwLength);
return EFalse;
}
// Check signature
TInt i = KCbwSignatureOffset;
if (iCbwBufPtr[i ] != 0x55 || // CBW Singature from USB Bulk-Only Transport spec
iCbwBufPtr[i+1] != 0x53 ||
iCbwBufPtr[i+2] != 0x42 ||
iCbwBufPtr[i+3] != 0x43)
{
__PRINT(_L("Bad signature"));
__PRINT4(_L(" 0x%x, 0x%x, 0x%x, 0x%x \n"), iCbwBufPtr[i], iCbwBufPtr[i+1], iCbwBufPtr[i+2],iCbwBufPtr[i+3])
return EFalse;
}
//
// Check meaningful
//
// Check reserved bits ( must be zero )
if ((iCbwBufPtr[KCbwLunOffset] & 0xF0) || (iCbwBufPtr[KCbwCbLengthOffset] & 0xE0))
{
__PRINT(_L("Reserved bits not zero\n"));
return EFalse;
}
// check command block length
TInt cbwcbLength = iCbwBufPtr[KCbwCbLengthOffset] & 0x1F;
if (cbwcbLength >KMaxCbwcbLength)
{
__PRINT(_L("Incorrect block length\n"));
return EFalse;
}
//check LUN
TInt8 lun = static_cast<TUint8>(iCbwBufPtr[KCbwLunOffset] & 0x0f);
if (iMaxLun < lun)
{
__PRINT1(_L("bad lun: %d"), lun);
return EFalse;
}
return ETrue;
}
/**
Initiate stalling of bulk IN endpoint.
Used when protocol wants to force host to initiate a reset recovery.
*/
void CBulkOnlyTransport::SetPermError()
{
__FNLOG("CBulkOnlyTransport::SetPermError");
iCurrentState = EPermErr;
Activate(KErrNone);
}
/**
Send data provided by protocol to the host
@param aLength amount of data (in bytes) to be send to host
*/
void CBulkOnlyTransport::WriteData(TRequestStatus& aStatus, TPtrC8& aDes, TUint aLength, TBool aZlpRequired)
{
__FNLOG("CBulkOnlyTransport::WriteData");
if (IsActive())
{
__PRINT(_L("Still active\n"));
__ASSERT_DEBUG(EFalse, User::Panic(KUsbMsSvrPncCat, EMsBulkOnlyStillActive));
return;
}
WriteUsb(aStatus, aDes, aLength, aZlpRequired);
iCurrentState = EWritingData;
SetActive();
}
/**
Send Command Status Wrapper to the host
@param aTag Echo of Command Block Tag sent by the host.
@param aDataResidue the difference between the amount of data expected by the
host, and the actual amount of data processed by the device.
@param aStatus indicates the success or failure of the command.
*/
void CBulkOnlyTransport::SendCSW(TUint aTag, TUint aDataResidue, TCswStatus aStatus)
{
__FNLOG("CBulkOnlyTransport::SendCSW");
__PRINT2(_L("DataResidue = %d, Status = %d \n"), aDataResidue, aStatus);
if (IsActive())
{
__PRINT(_L("Still active\n"));
__ASSERT_DEBUG(EFalse, User::Panic(KUsbMsSvrPncCat, EMsBulkOnlyStillActive));
return;
}
SetCswBufPtr(KCswLength);
TInt i = KCswSingnatureOffset;
iCswBufPtr[i ] = 0x55; // CSW Singature from USB Bulk-Only Transport spec
iCswBufPtr[i+1] = 0x53;
iCswBufPtr[i+2] = 0x42;
iCswBufPtr[i+3] = 0x53;
i = KCswTagOffset;
iCswBufPtr[i ] = static_cast<TUint8>((aTag & 0x000000FF));
iCswBufPtr[i+1] = static_cast<TUint8>((aTag & 0x0000FF00) >> 8);
iCswBufPtr[i+2] = static_cast<TUint8>((aTag & 0x00FF0000) >> 16);
iCswBufPtr[i+3] = static_cast<TUint8>((aTag & 0xFF000000) >> 24);
i = KCswDataResidueOffset;
iCswBufPtr[i ] = static_cast<TUint8>((aDataResidue & 0x000000FF));
iCswBufPtr[i+1] = static_cast<TUint8>((aDataResidue & 0x0000FF00) >> 8);
iCswBufPtr[i+2] = static_cast<TUint8>((aDataResidue & 0x00FF0000) >> 16);
iCswBufPtr[i+3] = static_cast<TUint8>((aDataResidue & 0xFF000000) >> 24);
iCswBufPtr[KCswStatusOffset] = static_cast<TUint8>(aStatus);
TPtrC8 ptr(NULL, 0);
ptr.Set((const TUint8*)iCswBufPtr.Ptr(), KCswLength);
WriteUsb(iStatus, ptr, KCswLength);
iCurrentState = ESendingCSW;
SetActive();
}
/**
Associates the transport with the protocol. Called during initialization of the controller.
@param aProtocol reference to the protocol
*/
void CBulkOnlyTransport::RegisterProtocol(MProtocolBase& aProtocol)
{
__FNLOG("CBulkOnlyTransport::RegisterProtocol");
iProtocol = &aProtocol;
}
/**
Used by CControlInterface
@return reference to the controller which instantiate the CBulkOnlyTransport
*/
CUsbMassStorageController& CBulkOnlyTransport::Controller()
{
return iController;
}
/**
@return the number of logical units supported by the device.
Logical Unit Numbers on the device shall be numbered contiguously starting from LUN
0 to a maximum LUN of 15 (Fh).
*/
TInt CBulkOnlyTransport::MaxLun()
{
return iMaxLun;
}
void CBulkOnlyTransport::GetCommandBufPtr(TPtr8& aDes, TUint aLength) // Set pointer to buffer of specified aLength for command
{
aDes.Set(SetCommandBufPtr(aLength));
}
void CBulkOnlyTransport::GetReadDataBufPtr(TPtr8& aDes) // Set pointer to buffer into which data is to be read from drive (Read10)
{
aDes.Set(SetDataBufPtr());
}
void CBulkOnlyTransport::GetWriteDataBufPtr(TPtrC8& aDes) // Set pointer to buffer from which data is to be written to drive (Write10)
{
aDes.Set(iReadBufPtr);
}
#ifdef MSDC_MULTITHREADED
void CBulkOnlyTransport::ProcessReadData(TAny* aAddress)
{
ExpireData(aAddress);
}
#endif