userlibandfileserver/fileserver/shostmassstorage/server/protocol/tscsiblockcmds.cpp
Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// Copyright (c) 2008-2009 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:
//
/**
@file
@internalTechnology
*/
#include <e32base.h>
#include "debug.h"
#include "msdebug.h"
#include "msctypes.h"
#include "mscutils.h"
#include "mtransport.h"
#include "mprotocol.h"
#include "tscsiclientreq.h"
#include "tscsiblockcmds.h"
// **** MODE SENSE (6) ****
void TScsiClientModeSense6Resp::DecodeL(const TDesC8& aPtr)
{
__MSFNSLOG
__SCSIPRINT(_L("--> SCSI MODE SENSE (6)"));
__SCSIPRINT1(_L("len=%d"), aPtr.Length());
// Mode Parameter List
// SPC-3 7.4.2
// - Mode Parameter Header
// - Block Descriptor(s)
// - Mode Page(s)
// Mode Parameter Header
// SPC-3 7.4.3
// [0] Mode Data Length
// [1] Medium Type
// [2] Device-Specific Paramater
// [3] Block Descriptor Length
// validate length
if (aPtr.Length() < KResponseLength)
{
User::Leave(KErrGeneral);
}
TInt modeDataLength = aPtr[0];
if (aPtr.Length() - 1 < modeDataLength)
{
User::Leave(KErrGeneral);
}
TInt mediumType = aPtr[1];
TUint8 deviceSpecificParameter = aPtr[2];
// TInt blockDescriptorLength = aPtr[3];
__SCSIPRINT2(_L("Medium Type=%d DSP=0x%x"), mediumType, deviceSpecificParameter);
// [1] Medium Type
// 0x00 for SBC
if (mediumType == 0)
{
// [2] Device specific parameter
// SBC-3 6.3.1
// get the WP bit from the Device Specific parameters
iWriteProtected = (deviceSpecificParameter & 0x80) ? ETrue : EFalse;
}
else
{
// unsupported medium type
iWriteProtected = EFalse;
}
// [3] Block Descriptor Length
// 0x00 for no descriptors
// No Block Descriptors
// No Mode Pages
}
// **** MODE SENSE (10) ****
void TScsiClientModeSense10Resp::DecodeL(const TDesC8& aPtr)
{
__MSFNSLOG
__SCSIPRINT(_L("--> SCSI MODE SENSE (10)"));
__SCSIPRINT1(_L("len=%d"), aPtr.Length());
// Mode Parameter List
// SPC-3 7.4.2
// - Mode Parameter Header
// - Block Descriptor(s)
// - Mode Page(s)
// Mode Parameter Header
// SPC-3 7.4.3
// [0] Mode Data Length
// [1] Mode Data Length
// [2] Medium Type
// [3] Device-Specific Paramater
// [4] Reserved
// [5] Reserved
// [6] Block Descriptor Length
// [7] Block Descriptor Length
// validate length
if (aPtr.Length() < KResponseLength)
{
User::Leave(KErrGeneral);
}
TInt modeDataLength = BigEndian::Get32(&aPtr[0]);
if (aPtr.Length() - 2 < modeDataLength)
{
User::Leave(KErrGeneral);
}
TInt mediumType = aPtr[2];
TUint8 deviceSpecificParameter = aPtr[3];
// TInt blockDescriptorLength = BigEndian::Get32(&aPtr[6]);;
__SCSIPRINT2(_L("Medium Type=%d DSP=0x%x"), mediumType, deviceSpecificParameter);
// [1] Medium Type
// 0x00 for SBC
if (mediumType == 0)
{
// [2] Device specific parameter
// SBC-3 6.3.1
// get the WP bit from the Device Specific parameters
iWriteProtected = (deviceSpecificParameter & 0x80) ? ETrue : EFalse;
}
else
{
// unsupported medium type
iWriteProtected = EFalse;
}
// [3] Block Descriptor Length
// 0x00 for no descriptors
// No Block Descriptors
// No Mode Pages
}
// **** READ CAPACITY (10) ***
TInt TScsiClientReadCapacity10Req::EncodeRequestL(TDes8& aBuffer) const
{
__MSFNSLOG
__SCSIPRINT(_L("<-- READ CAPACITY 10"));
TInt length = TScsiClientReq::EncodeRequestL(aBuffer);
if (iLba)
{
// PMI bit
aBuffer[8] = 0x01;
// LBA
BigEndian::Put32(&aBuffer[2], iLba);
}
return length;
}
void TScsiClientReadCapacity10Resp::DecodeL(const TDesC8& aPtr)
{
__MSFNSLOG
__SCSIPRINT(_L("--> SCSI READ CAPACITY (10)"));
iLba = BigEndian::Get32(&aPtr[0]);
iBlockSize = BigEndian::Get32(&aPtr[4]);
}
// **** RdWr10 ****
TInt TScsiClientRdWr10Req::EncodeRequestL(TDes8& aBuffer) const
{
__MSFNSLOG
TInt length = TScsiClientReq::EncodeRequestL(aBuffer);
// PROTECT
if (iProtect)
aBuffer[1] = iProtect << 5;
__SCSIPRINT2(_L("LBA=%08x LEN=%08x"), iLogicalBlockAddress, iBlockTransferLength);
// LOGICAL BLOCK ADDRESS
BigEndian::Put32(&aBuffer[2], iLogicalBlockAddress);
// TRANSFER LENGTH
BigEndian::Put16(&aBuffer[7], iBlockTransferLength);
return length;
}
// **** READ (10) ****
TInt TScsiClientRead10Req::EncodeRequestL(TDes8& aBuffer) const
{
__MSFNSLOG
__SCSIPRINT(_L("<-- SCSI READ (10)"));
TInt length = TScsiClientRdWr10Req::EncodeRequestL(aBuffer);
return length;
}
// **** START STOP UNIT ****
TInt TScsiClientStartStopUnitReq::EncodeRequestL(TDes8& aBuffer) const
{
__MSFNSLOG
__SCSIPRINT(_L("--> SCSI START STOP UNIT"));
TInt length = TScsiClientReq::EncodeRequestL(aBuffer);
// byte 1 mask
const TUint8 KImmedMask = 0x01;
// byte 4 mask
const TUint8 KStartMask = 0x01;
const TUint8 KLoejMask = 0x02;
if (iImmed)
aBuffer[1] |= KImmedMask;
if (iStart)
aBuffer[4] |= KStartMask;
if (iLoej)
aBuffer[4] |= KLoejMask;
return length;
}
// **** WRITE (10) ****
TInt TScsiClientWrite10Req::EncodeRequestL(TDes8& aBuffer) const
{
__MSFNSLOG
__SCSIPRINT(_L("<-- SCSI WRITE 10"));
TInt length = TScsiClientRdWr10Req::EncodeRequestL(aBuffer);
return length;
}