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// Copyright (c) 2004-2009 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of the License "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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// Provides utilities to build SCSI commands
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//
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//
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/**
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@file
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@internalTechnology
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*/
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#include <e32std.h>
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#include <e32std_private.h>
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#include <testusbc.h>
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#include "scsicmdbuilder.h"
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#define SCSI_READ_WRITE_LEN 10
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#define SCSI_UNIT_READY_LEN 6
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#define SCSI_MED_RMVL_LEN 6
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#define SCSI_START_STOP_LEN 6
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GLDEF_D TBuf8<KScsiCmdMaxLen> scsiCmdBuf;
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GLREF_D RDevTestUsbcClient usbcClient;
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void BuildReadWrite(TInt aFlag, TInt aLogicalBlkAddr, TInt aTotalBlks)
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//
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// Builds SCSI read(10) / write(10) command
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//
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{
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// Zero out the whole buffer
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scsiCmdBuf.FillZ(SCSI_READ_WRITE_LEN);
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scsiCmdBuf[0] = TUint8(aFlag); // opcode for read (0x28)/write (0x2A)
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// Fill in logical block address. Big endian
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scsiCmdBuf[2] = TUint8((aLogicalBlkAddr >> 24) & 0xFF);
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scsiCmdBuf[3] = TUint8((aLogicalBlkAddr >> 16) & 0xFF);
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scsiCmdBuf[4] = TUint8((aLogicalBlkAddr >> 8) & 0xFF);
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scsiCmdBuf[5] = TUint8(aLogicalBlkAddr & 0xFF);
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// Data transfer length (# of sectors). Big endian
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scsiCmdBuf[7] = TUint8((aTotalBlks >> 8) & 0xFF);
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scsiCmdBuf[8] = TUint8((aTotalBlks & 0xFF));
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scsiCmdBuf.SetLength(SCSI_READ_WRITE_LEN);
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}
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void BuildMediumRemoval(TInt aFlag)
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//
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// Builds prevent/allow medium removal command
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//
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{
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// Zero out the buf
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scsiCmdBuf.SetLength(SCSI_MED_RMVL_LEN);
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scsiCmdBuf.FillZ(SCSI_MED_RMVL_LEN);
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scsiCmdBuf[0] = 0x1E; // opcode for medium removal
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scsiCmdBuf[4] = TUint8(aFlag); // prevent(1)/allow(0) medium removal
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}
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void BuildTestUnitReady()
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//
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// Builds test unit ready command
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//
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{
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// Zero out the buf
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scsiCmdBuf.FillZ(SCSI_UNIT_READY_LEN);
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scsiCmdBuf[0] = 0; // opcode for test unit ready
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scsiCmdBuf.SetLength(SCSI_UNIT_READY_LEN);
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}
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void BuildStartStopUnit(TInt aFlag)
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//
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// Builds start/stop unit command
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//
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{
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const TUint8 KStartMask = 0x01;
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const TUint8 KLoejMask = 0x02;
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// Zero out the buf
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scsiCmdBuf.FillZ(SCSI_START_STOP_LEN);
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scsiCmdBuf[0] = 0x1B; // opcode for test unit ready
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scsiCmdBuf[1] = 0x01; // set immed bit to true
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scsiCmdBuf[4] = TUint8((aFlag == 1) ? KLoejMask & KStartMask : KLoejMask); // LOEJ + START or STOP
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scsiCmdBuf.SetLength(SCSI_START_STOP_LEN);
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}
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void fillInt(TUint8* dest, TInt source)
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//
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// Copy an int. Little endian
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//
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{
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for (TInt i = 0; i < 4; i++)
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{
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*dest++ = TUint8((source >> i*8) & 0xFF);
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}
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}
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TInt extractInt(const TUint8* aBuf)
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//
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// Extract an integer from a buffer. Assume little endian
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//
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{
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return aBuf[0] + (aBuf[1] << 8) + (aBuf[2] << 16) + (aBuf[3] << 24);
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}
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void createCBW(TDes8& aCbw, TInt aDCBWTag, TInt aDataTransferLen, TUint8 aInOutFlag, TDes8& aCBWCB, TUint8 aTestLun)
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//
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// aCbw: stores CBW
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// aDCBWTag: a command block tag sent by the host. Used to associates a CSW
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// with corresponding CBW
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// aDataTranferLen: the number of bytes the host expects to transfer
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// aInOutFlag: value for bmCBWFlags field, indicating the direction of transfer
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// aCBWCB the actual command to be wrapped
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// aTestLun local unit number
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{
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// Zero out aCbw
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aCbw.SetLength(KCbwLength);
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aCbw.FillZ();
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// dCBWSignature field, the value comes from spec
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TInt dCBWSignature = 0x43425355;
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fillInt(&aCbw[0], dCBWSignature);
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// dCBWTag field
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fillInt(&aCbw[4], aDCBWTag);
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// dCBWDataTransferLength field
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fillInt(&aCbw[8], aDataTransferLen);
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// bmCBWFlags field
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aCbw[12] = aInOutFlag;
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aCbw[13] = aTestLun;
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// bCBWCBLength field
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aCbw[14] = TUint8(aCBWCB.Length());
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// CBWCB field
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for (TInt i = 0; i < aCbw[14]; ++i)
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{
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aCbw[15 + i] = aCBWCB[i];
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}
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}
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