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sane-project-backends/backend/plustek-pp_io.c

998 wiersze
23 KiB
C
Czysty Wina Historia

/* @file plustekpp-io.c
* @brief as the name says, here we have all the I/O
* functions according to the parallel port hardware
*
* based on sources acquired from Plustek Inc.
* Copyright (C) 1998 Plustek Inc.
* Copyright (C) 2000-2004 Gerhard Jaeger <gerhard@gjaeger.de>
*
* History:
* - 0.37 - initial version
* - added Kevins' suggestions
* - 0.38 - added Asic 98003 stuff and ioP98ReadWriteTest()
* - added IODataRegisterToDAC()
* - replaced function IOSPPWrite by IOMoveDataToScanner
* - modified ioP98OpenScanPath again and reuse V0.36 stuff again
* - added IO functions
* - 0.39 - added IO functions
* - added f97003 stuff from A3I code
* - 0.40 - no changes
* - 0.41 - no changes
* - 0.42 - changed include names
* - 0.43 - no changes
* .
* <hr>
* This file is part of the SANE package.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston,
* MA 02111-1307, USA.
*
* As a special exception, the authors of SANE give permission for
* additional uses of the libraries contained in this release of SANE.
*
* The exception is that, if you link a SANE library with other files
* to produce an executable, this does not by itself cause the
* resulting executable to be covered by the GNU General Public
* License. Your use of that executable is in no way restricted on
* account of linking the SANE library code into it.
*
* This exception does not, however, invalidate any other reasons why
* the executable file might be covered by the GNU General Public
* License.
*
* If you submit changes to SANE to the maintainers to be included in
* a subsequent release, you agree by submitting the changes that
* those changes may be distributed with this exception intact.
*
* If you write modifications of your own for SANE, it is your choice
* whether to permit this exception to apply to your modifications.
* If you do not wish that, delete this exception notice.
* <hr>
*/
#include "plustek-pp_scan.h"
/*************************** some prototypes *********************************/
static Bool fnEPPRead ( pScanData ps, pUChar pBuffer, ULong ulSize );
static Bool fnSPPRead ( pScanData ps, pUChar pBuffer, ULong ulSize );
static Bool fnBiDirRead( pScanData ps, pUChar pBuffer, ULong ulSize );
typedef struct {
pFnReadData func;
char *name;
} ioReadFuncDef;
static ioReadFuncDef ioReadFunc[3] = {
{ fnEPPRead, "fnEPPRead" },
{ fnSPPRead, "fnSPPRead" },
{ fnBiDirRead, "fnBiDirRead" }
};
/*************************** some definitions ********************************/
#define _MEMTEST_SIZE 1280
/*************************** local functions *********************************/
/** we provide some functions to read data from SPP port according to
* the speed we have detected (ReadWriteTest!!)
*/
static Byte ioDataFromSPPFast( pScanData ps )
{
Byte bData, tmp;
/* notify asic we will read the high nibble data from status port */
if( _FALSE == ps->f97003 ) {
_OUTB_CTRL( ps, ps->CtrlReadHighNibble );
_DO_UDELAY( 1 );
}
/* read high nibble */
bData = _INB_STATUS( ps );
bData &= 0xf0;
_OUTB_CTRL( ps, ps->CtrlReadLowNibble );
_DO_UDELAY( 1 );
/* read low nibble */
tmp = _INB_STATUS( ps );
/* combine with low nibble */
bData |= (tmp >> 4);
_OUTB_CTRL( ps, _CTRL_GENSIGNAL );
_DO_UDELAY( 1 );
return bData;
}
static Byte ioDataFromSPPMiddle( pScanData ps )
{
Byte bData, tmp;
/* notify asic we will read the high nibble data from status port */
if( _FALSE == ps->f97003 ) {
_OUTB_CTRL( ps, ps->CtrlReadHighNibble );
_DO_UDELAY( 1 );
}
/* read high nibble */
_INB_STATUS( ps );
bData = _INB_STATUS( ps );
bData &= 0xf0;
_OUTB_CTRL( ps, ps->CtrlReadLowNibble );
_DO_UDELAY( 1 );
/* read low nibble */
_INB_STATUS( ps );
tmp = _INB_STATUS( ps );
/* combine with low nibble */
bData |= (tmp >> 4);
_OUTB_CTRL( ps, _CTRL_GENSIGNAL );
_DO_UDELAY( 1 );
return bData;
}
static UChar ioDataFromSPPSlow( pScanData ps )
{
Byte bData, tmp;
/* notify asic we will read the high nibble data from status port */
if( _FALSE == ps->f97003 ) {
_OUTB_CTRL( ps, ps->CtrlReadHighNibble );
_DO_UDELAY( 2 );
}
/* read high nibble */
_INB_STATUS( ps );
_INB_STATUS( ps );
bData = _INB_STATUS( ps );
bData &= 0xf0;
_OUTB_CTRL( ps, ps->CtrlReadLowNibble );
_DO_UDELAY( 2 );
/* read low nibble */
_INB_STATUS( ps );
_INB_STATUS( ps );
tmp = _INB_STATUS( ps );
/* combine with low nibble */
bData |= (tmp >> 4);
_OUTB_CTRL( ps, _CTRL_GENSIGNAL );
_DO_UDELAY( 2 );
return bData;
}
static UChar ioDataFromSPPSlowest( pScanData ps )
{
Byte bData, tmp;
/* notify asic we will read the high nibble data from status port */
if( _FALSE == ps->f97003 ) {
_OUTB_CTRL( ps, ps->CtrlReadHighNibble );
_DO_UDELAY( 3 );
}
/* read high nibble */
_INB_STATUS( ps );
_INB_STATUS( ps );
_INB_STATUS( ps );
bData = _INB_STATUS( ps );
bData &= 0xf0;
_OUTB_CTRL( ps, ps->CtrlReadLowNibble );
_DO_UDELAY( 3 );
/* read low nibble */
_INB_STATUS( ps );
_INB_STATUS( ps );
_INB_STATUS( ps );
tmp = _INB_STATUS( ps );
/* combine with low nibble */
bData |= (tmp >> 4);
_OUTB_CTRL( ps, _CTRL_GENSIGNAL );
_DO_UDELAY( 3 );
return bData;
}
/** Read data from STATUS port. We have to read twice and combine two nibble
* data to one byte.
*/
static Bool fnSPPRead( pScanData ps, pUChar pBuffer, ULong ulSize )
{
switch( ps->IO.delay ) {
case 0:
for (; ulSize; ulSize--, pBuffer++)
*pBuffer = ioDataFromSPPFast( ps );
break;
case 1:
for (; ulSize; ulSize--, pBuffer++)
*pBuffer = ioDataFromSPPMiddle( ps );
break;
case 2:
for (; ulSize; ulSize--, pBuffer++)
*pBuffer = ioDataFromSPPSlow( ps );
break;
default:
for (; ulSize; ulSize--, pBuffer++)
*pBuffer = ioDataFromSPPSlowest( ps );
break;
}
return _TRUE;
}
/** Using buffered I/O to read data from EPP Data Port
*/
static Bool fnEPPRead( pScanData ps, pUChar pBuffer, ULong ulSize )
{
register ULong i;
if( _IS_ASIC98(ps->sCaps.AsicID)) {
#ifndef __KERNEL__
sanei_pp_set_datadir( ps->pardev, SANEI_PP_DATAIN );
#else
_OUTB_CTRL( ps, (_CTRL_GENSIGNAL + _CTRL_DIRECTION));
_DO_UDELAY( 1 );
#endif
for( i = 0; i < ulSize; i++ )
pBuffer[i] = _INB_EPPDATA( ps );
#ifndef __KERNEL__
sanei_pp_set_datadir( ps->pardev, SANEI_PP_DATAOUT );
#else
_OUTB_CTRL( ps, _CTRL_GENSIGNAL );
_DO_UDELAY( 1 );
#endif
} else {
for( i = 0; i < ulSize; i++ )
pBuffer[i] = _INB_EPPDATA( ps );
}
return _TRUE;
}
/**
*/
static Bool fnBiDirRead( pScanData ps, pUChar pBuffer, ULong ulSize )
{
UChar start, end;
start = _CTRL_START_BIDIREAD;
end = _CTRL_END_BIDIREAD;
#ifndef __KERNEL__
sanei_pp_set_datadir( ps->pardev, SANEI_PP_DATAIN );
if( !sanei_pp_uses_directio()) {
start &= ~_CTRL_DIRECTION;
end &= ~_CTRL_DIRECTION;
}
#else
if( _IS_ASIC98(ps->sCaps.AsicID)) {
_OUTB_CTRL( ps, (_CTRL_GENSIGNAL + _CTRL_DIRECTION));
}
#endif
switch( ps->IO.delay ) {
case 0:
for( ; ulSize; ulSize--, pBuffer++ ) {
_OUTB_CTRL( ps, start );
*pBuffer = _INB_DATA( ps );
_OUTB_CTRL( ps, end );
}
break;
case 1:
_DO_UDELAY( 1 );
for(; ulSize; ulSize--, pBuffer++ ) {
_OUTB_CTRL( ps, start );
_DO_UDELAY( 1 );
*pBuffer = _INB_DATA( ps );
_OUTB_CTRL( ps, end );
_DO_UDELAY( 1 );
}
break;
default:
_DO_UDELAY( 2 );
for(; ulSize; ulSize--, pBuffer++ ) {
_OUTB_CTRL( ps, start );
_DO_UDELAY( 2 );
*pBuffer = _INB_DATA( ps );
_OUTB_CTRL( ps, end );
_DO_UDELAY( 2 );
}
break;
}
#ifndef __KERNEL__
sanei_pp_set_datadir( ps->pardev, SANEI_PP_DATAOUT );
#else
if( _IS_ASIC98(ps->sCaps.AsicID)) {
_OUTB_CTRL( ps, _CTRL_GENSIGNAL );
}
#endif
return _TRUE;
}
/** as the name says, we switch to SPP mode
*/
static void ioSwitchToSPPMode( pScanData ps )
{
/* save the control and data port value
*/
ps->IO.bOldControlValue = _INB_CTRL( ps );
ps->IO.bOldDataValue = _INB_DATA( ps );
_OUTB_CTRL( ps, _CTRL_GENSIGNAL ); /* 0xc4 */
_DO_UDELAY( 2 );
}
/** restore the port settings
*/
static void ioRestoreParallelMode( pScanData ps )
{
_OUTB_CTRL( ps, ps->IO.bOldControlValue & 0x3f );
_DO_UDELAY( 1 );
_OUTB_DATA( ps, ps->IO.bOldDataValue );
_DO_UDELAY( 1 );
}
/** try to connect to scanner (ASIC 9600x and 98001)
*/
_LOC void ioP98001EstablishScannerConnection( pScanData ps, ULong delTime )
{
_OUTB_DATA( ps, _ID_TO_PRINTER );
_DO_UDELAY( delTime );
_OUTB_DATA( ps, _ID1ST );
_DO_UDELAY( delTime );
_OUTB_DATA( ps, _ID2ND );
_DO_UDELAY( delTime );
_OUTB_DATA( ps, _ID3RD );
_DO_UDELAY( delTime );
_OUTB_DATA( ps, _ID4TH );
_DO_UDELAY( delTime );
}
/** try to connect to scanner (ASIC 98003)
*/
static void ioP98003EstablishScannerConnection( pScanData ps, ULong delTime )
{
_OUTB_DATA( ps, _ID1ST );
_DO_UDELAY( delTime );
_OUTB_DATA( ps, _ID2ND );
_DO_UDELAY( delTime );
_OUTB_DATA( ps, _ID3RD );
_DO_UDELAY( delTime );
_OUTB_DATA( ps, _ID4TH );
_DO_UDELAY( delTime );
}
/** switch the printer interface to scanner
*/
static Bool ioP96OpenScanPath( pScanData ps )
{
if( 0 == ps->IO.bOpenCount ) {
/* not established */
ioSwitchToSPPMode( ps );
/* Scanner command sequence to open scanner path */
ioP98001EstablishScannerConnection( ps, 5 );
}
#ifdef DEBUG
else
DBG( DBG_IO, "!!!! Path already open (%u)!!!!\n", ps->IO.bOpenCount );
#endif
ps->IO.bOpenCount++; /* increment the opened count */
/*
* CHECK to we really need that !!
*/
ps->IO.useEPPCmdMode = _FALSE;
return _TRUE;
}
/** try to connect to scanner
*/
static Bool ioP98OpenScanPath( pScanData ps )
{
Byte tmp;
ULong dw;
ULong dwTime = 1;
if( 0 == ps->IO.bOpenCount ) {
/* not established */
ioSwitchToSPPMode( ps );
for( dw = 10; dw; dw-- ) {
/*
* this seems to be necessary...
*/
if( _ASIC_IS_98001 == ps->sCaps.AsicID ) {
ioP98001EstablishScannerConnection( ps, dw );
#if 0
ioP98001EstablishScannerConnection( ps, dw );
ioP98001EstablishScannerConnection( ps, dw );
#endif
} else {
ioP98003EstablishScannerConnection( ps, dw );
}
_INB_STATUS( ps );
tmp = _INB_STATUS( ps );
if( 0x50 == ( tmp & 0xf0 )) {
ps->IO.bOpenCount = 1;
if( ps->sCaps.AsicID == IODataFromRegister(ps, ps->RegAsicID)) {
return _TRUE;
}
ps->IO.bOpenCount = 0;
}
dwTime++;
}
DBG( DBG_IO, "ioP98OpenScanPath() failed!\n" );
return _FALSE;
}
#ifdef DEBUG
else
DBG( DBG_IO, "!!!! Path already open (%u)!!!!\n", ps->IO.bOpenCount );
#endif
ps->IO.bOpenCount++; /* increment the opened count */
return _TRUE;
}
/** Switch back to printer mode.
* Restore the printer control/data port value.
*/
static void ioCloseScanPath( pScanData ps )
{
if( ps->IO.bOpenCount && !(--ps->IO.bOpenCount)) {
#ifdef DEBUG
ps->IO.bOpenCount = 1;
#endif
IORegisterToScanner( ps, 0xff );
/*
* back to pass-through printer mode
*/
IORegisterToScanner( ps, ps->RegSwitchBus );
#ifdef DEBUG
ps->IO.bOpenCount = 0;
#endif
ps->IO.useEPPCmdMode = _FALSE;
ioRestoreParallelMode( ps );
}
}
/** check the memory to see that the data-transfers will work.
* (ASIC 9800x only)
*/
static int ioP98ReadWriteTest( pScanData ps )
{
UChar tmp;
ULong ul;
pUChar buffer;
int retval;
DBG( DBG_LOW, "ioP98ReadWriteTest()\n" );
/* _MEMTEST_SIZE: Read, _MEMTEST_SIZE:Write */
buffer = _KALLOC( sizeof(UChar) * _MEMTEST_SIZE*2, GFP_KERNEL );
if( NULL == buffer )
return _E_ALLOC;
/* prepare content */
for( ul = 0; ul < _MEMTEST_SIZE; ul++ )
buffer[ul] = (UChar)ul;
ps->OpenScanPath(ps);
/* avoid switching to Lamp0, when previously scanned in transp./neg mode */
tmp = ps->bLastLampStatus + _SCAN_BYTEMODE;
IODataToRegister( ps, ps->RegScanControl, tmp );
IODataToRegister( ps, ps->RegModelControl, (_LED_ACTIVITY | _LED_CONTROL));
IODataToRegister( ps, ps->RegModeControl, _ModeMappingMem );
IODataToRegister( ps, ps->RegMemoryLow, 0 );
IODataToRegister( ps, ps->RegMemoryHigh, 0 );
/* fill to buffer */
IOMoveDataToScanner( ps, buffer, _MEMTEST_SIZE );
IODataToRegister( ps, ps->RegModeControl, _ModeMappingMem );
IODataToRegister( ps, ps->RegMemoryLow, 0 );
IODataToRegister( ps, ps->RegMemoryHigh, 0 );
IODataToRegister( ps, ps->RegWidthPixelsLow, 0 );
IODataToRegister( ps, ps->RegWidthPixelsHigh, 5 );
ps->AsicReg.RD_ModeControl = _ModeReadMappingMem;
if( _ASIC_IS_98001 == ps->sCaps.AsicID )
ps->CloseScanPath( ps );
IOReadScannerImageData( ps, buffer + _MEMTEST_SIZE, _MEMTEST_SIZE );
if( _ASIC_IS_98003 == ps->sCaps.AsicID )
ps->CloseScanPath( ps );
/* check the result ! */
retval = _OK;
for( ul = 0; ul < _MEMTEST_SIZE; ul++ ) {
if( buffer[ul] != buffer[ul+_MEMTEST_SIZE] ) {
DBG( DBG_HIGH, "Error in memory test at pos %lu (%u != %u)\n",
ul, buffer[ul], buffer[ul+_MEMTEST_SIZE] );
retval = _E_NO_DEV;
break;
}
}
_KFREE(buffer);
return retval;
}
/** Put data to DATA port and trigger hardware through CONTROL port to read it.
*/
static void ioSPPWrite( pScanData ps, pUChar pBuffer, ULong size )
{
DBG( DBG_IO , "Moving %lu bytes to scanner, IODELAY = %u...\n",
size, ps->IO.delay );
switch( ps->IO.delay ) {
case 0:
for (; size; size--, pBuffer++) {
_OUTB_DATA( ps, *pBuffer );
_OUTB_CTRL( ps, _CTRL_START_DATAWRITE );
_OUTB_CTRL( ps, _CTRL_END_DATAWRITE );
}
break;
case 1:
case 2:
for (; size; size--, pBuffer++) {
_OUTB_DATA( ps, *pBuffer );
_DO_UDELAY( 1 );
_OUTB_CTRL( ps, _CTRL_START_DATAWRITE );
_DO_UDELAY( 1 );
_OUTB_CTRL( ps, _CTRL_END_DATAWRITE );
_DO_UDELAY( 2 );
}
break;
default:
for (; size; size--, pBuffer++) {
_OUTB_DATA( ps, *pBuffer );
_DO_UDELAY( 1 );
_OUTB_CTRL( ps, _CTRL_START_DATAWRITE );
_DO_UDELAY( 2 );
_OUTB_CTRL( ps, _CTRL_END_DATAWRITE );
_DO_UDELAY( 3 );
}
break;
}
DBG( DBG_IO , "... done.\n" );
}
/** set the scanner to "read" data mode
*/
static void ioEnterReadMode( pScanData ps )
{
if( ps->IO.portMode != _PORT_SPP ) {
_DO_UDELAY( 1 );
IORegisterToScanner( ps, ps->RegEPPEnable );
if( _IS_ASIC98( ps->sCaps.AsicID ))
ps->IO.useEPPCmdMode = _TRUE;
}
if( _ASIC_IS_98003 == ps->sCaps.AsicID )
ps->IO.bOldControlValue = _INB_CTRL( ps );
/* ask ASIC to enter read mode */
IORegisterToScanner( ps, ps->RegReadDataMode );
}
/************************ exported functions *********************************/
/** here we do some init work
*/
_LOC int IOInitialize( pScanData ps )
{
DBG( DBG_HIGH, "IOInitialize()\n" );
if( NULL == ps )
return _E_NULLPTR;
if( _IS_ASIC98(ps->sCaps.AsicID)) {
ps->OpenScanPath = ioP98OpenScanPath;
ps->ReadWriteTest = ioP98ReadWriteTest;
} else if( _IS_ASIC96(ps->sCaps.AsicID)) {
ps->OpenScanPath = ioP96OpenScanPath;
} else {
DBG( DBG_HIGH , "NOT SUPPORTED ASIC !!!\n" );
return _E_NOSUPP;
}
ps->CloseScanPath = ioCloseScanPath;
ps->Device.ReadData = ioReadFunc[ps->IO.portMode].func;
DBG( DBG_HIGH, "* using readfunction >%s<\n",
ioReadFunc[ps->IO.portMode].name );
return _OK;
}
/** Write specific length buffer to scanner
* The scan path is already established
*/
_LOC void IOMoveDataToScanner( pScanData ps, pUChar pBuffer, ULong size )
{
#ifdef DEBUG
if( 0 == ps->IO.bOpenCount )
DBG( DBG_IO, "IOMoveDataToScanner - no connection!\n" );
#endif
IORegisterToScanner( ps, ps->RegInitDataFifo );
IORegisterToScanner( ps, ps->RegWriteDataMode );
ioSPPWrite( ps, pBuffer, size );
}
/** Calling SITUATION: Scanner path is established.
* download a scanstate-table
*/
_LOC void IODownloadScanStates( pScanData ps )
{
TimerDef timer;
#ifdef DEBUG
if( 0 == ps->IO.bOpenCount )
DBG( DBG_IO, "IODownloadScanStates - no connection!\n" );
#endif
IORegisterToScanner( ps, ps->RegScanStateControl );
ioSPPWrite( ps, ps->a_nbNewAdrPointer, _SCANSTATE_BYTES );
if( ps->Scan.fRefreshState ) {
IORegisterToScanner( ps, ps->RegRefreshScanState );
MiscStartTimer( &timer, (_SECOND/2));
do {
if (!( IOGetScanState( ps, _TRUE) & _SCANSTATE_STOP))
break;
}
while( !MiscCheckTimer(&timer));
}
}
/** Calling SITUATION: Scanner path is established.
* Write a data to asic
*/
_LOC void IODataToScanner( pScanData ps, Byte bValue )
{
ULong deltime = 4;
#ifdef DEBUG
if( 0 == ps->IO.bOpenCount )
DBG( DBG_IO, "IODataToScanner - no connection!\n" );
#endif
if( ps->IO.delay < 2 )
deltime = 2;
/* output data */
_OUTB_DATA( ps, bValue );
_DO_UDELAY( deltime );
/* notify asic there is data */
_OUTB_CTRL( ps, _CTRL_START_DATAWRITE );
_DO_UDELAY( deltime );
/* end write cycle */
_OUTB_CTRL( ps, _CTRL_END_DATAWRITE );
_DO_UDELAY( deltime-1 );
}
/** Calling SITUATION: Scanner path is established.
* Write a data to specific asic's register
*/
_LOC void IODataToRegister( pScanData ps, Byte bReg, Byte bData )
{
#ifdef DEBUG
if( 0 == ps->IO.bOpenCount )
DBG( DBG_IO, "IODataToRegister - no connection!\n" );
#endif
/* specify register */
IORegisterToScanner( ps, bReg );
/* then write the content */
IODataToScanner( ps, bData );
}
/** Calling SITUATION: Scanner path is established.
* Read the content of specific asic's register
*/
_LOC Byte IODataFromRegister( pScanData ps, Byte bReg )
{
IORegisterToScanner( ps, bReg );
if( 0 == ps->IO.delay )
return ioDataFromSPPFast( ps );
else if( 1 == ps->IO.delay )
return ioDataFromSPPMiddle( ps );
else if( 2 == ps->IO.delay )
return ioDataFromSPPSlow( ps );
else
return ioDataFromSPPSlowest( ps );
}
/** Calling SITUATION: Scanner path is established.
* Write a register to asic (used for a command without parameter)
*/
_LOC void IORegisterToScanner( pScanData ps, Byte bReg )
{
#ifdef DEBUG
if( 0 == ps->IO.bOpenCount )
DBG( DBG_IO, "IORegisterToScanner - no connection!\n" );
#endif
/*
* write data to port
*/
_OUTB_DATA( ps, bReg );
/*
* depending on the mode, generate the trigger signals
*/
if( ps->IO.useEPPCmdMode ) {
_DO_UDELAY( 5 );
_OUTB_CTRL( ps, _CTRL_EPPSIGNAL_WRITE); /* 0xc5 */
_DO_UDELAY( 5 );
_OUTB_CTRL( ps, _CTRL_EPPTRIG_REGWRITE);/* 0xcd */
_DO_UDELAY( 5 );
_OUTB_CTRL( ps, _CTRL_EPPSIGNAL_WRITE); /* 0xc5 */
_DO_UDELAY( 5 );
_OUTB_CTRL( ps, _CTRL_END_REGWRITE); /* 0xc4 */
} else {
if( ps->IO.delay < 2 ) {
_DO_UDELAY( 1 );
_OUTB_CTRL( ps, _CTRL_START_REGWRITE);
_DO_UDELAY( 1 );
_OUTB_CTRL( ps, _CTRL_END_REGWRITE);
} else {
_DO_UDELAY( 2 );
_OUTB_CTRL( ps, _CTRL_START_REGWRITE);
_DO_UDELAY( 2 );
_OUTB_CTRL( ps, _CTRL_END_REGWRITE);
_DO_UDELAY( 2 );
}
}
}
/** write data to the DAC - ASIC 98001/3 only
*/
_LOC void IODataRegisterToDAC( pScanData ps, Byte bReg, Byte bData )
{
ULong i;
IODataToRegister( ps, ps->RegADCAddress, bReg );
IODataToRegister( ps, ps->RegADCData, bData );
IODataToRegister( ps, ps->RegADCSerialOutStr, bData );
/* TEST: ORG was 1 ms for ASIC 98001 */
_DO_UDELAY( 12 );
for( i = 4; i; i-- ) {
_OUTB_CTRL( ps, _CTRL_START_DATAWRITE );
_DO_UDELAY( 5 );
_OUTB_CTRL( ps, _CTRL_END_DATAWRITE );
_DO_UDELAY( 12 );
}
}
/** Calling SITUATION: Scanner path was not established.
* Read the content of specific asics' register
*/
_LOC Byte IODataRegisterFromScanner( pScanData ps, Byte bReg )
{
Byte bData;
ps->OpenScanPath( ps );
bData = IODataFromRegister( ps, bReg );
ps->CloseScanPath( ps );
return bData;
}
/** Calling SITUATION: Scanner path not established.
* Write a value of register to asic
*/
_LOC void IOCmdRegisterToScanner( pScanData ps, Byte bReg, Byte bData )
{
ps->OpenScanPath( ps );
IODataToRegister( ps, bReg, bData );
ps->CloseScanPath( ps );
}
/** Calling SITUATION: Scanner path not established.
* Write a register to asic (used for a command without parameter)
*/
_LOC void IORegisterDirectToScanner( pScanData ps, Byte bReg )
{
ps->OpenScanPath( ps ); /* establish the connection */
IORegisterToScanner( ps, bReg ); /* write register to asic */
ps->CloseScanPath( ps ); /* disconnect */
}
/** perform a SW reset of ASIC 98003 models
*/
_LOC void IOSoftwareReset( pScanData ps )
{
if( _ASIC_IS_98003 != ps->sCaps.AsicID )
return;
ps->OpenScanPath( ps );
IODataToRegister( ps, ps->RegTestMode, _SW_TESTMODE );
ioSwitchToSPPMode( ps );
_OUTB_DATA( ps, _RESET1ST );
_DODELAY( 5 );
_OUTB_DATA( ps, _RESET2ND );
_DODELAY( 5 );
_OUTB_DATA( ps, _RESET3RD );
_DODELAY( 5 );
_OUTB_DATA( ps, _RESET4TH );
_DODELAY( 5 );
ioRestoreParallelMode( ps );
/* reset test mode register */
IODataToRegister( ps, ps->RegTestMode, 0 );
IODataToRegister( ps, ps->RegScanControl, ps->AsicReg.RD_ScanControl );
ps->CloseScanPath( ps );
}
/** Read specific length data from scanner and the method depends on the
* mode defined in registry.
*/
_LOC void IOReadScannerImageData( pScanData ps, pUChar pBuf, ULong size )
{
if( _ASIC_IS_98003 != ps->sCaps.AsicID )
ps->OpenScanPath( ps);
if( _IS_ASIC98( ps->sCaps.AsicID))
IODataToRegister( ps, ps->RegModeControl, ps->AsicReg.RD_ModeControl );
/* enter read mode */
ioEnterReadMode( ps );
/* call corresponding read proc */
ps->Device.ReadData( ps, pBuf, size );
/* Clear EPP/ECP read mode by simply close scanner path and re-open it */
ps->CloseScanPath( ps );
if( _ASIC_IS_98003 == ps->sCaps.AsicID )
ps->OpenScanPath( ps );
}
#ifdef __KERNEL__
/** the wrapper functions to support delayed and non-delayed I/O
*/
_LOC void IOOut( Byte data, UShort port )
{
DBG( DBG_IOF, "outb(0x%04x, 0x%02x)\n", port, data );
outb( data, port );
}
_LOC void IOOutDelayed( Byte data, UShort port )
{
DBG( DBG_IOF, "outb_p(0x%04x, 0x%02x)\n", port, data );
outb_p( data, port );
}
_LOC Byte IOIn( UShort port )
{
#ifdef DEBUG
Byte data = inb( port );
DBG( DBG_IOF, "inb(0x%04x) = 0x%02x\n", port, data );
return data;
#else
return inb( port );
#endif
}
_LOC Byte IOInDelayed( UShort port )
{
#ifdef DEBUG
Byte data = inb_p( port );
DBG( DBG_IOF, "inb_p(0x%04x) = 0x%02x\n", port, data );
return data;
#else
return inb_p( port );
#endif
}
#endif /* guard __KERNEL__ */
/* END PLUSTEK-PP_IO.C ......................................................*/
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