/* @file plustek-pp_p48xx.c * @brief here we have all functionality according to the ASIC96001/3 based * models. * * based on sources acquired from Plustek Inc. * Copyright (C) 1998 Plustek Inc. * Copyright (C) 2000-2013 Gerhard Jaeger * also based on the work done by Rick Bronson * * History: * - 0.30 - initial version * - 0.31 - fixed a bug for the return value in p48xxDoTest * - added additional debug messages * - added function p48xxCheck4800Memory * - 0.32 - added debug messages * - fixed a bug in p48xxDoTest * - disabled RD_WatchDogControl, lamp will be controlled by driver * - 0.33 - added function p48xxSetAsicRegisters() * - fixed a bug in p48xxDoTest (reset the ASIC registers) * - removed p48xxPositionLamp * - 0.34 - added some comments * - 0.35 - added some comments * - 0.36 - added function p48xxInitAllModules() to allow reinit of the modules * - switching from Full- to Halfstep at ps->PhysicalDpi now in * - p48xxSetGeneralRegister * - fixed the color-inverse problem for model OP4800 * - 0.37 - move p48xxOpenScanPath, p48xxCloseScanPath * and p48xxRegisterToScanner to io.c * - removed // comments * - added override for A3I scanner * - 0.38 - added function p48xxPutToIdleMode() * - added function p48xxCalibration * - 0.39 - added A3I stuff * - 0.40 - disabled A3I stuff * - 0.41 - no changes * - 0.42 - changed include names * - 0.43 - no changes * - 0.44 - fix format string issues, as Long types default to int32_t * now * . *

* 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, see . * * 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. *

*/ #include "plustek-pp_scan.h" /*************************** some definitions ********************************/ #define _TEST_SZ 2048 /* always use 2048 for mem size (= one bank) */ #define _START_VAL 0x12345678 /* pick a non-zero starting value for our long */ #define _BankAndSizeForTest _MemBankSize2k /* always use 2k for mem test */ /*************************** local functions *********************************/ /*............................................................................. * 1) Set asic to PROGRAM mode * 2) Select the memory bank and size * 3) Initiate data fifo */ static void p48xxSetMemoryBankForProgram( pScanData ps , Byte bBankAndSize ) { /* enter program mode */ IODataToRegister( ps, ps->RegModeControl, _ModeProgram ); /* bank and size */ IODataToRegister( ps, ps->RegMemAccessControl, bBankAndSize ); /* initiate data fifo */ IORegisterToScanner( ps, ps->RegInitDataFifo ); } /*............................................................................. * use the internal memory of a scanner to find the model */ static int p48xxDoTest( pScanData ps ) { UChar tmpByte; int retval; ULong adder, ul, cntr; pULong buffer; DBG( DBG_LOW, "p48xxDoTest()\n" ); buffer = _KALLOC( sizeof(UChar) * _TEST_SZ, GFP_KERNEL ); if( NULL == buffer ) return _E_ALLOC; retval = _E_NO_DEV; /* * do a memory test to determine how much memory this unit has, in the * process we can figure out if it's a 4830 or a 9630. NOTE: the ram * seems to be mirrored such that if you have a unit with only 32k it's * mirrored 4 times to fill the 128k (2k * (_MemBankMask + 1)) space, * so we will run a 32 bit incrementing pattern over the entire 128k and * look for the 1st page (2k) to fail */ adder = 0; for (cntr = _BankAndSizeForTest; cntr < _BankAndSizeForTest + _MemBanks; cntr++) { ps->OpenScanPath( ps ); p48xxSetMemoryBankForProgram( ps, cntr ); /* prepare content, incrementing 32 val */ for (ul = 0; ul < _TEST_SZ / sizeof(ULong); ul++) buffer[ul] = ul + adder + _START_VAL; /* fill to buffer */ IOMoveDataToScanner( ps, (pUChar)buffer, _TEST_SZ ); /* * now check bank 0 to see if it got overwritten * bank 0, size 2k */ p48xxSetMemoryBankForProgram( ps, _BankAndSizeForTest ); ps->CloseScanPath( ps ); /* read data back */ IOReadScannerImageData( ps, (pUChar)buffer, _TEST_SZ ); /* check */ for (ul = 0; ul < _TEST_SZ / sizeof(ULong); ul++) { if (buffer[ul] != ul + _START_VAL) { break; } } /* if fail */ if (ul != _TEST_SZ / sizeof (ULong)) { DBG( DBG_LOW, "Bank 0 overwritten\n" ); break; } /* now check current bank */ ps->OpenScanPath( ps ); p48xxSetMemoryBankForProgram( ps, cntr ); ps->CloseScanPath( ps ); /* read data back */ IOReadScannerImageData( ps, (pUChar)buffer, _TEST_SZ); /* check if fail */ for( ul = 0; ul < _TEST_SZ / sizeof(ULong); ul++ ) { if( buffer[ul] != ul + adder + _START_VAL ) break; } /* check if fail */ if (ul != _TEST_SZ / sizeof(ULong)) { DBG( DBG_LOW, "Bank not present, error at pos %u (%u)\n", ul, (ULong)(_TEST_SZ / sizeof(ULong))); break; } adder += _TEST_SZ / sizeof(ULong); } _KFREE( buffer ); DBG( DBG_LOW, "found %d bytes of memory\n", _TEST_SZ * (cntr - _BankAndSizeForTest)); if( cntr == _BankAndSizeForTest ) { DBG( DBG_LOW, "No memory ! No scanner...\n" ); return retval; } #ifdef DEBUG tmpByte = IODataRegisterFromScanner( ps, 0x18 ); DBG( DBG_LOW, "tmpByte[0x18] = 0x%02x\n",tmpByte ); #endif tmpByte = IODataRegisterFromScanner( ps, 0x0e ); DBG( DBG_LOW, "tmpByte = 0x%02x, cntr = %u, AsicId = 0x%02x\n", tmpByte, cntr, ps->sCaps.AsicID ); /* 128k */ if ((_TEST_SZ * (cntr - _BankAndSizeForTest) == 1 << 17) && (ps->sCaps.AsicID == _ASIC_IS_96003)) { /* * if 128k then must be a 9630 or above * hack, test for 12000P, The 9630 returns an 0x08 */ if ( tmpByte == 0x02 ) { /* * as we currently can't automagically detect an A3I we have to * use the override switch */ if( _OVR_PLUSTEK_A3I == ps->ModelOverride ) { DBG( DBG_LOW, "Model Override --> A3I\n" ); ModelSetA3I( ps ); } else { ModelSet12000( ps ); DBG( DBG_LOW, "It seems we have a 12000P/96000P\n" ); } } else { ModelSet9630( ps ); DBG( DBG_LOW, "It seems we have a 9630\n" ); } retval = _OK; } else { DBG( DBG_LOW, "Scanner is not a 9630 or above\n"); if ( tmpByte != 0x0f ) { DBG( DBG_LOW, "Looks like a 600!\n" ); if (( 0x08 == tmpByte ) && ((_TEST_SZ * (cntr - _BankAndSizeForTest)) == 32768 )) { DBG( DBG_LOW, "But it is a 4830P!!! " "(by mkochano@ee.pw.edu.pl)\n" ); ModelSet4830( ps ); } else { ModelSet600( ps ); } } #ifdef DEBUG else DBG( DBG_LOW, "It seems we have a 4830\n" ); #endif retval = _OK; } return retval; } /*............................................................................. * setup ASIC registers and clear all scan states (no stepping) */ static void p48xxSetAsicRegisters( pScanData ps ) { memset( &ps->AsicReg, 0, sizeof(ps->AsicReg)); memset( &ps->Asic96Reg, 0, sizeof(ps->Asic96Reg)); memset( ps->a_nbNewAdrPointer, 0, _SCANSTATE_BYTES ); ps->AsicReg.RD_LineControl = ps->TimePerLine; ps->AsicReg.RD_ScanControl = _SCAN_LAMP_ON; ps->AsicReg.RD_ModelControl = ps->Device.ModelCtrl | _ModelWhiteIs0; ps->AsicReg.RD_Origin = 0; ps->AsicReg.RD_Pixels = 5110; /*ps->RdPix;*/ ps->Asic96Reg.RD_MotorControl = 0; ps->Asic96Reg.RD_WatchDogControl = 0; /* org. val = 0x8f; */ IOPutOnAllRegisters( ps ); } /*............................................................................. * use the internal memory of a scanner to find the model */ static int p48xxCheck4800Memory( pScanData ps ) { int retval; ULong ul; pUChar buffer; DBG( DBG_LOW, "p48xxCheck4800Memory()\n" ); buffer = _KALLOC( 2560, GFP_KERNEL ); /* 1280: Read,1280:Write */ if( NULL == buffer ) return _E_ALLOC; retval = _OK; /* bank 0, size 2k */ ps->OpenScanPath( ps ); p48xxSetMemoryBankForProgram( ps, _BankAndSizeForTest ); for (ul = 0; ul < 1280; ul++) buffer[ul] = (UChar)ul; /* prepare content */ IOMoveDataToScanner( ps, buffer, 1280 ); /* fill to buffer */ p48xxSetMemoryBankForProgram( ps, _BankAndSizeForTest ); ps->CloseScanPath( ps ); /* read data back */ IOReadScannerImageData( ps, buffer + 1280, 1280 ); for( ul = 0; ul < 1280; ul++ ) { if( buffer[ul] != buffer[ul+1280] ) { DBG( DBG_HIGH, "Error in memory test at pos %u (%u != %u)\n", ul, buffer[ul], buffer[ul+1280] ); retval = _E_NO_DEV; break; } } _KFREE(buffer); return retval; } /*............................................................................. * call all other modules, to initialize themselves */ static int p48xxInitAllModules( pScanData ps ) { int result; result = DacInitialize( ps ); if( _OK != result ) return result; result = ImageInitialize( ps ); if( _OK != result ) return result; result = IOFuncInitialize( ps ); if( _OK != result ) return result; result = IOInitialize( ps ); if( _OK != result ) return result; result = MotorInitialize( ps ); if( _OK != result ) return result; /* * in debug version, check all function pointers */ #ifdef DEBUG if( _FALSE == MiscAllPointersSet( ps )) return _E_INTERNAL; #endif return _OK; } /*............................................................................. * */ static int p48xxReadWriteTest( pScanData ps ) { int retval; DBG( DBG_LOW, "p48xxReadWriteTest()\n" ); /* * determine the model by the ASIC type (except for 4830/9630) * might want to make a SetModelCommon() someday for this... */ ps->RedDataReady = 0x01; /* normal for Red and Green */ ps->GreenDataReady = 0x02; ps->AsicRedColor = 0x01; ps->AsicGreenColor = 0x03; /* * if not already set, try to find ASIC type (96001 or 96003) */ if ( _NO_BASE == ps->sCaps.wIOBase ) { /* get copy of asic id */ ps->sCaps.AsicID = IODataRegisterFromScanner( ps, ps->RegAsicID ); if ( _ASIC_IS_96003 == ps->sCaps.AsicID ) { /* actually either a 4830, 9630, 12000, find out later */ DBG( DBG_LOW, "Found a 96003 ASIC at Reg 0x%x\n", ps->RegAsicID ); ModelSet4830( ps ); } else { if ( _ASIC_IS_96001 == ps->sCaps.AsicID ) { DBG( DBG_LOW, "Found a 96001 ASIC at Reg 0x%x\n", ps->RegAsicID ); ModelSet4800( ps ); } else { DBG( DBG_LOW, "Can't find your model, asic = 0x%x\n", ps->sCaps.AsicID ); return _E_NO_ASIC; } } } /* * set the registers according to the assumptions above */ p48xxSetAsicRegisters( ps ); if ( _ASIC_IS_96003 == ps->sCaps.AsicID ) { retval = p48xxDoTest( ps ); /* * as we may now have detected another model, we have to set * the registers to their new values... * and maybe the modules have to be reset as well */ if( _OK == retval ) { p48xxSetAsicRegisters( ps ); retval = p48xxInitAllModules( ps ); } return retval; } /* * this part will be reached only for the 4800 - ASIC 96001 * we check only the memory as the original driver does */ return p48xxCheck4800Memory( ps ); } /*............................................................................. * 1) Setup the registers of asic. * 2) Determine which type of CCD we are using * 3) According to the CCD, prepare the CCD dependent veriables * SONY CCD: * The color exposure sequence: Red, Green (after 11 red lines), * Blue (after 8 green lines) * TOSHIBA CCD: * The color exposure sequence: Red, Blue (after 11 red lines), * Green (after 8 blue lines) */ static void p48xxSetupScannerVariables( pScanData ps ) { UChar tmp; TimerDef timer; DBG( DBG_LOW, "p48xxSetupScannerVariables()\n" ); ps->OpenScanPath( ps ); IODataToRegister( ps, ps->RegModelControl2, _Model2ChannelMult ); if( 2 == IODataFromRegister( ps, ps->RegWriteIOBusDecode1 )) { DBG( DBG_LOW, "Scanner has 97003 ASIC too.\n" ); ps->f97003 = _TRUE; ps->b97003DarkR = 8; ps->b97003DarkG = 8; ps->b97003DarkB = 8; ps->Asic96Reg.u26.RD_ModelControl2 = _Model2ChannelMult; } else { DBG( DBG_LOW, "No ASIC 97003 found.\n" ); ps->f97003 = _FALSE; ps->Asic96Reg.u26.RD_ModelControl2 = _Model2DirectOutPort; } IODataToRegister( ps, ps->RegModelControl2, ps->Asic96Reg.u26.RD_ModelControl2 ); tmp = IODataFromRegister( ps, ps->RegStatus ); DBG( DBG_LOW, "Status-Register = 0x%02X\n", tmp ); #ifdef DEBUG if( tmp & _FLAG_P96_MOTORTYPE ) { DBG( DBG_LOW, "Scanner has Full/Half Stepping drive\n" ); } else { DBG( DBG_LOW, "Scanner has Micro Stepping drive\n" ); } #endif if( tmp & _FLAG_P96_CCDTYPE) { ps->fSonyCCD = _FALSE; DBG( DBG_LOW, "CCD is NEC/TOSHIBA Type\n" ); } else { ps->fSonyCCD = _TRUE; DBG( DBG_LOW, "CCD is SONY Type\n" ); } ps->CloseScanPath( ps ); ps->b1stColorByte = ps->AsicRedColor; ps->b1stColor = ps->RedDataReady; if (ps->fSonyCCD) { ps->b2ndColorByte = ps->AsicGreenColor; ps->b2ndColor = ps->GreenDataReady; ps->b3rdColorByte = _ASIC_BLUECOLOR; ps->b3rdColor = _BLUE_DATA_READY; } else { /* NEC/Toshiba CCD */ ps->b2ndColorByte = _ASIC_BLUECOLOR; ps->b2ndColor = _BLUE_DATA_READY; ps->b3rdColorByte = ps->AsicGreenColor; ps->b3rdColor = ps->GreenDataReady; } ps->b1stMask = (Byte)~ps->b1stColor; ps->b2ndMask = (Byte)~ps->b2ndColor; ps->b3rdMask = (Byte)~ps->b3rdColor; ps->b1stLinesOffset = 17; ps->b2ndLinesOffset = 9; /* * calculate I/O Timer * if we cannot read 200 lines within 1 second, the I/O time has to add 2 * CalculateIOTime () */ if( _PORT_SPP != ps->IO.portMode ) { UShort wLines = 200; pUChar pBuf; pBuf = _KALLOC((_BUF_SIZE_BASE_CONST * 2), GFP_KERNEL ); if ( NULL != pBuf ) { MiscStartTimer( &timer, _SECOND ); do { IOReadScannerImageData( ps, pBuf, (_BUF_SIZE_BASE_CONST * 2)); wLines--; } while (!MiscCheckTimer( &timer) && wLines); if( !wLines ) ps->bExtraAdd = 0; else ps->bExtraAdd = 2; _KFREE( pBuf ); } else { ps->bExtraAdd = 2; /* poor resource */ } } else { ps->bExtraAdd = 0; } } /*............................................................................. * */ static void p48xxSetGeneralRegister( pScanData ps ) { if( MODEL_OP_A3I == ps->sCaps.Model ) { ps->AsicReg.RD_ModelControl = _ModelDpi400 | _ModelWhiteIs0 | _ModelMemSize128k4; } ps->AsicReg.RD_ModeControl = _ModeScan; /* WORK: ps->PhysicalDpi should be correct, but the we have to work * on motor.c again to use other running-tables * if ( ps->DataInf.xyAppDpi.y <= ps->PhysicalDpi ) { */ if ( ps->DataInf.xyAppDpi.y <= 300 ) { /* HEINER:A3I if ( ps->DataInf.xyAppDpi.y <= ps->PhysicalDpi ) { */ ps->Asic96Reg.RD_MotorControl = (ps->FullStep | ps->IgnorePF | ps->MotorOn | _MotorDirForward); } else { ps->Asic96Reg.RD_MotorControl = (ps->IgnorePF | ps->MotorOn | _MotorDirForward); } if ( ps->DataInf.wPhyDataType == COLOR_BW ) { ps->AsicReg.RD_ScanControl = ps->bLampOn; if (!(ps->DataInf.dwScanFlag & SCANDEF_Inverse)) ps->AsicReg.RD_ScanControl |= _P96_SCANDATA_INVERT; } else { ps->AsicReg.RD_ScanControl = ps->bLampOn | _SCAN_BYTEMODE; if (ps->DataInf.dwScanFlag & SCANDEF_Inverse) ps->AsicReg.RD_ScanControl |= _P96_SCANDATA_INVERT; } if (ps->DataInf.xyPhyDpi.x <= 200) ps->AsicReg.RD_ScanControl |= _SCAN_1ST_AVERAGE; DBG( DBG_LOW, "RD_ModeControl = 0x%02x\n", ps->AsicReg.RD_ModeControl ); DBG( DBG_LOW, "RD_MotorControl = 0x%02x\n", ps->Asic96Reg.RD_MotorControl ); DBG( DBG_LOW, "RD_ScanControl = 0x%02x\n", ps->AsicReg.RD_ScanControl ); } /*............................................................................. * */ static void p48xxSetupScanningCondition( pScanData ps ) { DBG( DBG_LOW, "p48xxSetupScanningCondition()\n" ); IORegisterDirectToScanner( ps, ps->RegInitDataFifo ); /* Cal64kTime (); */ if( MODEL_OP_A3I == ps->sCaps.Model ) ps->wLinesPer64kTime = (UShort)(65555UL / ps->DataInf.dwAsicBytesPerPlane * 5UL); else ps->wLinesPer64kTime = (UShort)(65555UL / ps->DataInf.dwAsicBytesPerPlane * 10UL / 3UL); DBG( DBG_LOW, "wLinesPer64kTime = %u\n", ps->wLinesPer64kTime ); ps->InitialSetCurrentSpeed( ps ); DBG( DBG_LOW, "Current Speed = %u\n", ps->bCurrentSpeed ); ps->bMinReadFifo = (Byte)((ps->DataInf.dwAsicBytesPerPlane + 511) / 512); DBG( DBG_LOW, "MinReadFifo = %u\n", ps->bMinReadFifo ); p48xxSetGeneralRegister( ps ); /* * if speed is not the fastest and DPI is less than 400, do half steps */ if( ps->DataInf.wPhyDataType >= COLOR_256GRAY && !(ps->bCurrentSpeed & 1) && (ps->DataInf.xyAppDpi.y <= 300)) { /* HEINER:A3I if( !(ps->bCurrentSpeed & 1) && (ps->DataInf.xyAppDpi.y <= ps->PhysicalDpi)) { */ ps->fHalfStepTableFlag = _TRUE; ps->Asic96Reg.RD_MotorControl &= ps->StepMask; } ps->AsicReg.RD_Dpi = ps->DataInf.xyPhyDpi.x; DBG( DBG_LOW, "RD_Dpi = %u\n", ps->AsicReg.RD_Dpi ); /* SetStartStopRegister (ps) */ ps->AsicReg.RD_Origin = (UShort)(ps->Offset70 + ps->Device.DataOriginX + ps->DataInf.crImage.x); if (ps->DataInf.wPhyDataType < COLOR_256GRAY) { ps->AsicReg.RD_Pixels = (UShort)(ps->DataInf.dwAsicPixelsPerPlane + 7) & 0xfff8; } else { ps->AsicReg.RD_Pixels = (UShort)ps->DataInf.dwAsicPixelsPerPlane; } DBG( DBG_LOW, "RD_Pixels = %u\n", ps->AsicReg.RD_Pixels ); /* SetupMotorStart () */ IORegisterDirectToScanner( ps, ps->RegInitDataFifo); ps->SetupMotorRunTable( ps ); IOSetToMotorRegister( ps ); ps->pCurrentColorRunTable = ps->pColorRunTable; ps->bCurrentLineCount = 0; IOPutOnAllRegisters( ps ); ps->OpenScanPath( ps ); /* * when using the full-step speed on 600 dpi models, then set * the motor into half-step mode, to avoid that the scanner hits * the back of its cover */ if((600 == ps->PhysicalDpi) && (1 == ps->bCurrentSpeed)) { ps->Asic96Reg.RD_MotorControl &= ~ps->FullStep; } IODataToRegister( ps, ps->RegMotorControl, (Byte)(ps->Asic96Reg.RD_MotorControl & ~ps->MotorOn)); IODataToRegister( ps, ps->RegMotorControl, ps->Asic96Reg.RD_MotorControl); IORegisterToScanner( ps, ps->RegInitDataFifo ); ps->CloseScanPath( ps ); } /*............................................................................. * switch the motor off and put the scanner into idle mode */ static void p48xxPutToIdleMode( pScanData ps ) { DBG( DBG_LOW, "Putting Scanner (ASIC 96001/3) into Idle-Mode\n" ); /* * turn off motor */ ps->Asic96Reg.RD_MotorControl = 0; IOCmdRegisterToScanner( ps, ps->RegMotorControl, 0 ); } /*............................................................................. * for P96001/3 ASIC * do all the preliminary stuff here (calibrate the scanner and move the * sensor to it´s start position, also setup the driver for the * current run) */ static int p48xxCalibration( pScanData ps ) { DBG( DBG_LOW, "p48xxCalibration()\n" ); ps->Scan.bFifoSelect = ps->RegGFifoOffset; while (_TRUE) { _ASSERT(ps->WaitForShading); if (ps->WaitForShading( ps )) { if(!(ps->DataInf.dwScanFlag & SCANDEF_TPA)) { /* HEINER:A3I disable !! */ MotorP96AheadToDarkArea( ps ); if( ps->Scan.fRefreshState ) { ps->Scan.fRefreshState = _FALSE; if (!ps->fReshaded) { ps->fReshaded = _TRUE; if (ps->fColorMoreRedFlag || ps->fColorMoreBlueFlag) { continue; } } } } break; } else { ps->fScanningStatus = _FALSE; ps->DataInf.dwAppLinesPerArea = 0; return _E_TIMEOUT; } } if((ps->sCaps.AsicID != _ASIC_IS_96001) && (ps->DataInf.wPhyDataType != COLOR_BW)) { DacP96WriteBackToGammaShadingRAM(ps); } if( ps->DataInf.dwScanFlag & SCANDEF_TPA ) { ps->bExtraMotorCtrl = 0; ps->Scan.fMotorBackward = _TRUE; MotorP96ConstantMoveProc( ps, 4000 ); } /* * move sensor and setup scanner for grabbing the picture */ _ASSERT(ps->WaitForPositionY); ps->WaitForPositionY(ps); return _OK; } /************************ exported functions *********************************/ /*............................................................................. * initialize the register values and function calls for the 96001/3 asic */ _LOC int P48xxInitAsic( pScanData ps ) { DBG( DBG_LOW, "P48xxInitAsic()\n" ); ps->IO.bOpenCount = 0; ps->RegSwitchBus = 0; ps->RegReadDataMode = 1; ps->RegWriteDataMode = 2; ps->RegEPPEnable = 3; ps->RegInitDataFifo = 4; ps->RegForceStep = 5; ps->RegInitScanState = 6; ps->RegRefreshScanState = 7; ps->RegStatus = 0x10; ps->RegFifoOffset = 0x11; ps->RegGetScanState = 0x12; ps->RegAsicID = 0x13; /* Determine the asic */ ps->RegReadIOBufBus = 0x17; ps->RegModeControl = 0x18; ps->RegLineControl = 0x19; ps->RegScanControl = 0x1a; ps->RegMotorControl = 0x1b; ps->RegModelControl = 0x1c; ps->RegMemAccessControl = 0x1d; ps->RegDpiLow = 0x1e; ps->RegDpiHigh = 0x1f; ps->RegScanPosLow = 0x20; ps->RegScanPosHigh = 0x21; ps->RegWidthPixelsLow = 0x22; ps->RegWidthPixelsHigh = 0x23; ps->RegThresholdControl = 0x24; ps->RegWatchDogControl = 0x25; ps->RegModelControl2 = 0x26; ps->RegThresholdGapControl = 0x27; ps->RegRedChShadingOffset = 0x28; ps->RegGreenChShadingOffset = 0x29; ps->RegRedDCAdjust = 0x27; /* not sure why these are dup's */ ps->RegGreenDCAdjust = 0x28; ps->RegBlueDCAdjust = 0x29; ps->RegBlueChShadingOffset = 0x2a; ps->RegRedChDarkOffset = 0x2b; ps->RegGreenChDarkOffset = 0x2c; ps->RegBlueChDarkOffset = 0x2d; ps->RegWriteIOBusDecode1 = 0x2e; ps->RegWriteIOBusDecode2 = 0x2f; ps->RegScanStateControl = 0x30; ps->RegRedChEvenOffset = 0x31; ps->RegGreenChEvenOffset = 0x32; ps->RegBlueChEvenOffset = 0x33; ps->RegRedChOddOffset = 0x34; ps->RegGreenChOddOffset = 0x35; ps->RegBlueChOddOffset = 0x36; ps->RegRedGainOutDirect = 0x37; ps->RegGreenGainOutDirect = 0x38; ps->RegBlueGainOutDirect = 0x39; ps->RegLedControl = 0x3a; ps->RegShadingCorrectCtrl = 0x3b; ps->RegScanStateBegin = 0x40; /* (0, 1) */ ps->RegScanStateEnd = 0x5f; /* (62, 63) */ /* * setup function calls */ ps->ReadWriteTest = p48xxReadWriteTest; ps->SetupScannerVariables = p48xxSetupScannerVariables; ps->SetupScanningCondition = p48xxSetupScanningCondition; ps->PutToIdleMode = p48xxPutToIdleMode; ps->Calibration = p48xxCalibration; /* * setup misc */ ps->CtrlReadHighNibble = _CTRL_GENSIGNAL + _CTRL_AUTOLF; ps->CtrlReadLowNibble = _CTRL_GENSIGNAL + _CTRL_AUTOLF + _CTRL_STROBE; ps->MotorFreeRun = 0x80; ps->bLampOn = _SCAN_LAMP_ON; ps->f97003 = _FALSE; /* * initialize the other modules */ return p48xxInitAllModules( ps ); } /* END PLUSTEK-PP_P48xx.C ...................................................*/