/*............................................................................. * Project : SANE library for Plustek flatbed scanners. *............................................................................. */ /** @file plustek-usbscan.c * @brief Scanning... * * Based on sources acquired from Plustek Inc.
* Copyright (C) 2001-2005 Gerhard Jaeger * * History: * - 0.40 - starting version of the USB support * - 0.41 - minor fixes * - 0.42 - added some stuff for CIS devices * - 0.43 - no changes * - 0.44 - added CIS specific settings and calculations * - removed usb_IsEscPressed * - 0.45 - fixed the special setting stuff for CanoScan * - fixed pixel calculation for binary modes * - fixed cancel hang problem * - fixed CIS PhyBytes adjustment * - removed CanoScan specific setting stuff * - 0.46 - fixed problem in usb_SetScanParameters() * - 0.47 - no changes * - 0.48 - minor fixes * - 0.49 - a_bRegs is now part of the device structure * - using now PhyDpi.y as selector for the motor MCLK range * - changed usb_MapDownload prototype * - 0.50 - cleanup * . *
* 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. *
*/ /** array used to get motor-settings and mclk-settings */ static int dpi_ranges[] = { 75,100,150,200,300,400,600,800,1200,2400 }; static u_char bMaxITA; static SANE_Bool m_fAutoPark; static SANE_Bool m_fFirst; static double m_dHDPIDivider; static double m_dMCLKDivider; static ScanParam *m_pParam; static u_char m_bLineRateColor; static u_char m_bCM; static u_char m_bIntTimeAdjust; static u_char m_bOldScanData; static u_short m_wFastFeedStepSize; static u_short m_wLineLength; static u_short m_wStepSize; static u_long m_dwPauseLimit; static SANE_Bool m_fStart = SANE_FALSE; /* Prototype... */ static SANE_Bool usb_DownloadShadingData( Plustek_Device*, u_char ); /** returns the min of the two values val1 and val2 * @param val1 - first parameter * @param val2 - second parameter * @return val1 if val1 < val2, else val1 */ static u_long usb_min( u_long val1, u_long val2 ) { if( val1 > val2 ) return val2; return val1; } /** returns the max of the two values val1 and val2 * @param val1 - first parameter * @param val2 - second parameter * @return val1 if val1 > val2, else val2 */ static u_long usb_max( u_long val1, u_long val2 ) { if( val1 > val2 ) return val1; return val2; } /** Set the horizontal DPI divider. * Affected registers:
* 0x09 - Horizontal DPI divider HDPI_DIV
* * @param dev - pointer to our device structure, * it should contain all we need * @param xdpi - user specified horizontal resolution * @return - the function returns the "normalized" horizontal resolution. */ static u_short usb_SetAsicDpiX( Plustek_Device *dev, u_short xdpi ) { u_short res; ScanDef *scanning = &dev->scanning; DCapsDef *scaps = &dev->usbDev.Caps; u_char *regs = dev->usbDev.a_bRegs; /* limit xdpi to lower value for certain devices... */ if( scaps->OpticDpi.x == 1200 && scanning->sParam.bDataType != SCANDATATYPE_Color && xdpi < 150 && scanning->sParam.bDataType == SCANDATATYPE_BW ) { xdpi = 150; DBG( _DBG_INFO2, "* LIMIT XDPI to %udpi\n", xdpi ); } m_dHDPIDivider = (double)scaps->OpticDpi.x / xdpi; if (m_dHDPIDivider < 1.5) { m_dHDPIDivider = 1.0; regs[0x09] = 0; } else if (m_dHDPIDivider < 2.0) { m_dHDPIDivider = 1.5; regs[0x09] = 1; } else if (m_dHDPIDivider < 3.0) { m_dHDPIDivider = 2.0; regs[0x09] = 2; } else if (m_dHDPIDivider < 4.0) { m_dHDPIDivider = 3.0; regs[0x09] = 3; } else if (m_dHDPIDivider < 6.0) { m_dHDPIDivider = 4.0; regs[0x09] = 4; } else if (m_dHDPIDivider < 8.0) { m_dHDPIDivider = 6.0; regs[0x09] = 5; } else if (m_dHDPIDivider < 12.0) { m_dHDPIDivider = 8.0; regs[0x09] = 6; } else { m_dHDPIDivider = 12.0; regs[0x09] = 7; } /* adjust, if any turbo/preview mode is set, should be 0 here... */ if( regs[0x0a] ) regs[0x09] -= ((regs[0x0a] >> 2) + 2); DBG( _DBG_INFO2, "* HDPI: %.3f\n", m_dHDPIDivider ); res = (u_short)((double)scaps->OpticDpi.x / m_dHDPIDivider); DBG( _DBG_INFO2, "* XDPI=%u, HDPI=%.3f\n", res, m_dHDPIDivider ); return res; } /** * @param dev - pointer to our device structure, * it should contain all we need * @param ydpi - user specified vertical resolution * @return - */ static u_short usb_SetAsicDpiY( Plustek_Device *dev, u_short ydpi ) { ScanDef *scanning = &dev->scanning; DCapsDef *sCaps = &dev->usbDev.Caps; HWDef *hw = &dev->usbDev.HwSetting; u_short wMinDpi, wDpi; if(0 != sCaps->bSensorDistance ) wMinDpi = sCaps->OpticDpi.y / sCaps->bSensorDistance; else wMinDpi = 75; /* Here we might have to check against the MinDpi value ! */ wDpi = (ydpi + wMinDpi - 1) / wMinDpi * wMinDpi; /* * HEINER: added '*2' */ if( wDpi > sCaps->OpticDpi.y * 2 ) wDpi = sCaps->OpticDpi.y * 2; if( (hw->motorModel == MODEL_Tokyo600) || !_IS_PLUSTEKMOTOR(hw->motorModel)) { /* return wDpi; */ } else if( sCaps->wFlags & DEVCAPSFLAG_Adf && sCaps->OpticDpi.x == 600 ) { /* for ADF scanner color mode 300 dpi big noise */ if( scanning->sParam.bDataType == SCANDATATYPE_Color && scanning->sParam.bBitDepth > 8 && wDpi < 300 ) { wDpi = 300; } } else if( sCaps->OpticDpi.x == 1200 ) { if( scanning->sParam.bDataType != SCANDATATYPE_Color && wDpi < 200) { wDpi = 200; } } DBG( _DBG_INFO2, "* YDPI=%u, MinDPIY=%u\n", wDpi, wMinDpi ); return wDpi; } /** set color mode and sensor configuration stuff, according to the data mode * Affected registers:
* 0x26 - 0x27 - Color Mode settings
* 0x0f - 0x18 - Sensor Configuration - directly from the HwDefs
* 0x09 - add Data Mode and Pixel Packing
* * @param dev - pointer to our device structure, * it should contain all we need * @param pParam - pointer to the current scan parameters * @return - Nothing */ static void usb_SetColorAndBits( Plustek_Device *dev, ScanParam *pParam ) { HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; /* Set pixel packing, data mode and AFE operation */ switch( pParam->bDataType ) { case SCANDATATYPE_Color: m_bCM = 3; regs[0x26] = hw->bReg_0x26 & 0x7; /* if set to one channel color, we select the blue channel * as input source, this is the default, but I don't know * what happens, if we deselect this */ if( regs[0x26] & _ONE_CH_COLOR ) regs[0x26] |= (_BLUE_CH | 0x01); memcpy( ®s[0x0f], hw->bReg_0x0f_Color, 10 ); break; case SCANDATATYPE_Gray: m_bCM = 1; regs[0x26] = (hw->bReg_0x26 & 0x18) | 0x04; memcpy( ®s[0x0f], hw->bReg_0x0f_Mono, 10 ); break; case SCANDATATYPE_BW: m_bCM = 1; regs[0x26] = (hw->bReg_0x26 & 0x18) | 0x04; memcpy( ®s[0x0f], hw->bReg_0x0f_Mono, 10 ); break; } regs[0x27] = hw->bReg_0x27; if( pParam->bBitDepth > 8 ) { regs[0x09] |= 0x20; /* 14/16bit image data */ } else if( pParam->bBitDepth == 8 ) { regs[0x09] |= 0x18; /* 8bits/per pixel */ } } /** Calculate basic image settings like the number of physical bytes per line * etc... * Affected registers:
* 0x22/0x23 - Data Pixels Start
* 0x24/0x25 - Data Pixels End
* 0x4a/0x4b - Full Steps to Skip at Start of Scan * * @param dev - pointer to our device structure, * it should contain all we need * @param pParam - pointer to the current scan parameters * @return - Nothing */ static void usb_GetScanRect( Plustek_Device *dev, ScanParam *pParam ) { u_short wDataPixelStart, wLineEnd; DCapsDef *sCaps = &dev->usbDev.Caps; HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; /* Convert pixels to physical dpi based */ pParam->Size.dwValidPixels = pParam->Size.dwPixels * pParam->PhyDpi.x / pParam->UserDpi.x; /* HEINER: check ADF stuff... */ #if 0 if(pParam->bCalibration != PARAM_Gain && pParam->bCalibration != PARAM_Offset && ScanInf.m_fADF) wDataPixelStart = 2550 * sCaps->OpticDpi.x / 300UL - (u_short)(m_dHDPIDivider * pParam->Size.dwValidPixels + 0.5); else #endif wDataPixelStart = (u_short)((u_long) pParam->Origin.x * sCaps->OpticDpi.x / 300UL); /* Data output from NS983X should be times of 2-byte and every line * will append 2 status bytes */ if (pParam->bBitDepth == 1) { /* Pixels should be times of 16 */ pParam->Size.dwPhyPixels = (pParam->Size.dwValidPixels + 15UL) & 0xfffffff0UL; pParam->Size.dwPhyBytes = pParam->Size.dwPhyPixels / 8UL + 2UL; } else if (pParam->bBitDepth == 8) { /* Pixels should be times of 2 */ pParam->Size.dwPhyPixels = (pParam->Size.dwValidPixels + 1UL) & 0xfffffffeUL; pParam->Size.dwPhyBytes = pParam->Size.dwPhyPixels * pParam->bChannels + 2UL; if((hw->bReg_0x26 & _ONE_CH_COLOR) && (pParam->bDataType == SCANDATATYPE_Color)) { pParam->Size.dwPhyBytes *= 3; } } else /* pParam->bBitDepth == 16 */ { pParam->Size.dwPhyPixels = pParam->Size.dwValidPixels; pParam->Size.dwPhyBytes = pParam->Size.dwPhyPixels * 2 * pParam->bChannels + 2UL; if((hw->bReg_0x26 & _ONE_CH_COLOR) && (pParam->bDataType == SCANDATATYPE_Color)) { pParam->Size.dwPhyBytes *= 3; } } /* Compute data start pixel */ wDataPixelStart = (u_short)((u_long)pParam->Origin.x * sCaps->OpticDpi.x / 300UL); /* during the calibration steps, we read the entire CCD data */ if((pParam->bCalibration != PARAM_Gain) && (pParam->bCalibration != PARAM_Offset)) { /* HEINER: check ADF stuff... */ #if 0 if(ScanInf.m_fADF) { wDataPixelStart = 2550 * sCaps->OpticDpi.x / 300UL - (u_short)(m_dHDPIDivider * pParam->Size.dwValidPixels + 0.5); } #endif wDataPixelStart += hw->wActivePixelsStart; } wLineEnd = wDataPixelStart + (u_short)(m_dHDPIDivider * pParam->Size.dwPhyPixels + 0.5); DBG( _DBG_INFO2, "* DataPixelStart=%u, LineEnd=%u\n", wDataPixelStart, wLineEnd ); if( wDataPixelStart & 1 ) { wDataPixelStart++; wLineEnd++; DBG( _DBG_INFO2, "* DataPixelStart=%u, LineEnd=%u (ADJ)\n", wDataPixelStart, wLineEnd ); } regs[0x22] = _HIBYTE( wDataPixelStart ); regs[0x23] = _LOBYTE( wDataPixelStart ); /* should match: wLineEnd-wDataPixelStart%(m_dHDPIDivider*2) = 0!! */ regs[0x24] = _HIBYTE( wLineEnd ); regs[0x25] = _LOBYTE( wLineEnd ); DBG( _DBG_INFO2, ">> End-Start=%u, HDPI=%.2f\n", wLineEnd-wDataPixelStart, m_dHDPIDivider); /* Y origin */ if( pParam->bCalibration == PARAM_Scan ) { if( hw->motorModel == MODEL_Tokyo600 ) { if(pParam->PhyDpi.x <= 75) pParam->Origin.y += 20; else if(pParam->PhyDpi.x <= 100) { if (pParam->bDataType == SCANDATATYPE_Color) pParam->Origin.y += 0; else pParam->Origin.y -= 6; } else if(pParam->PhyDpi.x <= 150) { if (pParam->bDataType == SCANDATATYPE_Color) pParam->Origin.y -= 0; } else if(pParam->PhyDpi.x <= 200) { if (pParam->bDataType == SCANDATATYPE_Color) pParam->Origin.y -= 10; else pParam->Origin.y -= 4; } else if(pParam->PhyDpi.x <= 300) { if (pParam->bDataType == SCANDATATYPE_Color) pParam->Origin.y += 16; else pParam->Origin.y -= 18; } else if(pParam->PhyDpi.x <= 400) { if (pParam->bDataType == SCANDATATYPE_Color) pParam->Origin.y += 15; else if(pParam->bDataType == SCANDATATYPE_BW) pParam->Origin.y += 4; } else /* if(pParam->PhyDpi.x <= 600) */ { if (pParam->bDataType == SCANDATATYPE_Gray) pParam->Origin.y += 4; } } /* Add gray mode offset (Green offset, we assume the CCD are * always be RGB or BGR order). */ if (pParam->bDataType != SCANDATATYPE_Color) pParam->Origin.y += (u_long)(300UL * sCaps->bSensorDistance / sCaps->OpticDpi.y); } pParam->Origin.y=(u_short)((u_long)pParam->Origin.y * hw->wMotorDpi/300UL); /* Something wrong, but I can not find it. */ if( hw->motorModel == MODEL_HuaLien && sCaps->OpticDpi.x == 600) pParam->Origin.y = pParam->Origin.y * 297 / 298; DBG(_DBG_INFO2,"* Full Steps to Skip at Start = 0x%04x\n", pParam->Origin.y); regs[0x4a] = _HIBYTE( pParam->Origin.y ); regs[0x4b] = _LOBYTE( pParam->Origin.y ); } /** preset scan stepsize and fastfeed stepsize */ static void usb_PresetStepSize( Plustek_Device *dev, ScanParam *pParam ) { u_short ssize; double mclkdiv = pParam->dMCLK; HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; ssize = (u_short)((double)CRYSTAL_FREQ / ( mclkdiv * 8.0 * (double)m_bCM * hw->dMaxMotorSpeed * 4.0 * (double)hw->wMotorDpi)); regs[0x46] = _HIBYTE( ssize ); regs[0x47] = _LOBYTE( ssize ); regs[0x48] = _HIBYTE( ssize ); regs[0x49] = _LOBYTE( ssize ); DBG( _DBG_INFO2, "* StepSize(Preset) = %u (0x%04x)\n", ssize, ssize ); } /** calculate default phase difference DPD */ static void usb_GetDPD( Plustek_Device *dev ) { int qtcnt; /* quarter speed count count reg 51 b2..3 */ int hfcnt; /* half speed count reg 51 b0..1 */ int strev; /* steps to reverse reg 50 */ int dpd; /* calculated dpd reg 52:53 */ int st; /* step size reg 46:47 */ HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; qtcnt = (regs[0x51] & 0x30) >> 4; /* quarter speed count */ hfcnt = (regs[0x51] & 0xc0) >> 6; /* half speed count */ if( _LM9831 == hw->chip ) strev = regs[0x50] & 0x3f; /* steps to reverse */ else /* LM9832/3 */ { if (qtcnt == 3) qtcnt = 8; if (hfcnt == 3) hfcnt = 8; strev = regs[0x50]; /* steps to reverse */ } st = regs[0x46] * 256 + regs[0x47]; /* scan step size */ if (m_wLineLength == 0) dpd = 0; else { dpd = (((qtcnt * 4) + (hfcnt * 2) + strev) * 4 * st) % (m_wLineLength * m_bLineRateColor); DBG( _DBG_INFO2, "* DPD =%u (0x%04x)\n", dpd, dpd ); dpd = m_wLineLength * m_bLineRateColor - dpd; } DBG( _DBG_INFO2, "* DPD =%u (0x%04x), step size=%u, steps2rev=%u\n", dpd, dpd, st, strev); DBG( _DBG_INFO2, "* llen=%u, lineRateColor=%u, qtcnt=%u, hfcnt=%u\n", m_wLineLength, m_bLineRateColor, qtcnt, hfcnt ); regs[0x51] |= (u_char)((dpd >> 16) & 0x03); regs[0x52] = (u_char)(dpd >> 8); regs[0x53] = (u_char)(dpd & 0xFF); } #define MCLKDIV_SCALING 2 #define _MIN(a,b) ((a) < (b) ? (a) : (b)) #define _MAX(a,b) ((a) > (b) ? (a) : (b)) /** */ static int usb_GetMCLKDiv( Plustek_Device *dev ) { int j, pixelbits, pixelsperline, r; int minmclk, maxmclk, mclkdiv; double hdpi, min_int_time; u_char *regs = dev->usbDev.a_bRegs; HWDef *hw = &dev->usbDev.HwSetting; DBG( _DBG_INFO, "usb_GetMCLKDiv()\n" ); r = 8; /* line rate */ if ((regs[0x26] & 7) == 0) r = 24; /* pixel rate */ /* use high or low res min integration time */ min_int_time = ((regs[0x9]&7) > 2 ? hw->dMinIntegrationTimeLowres: hw->dMinIntegrationTimeHighres); minmclk = (int)ceil((double) MCLKDIV_SCALING * CRYSTAL_FREQ * min_int_time /((double)1000. * r * m_wLineLength)); minmclk = _MAX(minmclk,MCLKDIV_SCALING); maxmclk = (int)(32.5*MCLKDIV_SCALING + .5); DBG(_DBG_INFO2,"- lower mclkdiv limit=%f\n",(double)minmclk/MCLKDIV_SCALING); DBG(_DBG_INFO2,"- upper mclkdiv limit=%f\n",(double)maxmclk/MCLKDIV_SCALING); /* get the bits per pixel */ switch (regs[0x9] & 0x38) { case 0: pixelbits=1; break; case 0x8: pixelbits=2; break; case 0x10: pixelbits=4; break; case 0x18: pixelbits=8; break; default: pixelbits=16;break; } /* compute the horizontal dpi (pixels per inch) */ j = regs[0x9] & 0x7; hdpi = ((j&1)*.5+1)*(j&2?2:1)*(j&4?4:1); pixelsperline = (int)((256*regs[0x24]+regs[0x25]-256*regs[0x22]-regs[0x23]) *pixelbits/(hdpi * 8)); mclkdiv = (int)ceil((double)MCLKDIV_SCALING * pixelsperline * CRYSTAL_FREQ /((double) 8. * m_wLineLength * dev->transferRate)); DBG( _DBG_INFO2, "- hdpi = %.3f\n", hdpi ); DBG( _DBG_INFO2, "- pixelbits = %u\n", pixelbits ); DBG( _DBG_INFO2, "- pixelsperline = %u\n", pixelsperline ); DBG( _DBG_INFO2, "- linelen = %u\n", m_wLineLength ); DBG( _DBG_INFO2, "- transferrate = %lu\n", dev->transferRate ); DBG( _DBG_INFO2, "- MCLK Divider = %u\n", mclkdiv/MCLKDIV_SCALING ); mclkdiv = _MAX(mclkdiv,minmclk); mclkdiv = _MIN(mclkdiv,maxmclk); DBG( _DBG_INFO2, "- Current MCLK Divider = %u\n", mclkdiv/MCLKDIV_SCALING ); if( dev->transferRate == 2000000 ) { while (mclkdiv * hdpi < 6.*MCLKDIV_SCALING) { mclkdiv++; } DBG( _DBG_INFO2, "- HIGHSPEED MCLK Divider = %u\n", mclkdiv/MCLKDIV_SCALING ); } return mclkdiv; } /** Plusteks' poor-man MCLK calculation... * at least we give the master clock divider and adjust the step size * and integration time (for 14/16 bit modes) */ static double usb_GetMCLKDivider( Plustek_Device *dev, ScanParam *pParam ) { double dMaxIntegrationTime; double dMaxMCLKDivider; DCapsDef *sCaps = &dev->usbDev.Caps; HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; DBG( _DBG_INFO, "usb_GetMCLKDivider()\n" ); if( dev->transferRate == 2000000 ) { int mclkdiv = usb_GetMCLKDiv(dev); pParam->dMCLK = (double)mclkdiv/MCLKDIV_SCALING; } m_dMCLKDivider = pParam->dMCLK; if (m_dHDPIDivider*m_dMCLKDivider >= 5.3/*6*/) m_bIntTimeAdjust = 0; else m_bIntTimeAdjust = ceil( 5.3/*6.0*/ / (m_dHDPIDivider*m_dMCLKDivider)); if( pParam->bCalibration == PARAM_Scan ) { usb_GetMCLKDiv(dev); /* Compare Integration with USB speed to find the best ITA value */ if( pParam->bBitDepth > 8 ) { while( pParam->Size.dwPhyBytes > (m_dMCLKDivider * m_bCM * m_wLineLength / 6 * 9 / 10) * (1 + m_bIntTimeAdjust)) { m_bIntTimeAdjust++; } if( hw->motorModel == MODEL_HuaLien && sCaps->bCCD == kNEC3799 && m_bIntTimeAdjust > bMaxITA) { m_bIntTimeAdjust = bMaxITA; } if(((hw->motorModel == MODEL_HP) && (sCaps->bCCD == kNECSLIM))/* || ( regs[0x26] & _ONE_CH_COLOR )*/) { bMaxITA = (u_char)floor((m_dMCLKDivider + 1) / 2.0); DBG( _DBG_INFO2, "* MaxITA (HP) = %u\n", bMaxITA ); if( m_bIntTimeAdjust > bMaxITA ) { DBG( _DBG_INFO, "* ITA (%u) limited\n", m_bIntTimeAdjust ); m_bIntTimeAdjust = bMaxITA; } } } } DBG( _DBG_INFO2, "* Integration Time Adjust = %u (HDPI=%.3f,MCLKD=%.3f)\n", m_bIntTimeAdjust, m_dHDPIDivider, m_dMCLKDivider ); regs[0x08] = (u_char)((m_dMCLKDivider - 1) * 2); regs[0x19] = m_bIntTimeAdjust; if( m_bIntTimeAdjust != 0 ) { m_wStepSize = (u_short)((u_long) m_wStepSize * (m_bIntTimeAdjust + 1) / m_bIntTimeAdjust); if( m_wStepSize < 2 ) m_wStepSize = 2; regs[0x46] = _HIBYTE(m_wStepSize); regs[0x47] = _LOBYTE(m_wStepSize); DBG( _DBG_INFO2, "* Stepsize = %u, 0x46=0x%02x 0x47=0x%02x\n", m_wStepSize, regs[0x46], regs[0x47] ); usb_GetDPD( dev ); } /* Compute maximum MCLK divider base on maximum integration time for * high lamp PWM, use equation 4 */ dMaxIntegrationTime = hw->dIntegrationTimeHighLamp; dMaxMCLKDivider = (double)CRYSTAL_FREQ * dMaxIntegrationTime / (1000 * 8 * m_bCM * m_wLineLength); /* Determine lamp PWM setting */ if( m_dMCLKDivider > dMaxMCLKDivider ) { DBG( _DBG_INFO2, "* Setting GreenPWMDutyCycleLow\n" ); regs[0x2a] = _HIBYTE( hw->wGreenPWMDutyCycleLow ); regs[0x2b] = _LOBYTE( hw->wGreenPWMDutyCycleLow ); } else { DBG( _DBG_INFO2, "* Setting GreenPWMDutyCycleHigh\n" ); regs[0x2a] = _HIBYTE( hw->wGreenPWMDutyCycleHigh ); regs[0x2b] = _LOBYTE( hw->wGreenPWMDutyCycleHigh ); } DBG( _DBG_INFO2, "* Current MCLK Divider = %f\n", m_dMCLKDivider ); return m_dMCLKDivider; } /** calculate the step size of each scan step */ static void usb_GetStepSize( Plustek_Device *dev, ScanParam *pParam ) { HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; /* Compute step size using equation 1 */ if (m_bIntTimeAdjust != 0) { m_wStepSize = (u_short)(((u_long) pParam->PhyDpi.y * m_wLineLength * m_bLineRateColor * (m_bIntTimeAdjust + 1)) / (4 * hw->wMotorDpi * m_bIntTimeAdjust)); } else { m_wStepSize = (u_short)(((u_long) pParam->PhyDpi.y * m_wLineLength * m_bLineRateColor) / (4 * hw->wMotorDpi)); } if (m_wStepSize < 2) m_wStepSize = 2; m_wStepSize = m_wStepSize * 298 / 297; regs[0x46] = _HIBYTE( m_wStepSize ); regs[0x47] = _LOBYTE( m_wStepSize ); DBG( _DBG_INFO2, "* Stepsize = %u, 0x46=0x%02x 0x47=0x%02x\n", m_wStepSize, regs[0x46], regs[0x47] ); } /** */ static void usb_GetLineLength( Plustek_Device *dev ) { /* [note] * The ITA in this moment is always 0, it will be changed later when we * calculate MCLK. This is very strange why this routine will not call * again to get all new value after ITA was changed? If this routine * never call again, maybe we remove all factor with ITA here. */ int tr; int tpspd; /* turbo/preview mode speed reg 0a b2..3 */ int tpsel; /* turbo/preview mode select reg 0a b0..1 */ int gbnd; /* guardband duration reg 0e b4..7 */ int dur; /* pulse duration reg 0e b0..3 */ int ntr; /* number of tr pulses reg 0d b7 */ int afeop; /* scan mode, 0=pixel rate, 1=line rate, */ /* 4=1 channel mode a, 5=1 channel mode b, reg 26 b0..2 */ int ctmode; /* CIS tr timing mode reg 19 b0..1 */ int tp; /* tpspd or 1 if tpsel=0 */ int b; /* if ctmode=0, (ntr+1)*((2*gbnd)+dur+1), otherwise 1 */ int tradj; /* ITA */ int en_tradj; HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; tpspd = (regs[0x0a] & 0x0c) >> 2; /* turbo/preview mode speed */ tpsel = regs[0x0a] & 3; /* turbo/preview mode select */ gbnd = (regs[0x0e] & 0xf0) >> 4; /* TR fi1 guardband duration */ dur = (regs[0x0e] & 0xf); /* TR pulse duration */ ntr = regs[0x0d] / 128; /* number of tr pulses */ afeop = regs[0x26] & 7; /* afe op - 3 channel or 1 channel */ tradj = regs[0x19] & 0x7f; /* integration time adjust */ en_tradj = (tradj) ? 1 : 0; ctmode = (regs[0x0b] >> 3) & 3; /* cis tr timing mode */ m_bLineRateColor = 1; if (afeop == 1 || afeop == 5) /* if 3 channel line or 1 channel mode b */ m_bLineRateColor = 3; /* according to turbo/preview mode to set value */ if( tpsel == 0 ) { tp = 1; } else { tp = tpspd + 2; if( tp == 5 ) tp++; } b = 1; if( ctmode == 0 ) { /* CCD mode scanner*/ b = (ntr + 1) * ((2 * gbnd) + dur + 1); b += (1 - ntr) * en_tradj; } if( ctmode == 2 ) /* CIS mode scanner */ b = 3; tr = m_bLineRateColor * (hw->wLineEnd + tp * (b + 3 - ntr)); if( tradj == 0 ) { if( ctmode == 0 ) tr += m_bLineRateColor; } else { int le_phi, num_byteclk, num_mclkf, tr_fast_pix, extra_pix; /* Line color or gray mode */ if( afeop != 0 ) { le_phi = (tradj + 1) / 2 + 1 + 6; num_byteclk = ((le_phi + 8 * hw->wLineEnd + 8 * b + 4) / (8 * tradj)) + 1; num_mclkf = 8 * tradj * num_byteclk; tr_fast_pix = num_byteclk; extra_pix = (num_mclkf - le_phi) % 8; } else /* 3 channel pixel rate color */ { le_phi = (tradj + 1) / 2 + 1 + 10 + 12; num_byteclk = ((le_phi + 3 * 8 * hw->wLineEnd + 3 * 8 * b + 3 * 4) / (3 * 8 * tradj)) + 1; num_mclkf = 3 * 8 * tradj * num_byteclk; tr_fast_pix = num_byteclk; extra_pix = (num_mclkf - le_phi) % (3 * 8); } tr = b + hw->wLineEnd + 4 + tr_fast_pix; if (extra_pix == 0) tr++; tr *= m_bLineRateColor; } m_wLineLength = tr / m_bLineRateColor; DBG( _DBG_INFO2, "* LineLength=%d, LineRateColor=%u\n", m_wLineLength, m_bLineRateColor ); } /** usb_GetMotorParam * registers 0x56, 0x57 */ static void usb_GetMotorParam( Plustek_Device *dev, ScanParam *pParam ) { int idx, i; ClkMotorDef *clk; MDef *md; DCapsDef *sCaps = &dev->usbDev.Caps; HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; if( !_IS_PLUSTEKMOTOR(hw->motorModel)) { clk = usb_GetMotorSet( hw->motorModel ); md = clk->motor_sets; idx = 0; for( i = 0; i < _MAX_CLK; i++ ) { if( pParam->PhyDpi.y <= dpi_ranges[i] ) break; idx++; } if( idx >= _MAX_CLK ) idx = _MAX_CLK - 1; regs[0x56] = md[idx].pwm; regs[0x57] = md[idx].pwm_duty; regs[0x43] = 0; regs[0x44] = 0; if( md[idx].scan_lines_per_line > 1 ) { if((pParam->bBitDepth > 8) && (pParam->bDataType == SCANDATATYPE_Color)) { regs[0x43] = 0xff; regs[0x44] = md[idx].scan_lines_per_line; DBG( _DBG_INFO2, "* Line Skipping : 0x43=0x%02x, 0x44=0x%02x\n", regs[0x43], regs[0x44] ); } } } else { if( sCaps->OpticDpi.x == 1200 ) { switch( hw->motorModel ) { case MODEL_HuaLien: case MODEL_KaoHsiung: default: if(pParam->PhyDpi.x <= 200) { regs[0x56] = 1; regs[0x57] = 48; /* 63; */ } else if(pParam->PhyDpi.x <= 300) { regs[0x56] = 2; /* 8; */ regs[0x57] = 48; /* 56; */ } else if(pParam->PhyDpi.x <= 400) { regs[0x56] = 8; regs[0x57] = 48; } else if(pParam->PhyDpi.x <= 600) { regs[0x56] = 2; /* 10; */ regs[0x57] = 48; /* 56; */ } else /* pParam->PhyDpi.x == 1200) */ { regs[0x56] = 1; /* 8; */ regs[0x57] = 48; /* 56; */ } break; } } else { switch ( hw->motorModel ) { case MODEL_Tokyo600: regs[0x56] = 16; regs[0x57] = 4; /* 2; */ break; case MODEL_HuaLien: { if(pParam->PhyDpi.x <= 200) { regs[0x56] = 64; /* 24; */ regs[0x57] = 4; /* 16; */ } else if(pParam->PhyDpi.x <= 300) { regs[0x56] = 64; /* 16; */ regs[0x57] = 4; /* 16; */ } else if(pParam->PhyDpi.x <= 400) { regs[0x56] = 64; /* 16; */ regs[0x57] = 4; /* 16; */ } else /* if(pParam->PhyDpi.x <= 600) */ { /* HEINER: check ADF stuff... */ #if 0 if(ScanInf.m_fADF) { regs[0x56] = 8; regs[0x57] = 48; } else #endif { regs[0x56] = 64; /* 2; */ regs[0x57] = 4; /* 48; */ } } } break; case MODEL_KaoHsiung: default: if(pParam->PhyDpi.x <= 200) { regs[0x56] = 24; regs[0x57] = 16; } else if(pParam->PhyDpi.x <= 300) { regs[0x56] = 16; regs[0x57] = 16; } else if(pParam->PhyDpi.x <= 400) { regs[0x56] = 16; regs[0x57] = 16; } else /* if(pParam->PhyDpi.x <= 600) */ { regs[0x56] = 2; regs[0x57] = 48; } break; } } } DBG( _DBG_INFO2, "* MOTOR-Settings: PWM=0x%02x, PWM_DUTY=0x%02x\n", regs[0x56], regs[0x57] ); } /** */ static void usb_GetPauseLimit( Plustek_Device *dev, ScanParam *pParam ) { int coeffsize, scaler; HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; scaler = 1; if( hw->bReg_0x26 & _ONE_CH_COLOR ) { if( pParam->bDataType == SCANDATATYPE_Color ) { scaler = 3; } } /* compute size of coefficient ram */ coeffsize = 4 + 16 + 16; /* gamma and shading and offset */ /* if 16 bit, then not all is used */ if( regs[0x09] & 0x20 ) { coeffsize = 16 + 16; /* no gamma */ } coeffsize *= (2*3); /* 3 colors and 2 bytes/word */ /* Get available buffer size in KB * for 512kb this will be 296 * for 2Mb this will be 1832 */ m_dwPauseLimit = (u_long)(hw->wDRAMSize - (u_long)(coeffsize)); m_dwPauseLimit -= ((pParam->Size.dwPhyBytes*scaler) / 1024 + 1); /* If not reversing, take into account the steps to reverse */ if( regs[0x50] == 0 ) m_dwPauseLimit -= ((regs[0x54] & 7) * (pParam->Size.dwPhyBytes * scaler) + 1023) / 1024; DBG( _DBG_INFO2, "* PL=%lu, coeffsize=%u, scaler=%u\n", m_dwPauseLimit, coeffsize, scaler ); m_dwPauseLimit = usb_max( usb_min(m_dwPauseLimit, (u_long)ceil(pParam->Size.dwTotalBytes / 1024.0)), 2); regs[0x4e] = (u_char)floor((m_dwPauseLimit*512.0)/(2.0*hw->wDRAMSize)); if( regs[0x4e] > 1 ) { regs[0x4e]--; if(regs[0x4e] > 1) regs[0x4e]--; } else regs[0x4e] = 1; /* resume, when buffer is 2/8 kbytes full (512k/2M memory) */ regs[0x4f] = 1; DBG( _DBG_INFO2, "* PauseLimit = %lu, [0x4e] = 0x%02x, [0x4f] = 0x%02x\n", m_dwPauseLimit, regs[0x4e], regs[0x4f] ); } /** usb_GetScanLinesAndSize */ static void usb_GetScanLinesAndSize( Plustek_Device *dev, ScanParam *pParam ) { DCapsDef *sCaps = &dev->usbDev.Caps; pParam->Size.dwPhyLines = (u_long)ceil((double) pParam->Size.dwLines * pParam->PhyDpi.y / pParam->UserDpi.y); /* Calculate color offset */ if (pParam->bCalibration == PARAM_Scan && pParam->bChannels == 3) { dev->scanning.bLineDistance = sCaps->bSensorDistance * pParam->PhyDpi.y / sCaps->OpticDpi.x; pParam->Size.dwPhyLines += (dev->scanning.bLineDistance << 1); } else dev->scanning.bLineDistance = 0; pParam->Size.dwTotalBytes = pParam->Size.dwPhyBytes * pParam->Size.dwPhyLines; DBG( _DBG_INFO, "* PhyBytes = %lu\n", pParam->Size.dwPhyBytes ); DBG( _DBG_INFO, "* PhyLines = %lu\n", pParam->Size.dwPhyLines ); DBG( _DBG_INFO, "* TotalBytes = %lu\n", pParam->Size.dwTotalBytes ); } /** function to preset/reset the merlin registers */ static SANE_Bool usb_SetScanParameters( Plustek_Device *dev, ScanParam *pParam ) { static u_char reg8, reg38[6], reg48[2]; ScanDef *scan = &dev->scanning; ScanParam *pdParam = &dev->scanning.sParam; HWDef *hw = &dev->usbDev.HwSetting; u_char *regs = dev->usbDev.a_bRegs; m_pParam = pParam; DBG( _DBG_INFO, "usb_SetScanParameters()\n" ); if( !usb_IsScannerReady(dev)) return SANE_FALSE; if(pParam->bCalibration == PARAM_Scan && pParam->bSource == SOURCE_ADF) { /* HEINER: dSaveMoveSpeed is only used in func EjectPaper!!! dSaveMoveSpeed = hw->dMaxMoveSpeed; */ hw->dMaxMoveSpeed = 1.0; usb_MotorSelect( dev, SANE_TRUE ); usb_MotorOn( dev, SANE_TRUE ); } /* * calculate the basic settings... */ pParam->PhyDpi.x = usb_SetAsicDpiX( dev, pParam->UserDpi.x ); pParam->PhyDpi.y = usb_SetAsicDpiY( dev, pParam->UserDpi.y ); usb_SetColorAndBits( dev, pParam ); usb_GetScanRect ( dev, pParam ); usb_PresetStepSize( dev, pParam ); if( dev->caps.dwFlag & SFLAG_ADF ) { if( pParam->bCalibration == PARAM_Scan ) { if( pdParam->bSource == SOURCE_ADF ) { regs[0x50] = 0; regs[0x51] = 0x40; if( pParam->PhyDpi.x <= 300) regs[0x54] = (regs[0x54] & ~7) | 4; /* 3; */ else regs[0x54] = (regs[0x54] & ~7) | 5; /* 4; */ } else { regs[0x50] = hw->bStepsToReverse; regs[0x51] = hw->bReg_0x51; regs[0x54] &= ~7; } } else regs[0x50] = 0; } else { if( pParam->bCalibration == PARAM_Scan ) regs[0x50] = hw->bStepsToReverse; else regs[0x50] = 0; } /* Assume we will not use ITA */ regs[0x19] = m_bIntTimeAdjust = 0; /* Get variables from calculation algorithms */ if(!(pParam->bCalibration == PARAM_Scan && pParam->bSource == SOURCE_ADF && dev->usbDev.fLastScanIsAdf )) { DBG( _DBG_INFO2, "* Scan calculations...\n" ); usb_GetLineLength ( dev ); usb_GetStepSize ( dev, pParam ); usb_GetDPD ( dev ); usb_GetMCLKDivider( dev, pParam ); usb_GetMotorParam ( dev, pParam ); } /* Compute fast feed step size, use equation 3 and equation 8 */ if( m_dMCLKDivider < 1.0) m_dMCLKDivider = 1.0; m_wFastFeedStepSize = (u_short)(CRYSTAL_FREQ / (m_dMCLKDivider * 8 * m_bCM * hw->dMaxMoveSpeed * 4 * hw->wMotorDpi)); /* CIS special ;-) */ if((hw->bReg_0x26 & _ONE_CH_COLOR) && (m_bCM == 1)) { DBG( _DBG_INFO2, "* CIS FFStep-Speedup\n" ); m_wFastFeedStepSize /= 3; } if( m_bIntTimeAdjust != 0 ) m_wFastFeedStepSize /= m_bIntTimeAdjust; if(regs[0x0a]) m_wFastFeedStepSize *= ((regs[0x0a] >> 2) + 2); regs[0x48] = _HIBYTE( m_wFastFeedStepSize ); regs[0x49] = _LOBYTE( m_wFastFeedStepSize ); DBG( _DBG_INFO2, "* FFStepSize = %u, [0x48] = 0x%02x, [0x49] = 0x%02x\n", m_wFastFeedStepSize, regs[0x48], regs[0x49] ); /* Compute the number of lines to scan using actual Y resolution */ usb_GetScanLinesAndSize( dev, pParam ); /* Pause limit should be bounded by total bytes to read * so that the chassis will not move too far. */ usb_GetPauseLimit( dev, pParam ); /* For ADF .... */ if(pParam->bCalibration == PARAM_Scan && pParam->bSource == SOURCE_ADF) { if( dev->usbDev.fLastScanIsAdf ) { regs[0x08] = reg8; memcpy( ®s[0x38], reg38, sizeof(reg38)); memcpy( ®s[0x48], reg48, sizeof(reg48)); } else { reg8 = regs[0x08]; memcpy( reg38, ®s[0x38], sizeof(reg38)); memcpy( reg48, ®s[0x48], sizeof(reg48)); } usb_MotorSelect( dev, SANE_TRUE ); } /* Reset LM983x's state machine before setting register values */ if( !usbio_WriteReg( dev->fd, 0x18, 0x18 )) return SANE_FALSE; usleep(200 * 1000); /* Need to delay at least xxx microseconds */ if( !usbio_WriteReg( dev->fd, 0x07, 0x20 )) return SANE_FALSE; if( !usbio_WriteReg( dev->fd, 0x19, 6 )) return SANE_FALSE; regs[0x07] = 0; regs[0x28] = 0; /* set unused registers to 0 */ memset( ®s[0x03], 0, 3 ); memset( ®s[0x5f], 0, 0x7f-0x5f+1 ); /* we limit the possible scansteps to avoid, that the sensors bumps * against the scanbed */ if(pParam->bCalibration == PARAM_Scan && pParam->bSource != SOURCE_ADF) { u_long lines = pParam->Size.dwPhyLines + scan->bLinesToSkip + scan->dwLinesDiscard + 5; u_short scansteps = (u_short)ceil((double)lines* hw->wMotorDpi / pParam->PhyDpi.y); DBG( _DBG_INFO, "* Scansteps=%u (%lu*%u/%u)\n", scansteps, lines, hw->wMotorDpi, pParam->PhyDpi.y ); regs[0x4c] = _HIBYTE(scansteps); regs[0x4d] = _LOBYTE(scansteps); } /* set the merlin registers */ _UIO(sanei_lm983x_write( dev->fd, 0x03, ®s[0x03], 3, SANE_TRUE)); _UIO(sanei_lm983x_write( dev->fd, 0x08, ®s[0x08], 0x7f - 0x08+1, SANE_TRUE)); usleep( 100 ); if( !usbio_WriteReg( dev->fd, 0x07, 0 )) return SANE_FALSE; DBG( _DBG_INFO, "usb_SetScanParameters() done.\n" ); return SANE_TRUE; } /** */ static SANE_Bool usb_ScanBegin( Plustek_Device *dev, SANE_Bool auto_park ) { u_char value; u_short inches; HWDef *hw = &dev->usbDev.HwSetting; DCapsDef *sc = &dev->usbDev.Caps; u_char *regs = dev->usbDev.a_bRegs; DBG( _DBG_INFO, "usb_ScanBegin()\n" ); /* save the request for usb_ScanEnd () */ m_fAutoPark = auto_park; /* Disable home sensor during scan, or the chassis cannot move */ value = ((m_pParam->bCalibration == PARAM_Scan && m_pParam->bSource == SOURCE_ADF)? (regs[0x58] & ~7): 0); if(!usbio_WriteReg( dev->fd, 0x58, value )) return SANE_FALSE; /* Check if scanner is ready for receiving command */ if( !usb_IsScannerReady(dev)) return SANE_FALSE; /* Flush cache - only LM9831 (Source: National Semiconductors */ if( _LM9831 == hw->chip ) { for(;;) { if( SANE_TRUE == cancelRead ) { DBG( _DBG_INFO, "ScanBegin() - Cancel detected...\n" ); return SANE_FALSE; } _UIO(usbio_ReadReg( dev->fd, 0x01, &m_bOldScanData )); if( m_bOldScanData ) { u_long dwBytesToRead = m_bOldScanData * hw->wDRAMSize * 4; u_char *pBuffer = malloc( sizeof(u_char) * dwBytesToRead ); DBG(_DBG_INFO,"Flushing cache - %lu bytes (bOldScanData=%u)\n", dwBytesToRead, m_bOldScanData ); _UIO(sanei_lm983x_read( dev->fd, 0x00, pBuffer, dwBytesToRead, SANE_FALSE )); free( pBuffer ); } else break; } } /* Download map & Shading data */ if(( m_pParam->bCalibration == PARAM_Scan && !usb_MapDownload( dev )) || !usb_DownloadShadingData( dev, m_pParam->bCalibration )) { return SANE_FALSE; } /* Move chassis and start to read image data */ if (!usbio_WriteReg( dev->fd, 0x07, 3 )) return SANE_FALSE; usbio_ReadReg( dev->fd, 0x01, &m_bOldScanData ); m_bOldScanData = 0; /* No data at all */ m_fStart = m_fFirst = SANE_TRUE; /* Prepare to read */ DBG( _DBG_DREGS, "Register Dump before reading data:\n" ); dumpregs( dev->fd, NULL ); inches = (u_short)((m_pParam->Origin.y *300UL)/hw->wMotorDpi); DBG( _DBG_INFO2, ">>> INCH=%u, DOY=%u\n", inches, sc->Normal.DataOrigin.y ); if( inches > sc->Normal.DataOrigin.y ) usb_WaitPos( dev, 150, SANE_FALSE ); DBG( _DBG_INFO, "usb_ScanBegin() done.\n" ); return SANE_TRUE; } /** usb_ScanEnd * stop all the processing stuff and reposition sensor back home */ static SANE_Bool usb_ScanEnd( Plustek_Device *dev ) { u_char value; DBG( _DBG_INFO, "usbDev_ScanEnd(), start=%u, park=%u\n", m_fStart, m_fAutoPark ); usbio_ReadReg( dev->fd, 0x07, &value ); if( value == 3 || value != 2 ) usbio_WriteReg( dev->fd, 0x07, 0 ); if( m_fStart ) { m_fStart = SANE_FALSE; if( m_fAutoPark ) usb_ModuleToHome( dev, SANE_FALSE ); } else if( SANE_TRUE == cancelRead ) { usb_ModuleToHome( dev, SANE_FALSE ); } return SANE_TRUE; } /** */ static SANE_Bool usb_IsDataAvailableInDRAM( Plustek_Device *dev ) { /* Compute polling timeout * Height (Inches) / MaxScanSpeed (Inches/Second) = Seconds to move the * module from top to bottom. Then convert the seconds to miliseconds * by multiply 1000. We add extra 2 seconds to get some tolerance. */ u_char a_bBand[3]; long dwTicks; struct timeval t; u_char *regs = dev->usbDev.a_bRegs; DBG( _DBG_INFO, "usb_IsDataAvailableInDRAM()\n" ); gettimeofday( &t, NULL); dwTicks = t.tv_sec + 30; for(;;) { _UIO( sanei_lm983x_read( dev->fd, 0x01, a_bBand, 3, SANE_FALSE )); gettimeofday( &t, NULL); if( t.tv_sec > dwTicks ) break; if( usb_IsEscPressed()) { DBG(_DBG_INFO,"usb_IsDataAvailableInDRAM() - Cancel detected...\n"); return SANE_FALSE; } /* It is not stable for read */ if((a_bBand[0] != a_bBand[1]) && (a_bBand[1] != a_bBand[2])) continue; if( a_bBand[0] > m_bOldScanData ) { if( m_pParam->bSource != SOURCE_Reflection ) usleep(1000*(30 * regs[0x08] * dev->usbDev.Caps.OpticDpi.x / 600)); else usleep(1000*(20 * regs[0x08] * dev->usbDev.Caps.OpticDpi.x / 600)); DBG( _DBG_INFO, "Data is available\n" ); return SANE_TRUE; } } DBG( _DBG_INFO, "NO Data available\n" ); return SANE_FALSE; } /** */ static SANE_Bool usb_ScanReadImage( Plustek_Device *dev, void *pBuf, u_long dwSize ) { static u_long dwBytes = 0; u_char *regs = dev->usbDev.a_bRegs; SANE_Status res; DBG( _DBG_READ, "usb_ScanReadImage(%lu)\n", dwSize ); if( m_fFirst ) { dwBytes = 0; m_fFirst = SANE_FALSE; /* Wait for data band ready */ if (!usb_IsDataAvailableInDRAM( dev )) { DBG( _DBG_ERROR, "Nothing to read...\n" ); return SANE_FALSE; } /* restore the fast forward stepsize...*/ sanei_lm983x_write(dev->fd, 0x48, ®s[0x48], 2, SANE_TRUE); } /* HEINER: ADF */ #if 0 if(ScanInf.m_fADF == 1 && Scanning.sParam.bCalibration == PARAM_Scan) { if(dwBytes) { DWORD dw; BOOL fRet; if(dwSize < dwBytes) dw = dwSize; else dw = dwBytes; fRet = ReadData(0x00, (PBYTE)pBuf, dw); dwBytes -= dw; if(!dwBytes) { WriteRegister(0x07, 0); /* To stop scanning */ ScanInf.m_fADF++; if(dwSize > dw) ScanReadImage((PBYTE)pBuf + dw, dwSize - dw); } return fRet; } else if(!Hardware.SensorPaper()) { dwBytes = (Scanning.sParam.PhyDpi.y * 18 / 25) * Scanning.sParam.Size.dwPhyBytes; return ScanReadImage(pBuf, dwSize); } } else if(ScanInf.m_fADF > 1) { DWORD dw; if(Scanning.sParam.bBitDepth > 8) { for(dw = 0; dw < dwSize; dw += 2) *((PWORD)pBuf + dw) = 0xfffc; } else FillMemory(pBuf, dwSize, 0xff); return TRUE; } #endif res = sanei_lm983x_read(dev->fd, 0x00, (u_char *)pBuf, dwSize, SANE_FALSE); /* check for pressed ESC button, as sanei_lm983x_read() may take some time */ if( usb_IsEscPressed()) { DBG(_DBG_INFO,"usb_ScanReadImage() - Cancel detected...\n"); return SANE_FALSE; } DBG( _DBG_READ, "usb_ScanReadImage() done, result: %d\n", res ); if( SANE_STATUS_GOOD == res ) { return SANE_TRUE; } DBG( _DBG_ERROR, "usb_ScanReadImage() failed\n" ); return SANE_FALSE; } /** calculate the number of pixels per line and lines out of a given * crop-area. The size of the area is given on a 300dpi base! */ static void usb_GetImageInfo( Plustek_Device *dev, ImgDef *pInfo, WinInfo *pSize ) { DBG( _DBG_INFO, "usb_GetImageInfo()\n" ); pSize->dwPixels = (u_long)pInfo->crArea.cx * pInfo->xyDpi.x / 300UL; pSize->dwLines = (u_long)pInfo->crArea.cy * pInfo->xyDpi.y / 300UL; DBG( _DBG_INFO2,"Area: cx=%u, cy=%u\n",pInfo->crArea.cx,pInfo->crArea.cy); switch( pInfo->wDataType ) { case COLOR_TRUE48: pSize->dwBytes = pSize->dwPixels * 6UL; break; case COLOR_TRUE24: if( dev->scanning.fGrayFromColor > 7 ){ pSize->dwBytes = (pSize->dwPixels + 7UL) >> 3; pSize->dwPixels = pSize->dwBytes * 8; } else { pSize->dwBytes = pSize->dwPixels * 3UL; } break; case COLOR_GRAY16: pSize->dwBytes = pSize->dwPixels << 1; break; case COLOR_256GRAY: pSize->dwBytes = pSize->dwPixels; break; default: pSize->dwBytes = (pSize->dwPixels + 7UL) >> 3; pSize->dwPixels = pSize->dwBytes * 8; break; } } /** */ static void usb_SaveImageInfo( Plustek_Device *dev, ImgDef *pInfo ) { HWDef *hw = &dev->usbDev.HwSetting; ScanParam *pParam = &dev->scanning.sParam; DBG( _DBG_INFO, "usb_SaveImageInfo()\n" ); /* Dpi & Origins */ pParam->UserDpi = pInfo->xyDpi; pParam->Origin.x = pInfo->crArea.x; pParam->Origin.y = pInfo->crArea.y; /* Source & Bits */ pParam->bBitDepth = 8; switch( pInfo->wDataType ) { case COLOR_TRUE48: pParam->bBitDepth = 16; /* fall through... */ case COLOR_TRUE24: pParam->bDataType = SCANDATATYPE_Color; /* AFE operation: one or 3 channels ! */ if( hw->bReg_0x26 & _ONE_CH_COLOR ) pParam->bChannels = 1; else pParam->bChannels = 3; break; case COLOR_GRAY16: pParam->bBitDepth = 16; /* fall through... */ case COLOR_256GRAY: pParam->bDataType = SCANDATATYPE_Gray; pParam->bChannels = 1; break; default: pParam->bBitDepth = 1; pParam->bDataType = SCANDATATYPE_BW; pParam->bChannels = 1; } DBG( _DBG_INFO, "* dwFlag = 0x%08lx\n", pInfo->dwFlag ); if( pInfo->dwFlag & SCANDEF_Transparency ) pParam->bSource = SOURCE_Transparency; else if( pInfo->dwFlag & SCANDEF_Negative ) pParam->bSource = SOURCE_Negative; else if( pInfo->dwFlag & SCANDEF_Adf ) pParam->bSource = SOURCE_ADF; else pParam->bSource = SOURCE_Reflection; } /* END PLUSTEK-USBSCAN.C ....................................................*/