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

1855 wiersze
46 KiB
C
Czysty Bezpośredni odnośnik Wina Historia

/*.............................................................................
* Project : SANE library for Plustek flatbed scanners.
*.............................................................................
*/
/** @file plustek-usbhw.c
* @brief Functions to control the scanner hardware.
*
* Based on sources acquired from Plustek Inc.<br>
* Copyright (C) 2001-2013 Gerhard Jaeger <gerhard@gjaeger.de>
*
* History:
* - 0.40 - starting version of the USB support
* - 0.41 - added EPSON1250 specific stuff
* - added alternative usb_IsScannerReady function
* - 0.42 - added warmup stuff
* - added UMAX 3400 stuff
* - fixed problem with minimum wait time...
* - 0.43 - added usb_switchLamp for non-Plustek devices
* - 0.44 - added bStepsToReverse and active Pixelstart values
* - to resetRegister function
* - modified getLampStatus function for CIS devices
* - added usb_Wait4Warmup()
* - moved usb_IsEscPressed to this file
* - added usb_switchLampX
* - do now not reinitialized MISC I/O pins upon reset registers
* - 0.45 - added function usb_AdjustLamps() to tweak CIS lamp settings
* - fixed NULL pointer problem in lamp-off ISR
* - added usb_AdjustCISLampSettings()
* - skipping warmup for CIS devices
* - 0.46 - fixed problem in usb_GetLampStatus for CIS devices, as we
* read back reg[0x29] to wrong position
* made it compile without itimer definitions
* - 0.47 - moved usb_HostSwap() and usb_Swap() to this file.
* - fixed lampOff timer for systems w/o setitimer
* - added lamp off adjustment for CIS devices
* - 0.48 - added usb_IsCISDevice()
* - added usb_HasTPA()
* - changed usb_Wait4Warmup()
* - added usb_WaitPos()
* - added usb_FillLampRegs() - sets also PWMDutyCylce now
* - added UMAX3450 TPA autodetection
* - 0.49 - a_bRegs is now part of the device structure
* - fixed problem in backtracking, when speedup is enabled
* - added usb_UpdateButtonStatus()
* - 0.50 - added button support for Plustek/Genius devices
* - changed behaviour of usb_IsScannerReady
* - added special misc I/O setup for CIS devices (usb_ResetRegisters)
* - 0.51 - change usb_AdjustLamps() and use it now in usb_switchLamp()
* - added usb_Wait4ScanSample() and usb_InCalibrationMode()
* - tweaked EjectPaper to work correctly with the supported sheet-fed
* devices
* - fixed button handling for Plustek/Genius devices and added
* some more debug output to that code path
* - 0.52 - changed DCapsDef, lamp -> misc_io
* - hammer in output bit, when using misc io pins for lamp switching
* - increased wait time for sheet-fed scanner (needed for Q-SCAN A6,
* patch by Hiroshi Miura)
* .
* <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, see <https://www.gnu.org/licenses/>.
*
* 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>
*/
#ifdef HAVE_SYS_TIME_H
#include <sys/time.h>
#endif
#define DEV_LampReflection 1
#define DEV_LampTPA 2
#define DEV_LampAll 3
#define DEV_LampPositive 4
#define DEV_LampNegative 5
#define WAIT_TIME_FOR_SCAN_SAMPLE 20 /* 20 seconds maximum wait time */
/** the NatSemi 983x is a big endian chip, and the line protocol data all
* arrives big-endian. This determines if we need to swap to host-order
*/
static SANE_Bool
usb_HostSwap( void )
{
u_short pattern = 0xfeed; /* deadbeef */
unsigned char *bytewise = (unsigned char *)&pattern;
if ( bytewise[0] == 0xfe ) {
DBG( _DBG_READ, "We're big-endian! No need to swap!\n" );
return 0;
}
DBG( _DBG_READ, "We're little-endian! NatSemi LM983x is big!\n" );
DBG( _DBG_READ, "--> Must swap data!\n" );
return 1;
}
/** as the name says..
*/
static void
usb_Swap( u_short *pw, u_long dwBytes )
{
for( dwBytes /= 2; dwBytes--; pw++ )
_SWAP(((u_char*) pw)[0], ((u_char*)pw)[1]);
}
/**
* This function is used to detect a cancel condition,
* our ESC key is the SIGUSR1 signal. It is sent by the backend when the
* cancel button has been pressed
*
* @param - none
* @return the function returns SANE_TRUE if a cancel condition has been
* detected, if not, it returns SANE_FALSE
*/
static SANE_Bool
usb_IsEscPressed( void )
{
sigset_t sigs;
sigpending( &sigs );
if( sigismember( &sigs, SIGUSR1 )) {
DBG( _DBG_INFO, "SIGUSR1 is pending --> Cancel detected\n" );
return SANE_TRUE;
}
return SANE_FALSE;
}
/** usb_GetMotorSet
* according to the model, the function returns the address of
* the corresponding entry of the Motor table
*/
static ClkMotorDef*
usb_GetMotorSet( eModelDef model )
{
int i;
for( i = 0; i < MODEL_LAST; i++ ) {
if( model == Motors[i].motorModel ) {
return &(Motors[i]);
}
}
return NULL;
}
/** switch motor on or off
* @param handle - handle to open USB device
* @param fOn - SANE_TRUE means motor on, SANE_FALSE means motor off
* @return always SANE_TRUE
*/
static SANE_Bool
usb_MotorOn( Plustek_Device *dev, SANE_Bool fOn )
{
if( fOn )
dev->usbDev.a_bRegs[0x45] |= 0x10;
else
dev->usbDev.a_bRegs[0x45] &= ~0x10;
usbio_WriteReg( dev->fd, 0x45, dev->usbDev.a_bRegs[0x45] );
return SANE_TRUE;
}
/**
*/
static SANE_Bool
usb_IsCISDevice( Plustek_Device *dev )
{
return ( dev->usbDev.HwSetting.bReg_0x26 & _ONE_CH_COLOR );
}
/**
*/
static SANE_Bool
usb_IsSheetFedDevice( Plustek_Device *dev )
{
return ( dev->usbDev.Caps.wFlags & DEVCAPSFLAG_SheetFed );
}
/**
*/
static SANE_Bool
usb_InCalibrationMode( Plustek_Device *dev )
{
if((dev->scanning.dwFlag & SCANFLAG_Calibration) == 0)
return SANE_FALSE;
return SANE_TRUE;
}
/** check if scanner is ready
*/
static SANE_Bool
usb_IsScannerReady( Plustek_Device *dev )
{
u_char value;
double len;
long timeout;
struct timeval t;
SANE_Status res;
/* time in s = 1000*scanner length in inches/max step speed/in */
len = (dev->usbDev.Caps.Normal.Size.y/(double)_MEASURE_BASE) + 5;
len = (1000.0 * len)/dev->usbDev.HwSetting.dMaxMoveSpeed;
len /= 1000.0;
/* wait at least 10 seconds... */
if( len < 10 )
len = 10;
gettimeofday( &t, NULL);
timeout = t.tv_sec + len;
do {
res = usbio_ReadReg( dev->fd, 7, &value);
if( res != SANE_STATUS_GOOD ) {
sleep(1);
} else {
if( value == 0 ) {
_UIO( usbio_ResetLM983x( dev ));
return SANE_TRUE;
}
if((value == 0) || (value >= 0x20) || (value == 0x03)) {
if( !usbio_WriteReg( dev->fd, 0x07, 0 )) {
DBG( _DBG_ERROR, "Scanner not ready!!!\n" );
return SANE_FALSE;
}
else {
return SANE_TRUE;
}
}
}
gettimeofday( &t, NULL);
} while( t.tv_sec < timeout );
DBG( _DBG_ERROR, "Scanner not ready!!!\n" );
return SANE_FALSE;
}
/**
*/
static SANE_Bool
usb_SensorAdf( Plustek_Device *dev )
{
u_char value;
if( usb_IsSheetFedDevice(dev))
return SANE_FALSE;
usbio_ReadReg( dev->fd, 0x02, &value );
return (value & 0x20);
}
/**
*/
static SANE_Bool
usb_SensorPaper( Plustek_Device *dev )
{
DCapsDef *sc = &dev->usbDev.Caps;
u_char val, mask = 0x02;
usbio_ReadReg( dev->fd, 0x02, &val );
if( usb_IsSheetFedDevice(dev))
mask = _GET_PAPERSENSE_PORT(sc->misc_io);
return (val & mask);
}
/** function for sheet-fed devices, to make sure, that there's
* something to scan
*/
static SANE_Bool
usb_Wait4ScanSample( Plustek_Device *dev )
{
struct timeval start_time, t2;
if( !usb_IsSheetFedDevice(dev))
return SANE_TRUE;
DBG( _DBG_INFO2, "Waiting for something to scan...\n" );
gettimeofday( &start_time, NULL );
do {
gettimeofday( &t2, NULL );
if( t2.tv_sec > start_time.tv_sec + WAIT_TIME_FOR_SCAN_SAMPLE ) {
DBG( _DBG_ERROR, "Nothing to scan!!!\n" );
return SANE_FALSE;
}
if( usb_IsEscPressed())
return SANE_FALSE;
}
while( !usb_SensorPaper( dev ));
/* just a little delay, to make sure the paper is taken by the scanner */
usleep(100* 1000);
DBG( _DBG_INFO2, "... okay, scanning now!\n" );
return SANE_TRUE;
}
/** function to move the sensor and to speed it up to a certain speed until
* the position is reached
*/
static SANE_Bool
usb_WaitPos( Plustek_Device *dev, u_long to, SANE_Bool stay )
{
SANE_Bool retval;
u_char value, mclk_div, mch;
u_char r[2];
u_short ffs, step, min_ffs;
long dwTicks;
double maxf, fac, speed;
struct timeval start_time, t2;
HWDef *hw = &dev->usbDev.HwSetting;
u_char *regs = dev->usbDev.a_bRegs;
/* get current master clock divider */
usbio_ReadReg( dev->fd, 0x08, &value );
mclk_div = (value >> 1) + 1;
/* get current channel mode */
usbio_ReadReg( dev->fd, 0x26, &value );
mch = ((value & 0x07) > 1) ? 1:3;
/* calculate the current speed */
ffs = regs[0x48] * 256 + regs[0x49];
speed = ((double)CRYSTAL_FREQ) /(double)((u_long)mclk_div * 32UL *
(u_long)mch * (u_long)ffs * hw->wMotorDpi);
/* disabled ? */
if((hw->dHighSpeed == 0.0) || (dev->adj.disableSpeedup != 0)) {
min_ffs = 0xffff;
maxf = 0.0;
if( !stay )
return SANE_TRUE;
} else {
min_ffs = (u_short)(CRYSTAL_FREQ /((u_long)mclk_div * 32UL *
(u_long)mch * hw->dHighSpeed * hw->wMotorDpi));
maxf = (ffs - min_ffs)/4;
if( maxf > 100.0 )
maxf = 100.0;
if( maxf < 5.0 )
maxf = 5.0;
DBG( _DBG_INFO2, ">>>> CURRENT MCLK_DIV = %u\n", mclk_div );
DBG( _DBG_INFO2, ">>>> MCH = %u\n", mch );
DBG( _DBG_INFO2, ">>>> FFS = %u\n", ffs );
DBG( _DBG_INFO2, ">>>> HIGH-SPEED = %.3f (%.3f)\n",
speed, hw->dHighSpeed);
DBG( _DBG_INFO2, ">>>> MIN_FFS = %u (%.3f)\n", min_ffs, maxf);
}
gettimeofday( &start_time, NULL );
dwTicks = start_time.tv_sec + to;
step = 1;
retval = SANE_FALSE;
for(;;) {
usleep( 1000 );
_UIO( usbio_ReadReg( dev->fd, 0x07, &value ));
if (!value)
return SANE_TRUE;
gettimeofday(&t2, NULL);
if( t2.tv_sec > dwTicks )
break;
if( min_ffs != 0xffff ) {
fac = maxf/step;
if( ffs ) {
if((u_short)fac < ffs ) {
ffs -= fac;
if( ffs < min_ffs )
ffs = min_ffs;
} else {
if(ffs != min_ffs )
ffs = min_ffs;
else
ffs = 0;
}
}
if( ffs >= min_ffs ) {
if((int)fac > 25 )
usleep( 150 * 1000 );
r[0] = (u_char)(ffs >> 8);
r[1] = (u_char)(ffs & 0xFF);
sanei_lm983x_write(dev->fd, 0x48, r, 2, SANE_TRUE);
if(ffs == min_ffs )
ffs = 0;
} else {
if( !stay ) {
retval = SANE_TRUE;
break;
}
}
step++;
}
}
return retval;
}
/** function to move the sensor or if sheet-fed device, to move the paper.
* In moving backward-mode, the home sensor is always turned on.
* @param action - what to do
* @param steps - steps to move, based on 300dpi, 0 means move forever
*/
static SANE_Bool
usb_ModuleMove( Plustek_Device *dev, u_char action, u_long dwStep )
{
SANE_Bool retval, ejected;
u_char bReg2, reg7, mclk_div;
u_short wFastFeedStepSize;
double dMaxMoveSpeed;
ClkMotorDef *clk;
HWDef *hw = &dev->usbDev.HwSetting;
u_char *regs = dev->usbDev.a_bRegs;
if( action != MOVE_ToPaperSensor &&
action != MOVE_EjectAllPapers &&
action != MOVE_SkipPaperSensor &&
action != MOVE_ToShading && !dwStep ) {
return SANE_TRUE;
}
if( !usb_IsScannerReady( dev )) {
DBG( _DBG_ERROR, "Sensor-position NOT reached\n" );
return SANE_FALSE;
}
if( action == MOVE_EjectAllPapers ) {
double d = hw->dMaxMoveSpeed;
/* FIXME */
if (hw->motorModel == MODEL_QSCAN_A6){
DBG( _DBG_INFO2, "Q-SCAN-A6 may not be able to detect ejected papers\n");
return SANE_TRUE;
}
hw->dMaxMoveSpeed += 0.8; /* was 0.6 */
DBG( _DBG_INFO2, "Ejecting paper...\n" );
retval = SANE_TRUE;
ejected = SANE_FALSE;
do {
if( usb_SensorPaper(dev)) {
if (!usb_ModuleMove(dev,MOVE_SkipPaperSensor, 0 )) {
hw->dMaxMoveSpeed = d;
return SANE_FALSE;
}
ejected = SANE_TRUE;
}
if( usb_SensorAdf(dev) &&
!usb_ModuleMove(dev,MOVE_ToPaperSensor, 0 )) {
hw->dMaxMoveSpeed = d;
return SANE_FALSE;
}
if( usb_IsEscPressed()) {
retval = SANE_FALSE;
break;
}
} while( usb_SensorPaper(dev));
/* when the paper is beyond the sensor, we move another 300 steps
* to make sure, that the scanned sheet is out of the scanner
* BUT: not at startup
*/
if (dev->initialized >= 0 || ejected) {
DBG(_DBG_INFO2, "... MORE EJECT...\n");
if(!usb_ModuleMove( dev, MOVE_Forward, 300 /* *3 */)) {
hw->dMaxMoveSpeed = d;
return SANE_FALSE;
}
}
usbio_WriteReg( dev->fd, 0x07, 0);
usbio_WriteReg( dev->fd, 0x58, regs[0x58]);
usbio_ReadReg( dev->fd, 0x02, &bReg2 );
hw->dMaxMoveSpeed = d;
DBG( _DBG_INFO2, "...done\n" );
return retval;
}
usbio_WriteReg( dev->fd, 0x0a, 0 );
/* Compute fast feed step size, use equation 3 and equation 8 */
dMaxMoveSpeed = hw->dMaxMoveSpeed;
if( action == MOVE_ToShading ) {
if( hw->dMaxMoveSpeed > 0.5 )
dMaxMoveSpeed = hw->dMaxMoveSpeed - 0.5;
}
clk = usb_GetMotorSet( hw->motorModel );
mclk_div = clk->mclk_fast;
wFastFeedStepSize = (u_short)(CRYSTAL_FREQ /
((u_long)mclk_div * 8UL * 1 *
dMaxMoveSpeed * 4 * hw->wMotorDpi));
regs[0x48] = (u_char)(wFastFeedStepSize >> 8);
regs[0x49] = (u_char)(wFastFeedStepSize & 0xFF);
dwStep = dwStep * hw->wMotorDpi / 300UL;
regs[0x4a] = _HIBYTE(_LOWORD(dwStep));
regs[0x4b] = _LOBYTE(_LOWORD(dwStep));
regs[0x45] |= 0x10;
DBG( _DBG_INFO2,"MotorDPI=%u, MaxMoveSpeed=%.3f, "
"FFStepSize=%u, Steps=%lu\n", hw->wMotorDpi,
hw->dMaxMoveSpeed, wFastFeedStepSize, dwStep );
DBG( _DBG_INFO2, "MOTOR: "
"PWM=0x%02x, PWM_DUTY=0x%02x 0x45=0x%02x "
"0x48=0x%02x, 0x49=0x%02x \n",
regs[0x56], regs[0x57], regs[0x45],
regs[0x48], regs[0x49] );
DBG( _DBG_INFO2,"MCLK_FFW = %u --> 0x%02x\n", mclk_div, (mclk_div-1)*2 );
/* The setting for chassis moving is:
* MCLK divider = 6, 8 bits/pixel, HDPI divider = 12,
* no integration time adjustment and 1 channel grayscale
*/
/* MCLK divider = 6 */
if( !usbio_WriteReg(dev->fd, 0x08, (mclk_div-1)*2 /*0x0A*/))
return SANE_FALSE;
/* 8 bits/pixel, HDPI divider = 12 */
if( !usbio_WriteReg(dev->fd, 0x09, 0x1F))
return SANE_FALSE;
/* Turn off integration time adjustment */
if( !usbio_WriteReg(dev->fd, 0x19, 0))
return SANE_FALSE;
/* 1 channel grayscale, green channel */
if( !usbio_WriteReg(dev->fd, 0x26, 0x0C))
return SANE_FALSE;
_UIO(sanei_lm983x_write(dev->fd, 0x48, &regs[0x48], 2, SANE_TRUE));
_UIO(sanei_lm983x_write(dev->fd, 0x4A, &regs[0x4A], 2, SANE_TRUE));
/* disable home */
if( !usbio_WriteReg(dev->fd, 0x58, regs[0x58] & ~7))
return SANE_FALSE;
if( !usbio_WriteReg(dev->fd, 0x45, regs[0x45] ))
return SANE_FALSE;
if( action == MOVE_Forward || action == MOVE_ToShading )
reg7 = 5;
else if( action == MOVE_Backward )
reg7 = 6;
else if( action == MOVE_ToPaperSensor || action == MOVE_EjectAllPapers ||
action == MOVE_SkipPaperSensor ) {
reg7 = 1;
} else {
return SANE_TRUE;
}
retval = SANE_FALSE;
/* start the sensor... */
if( usbio_WriteReg( dev->fd, 0x07, reg7 )) {
long secs;
struct timeval start_time, t2;
/* at least we move 20 seconds before timeout... */
gettimeofday( &start_time, NULL );
secs = start_time.tv_sec + 20;
if( action == MOVE_ToPaperSensor ) {
for(;;) {
if( usb_SensorPaper( dev )) {
usbio_WriteReg( dev->fd, 0x07, 0 );
usbio_WriteReg( dev->fd, 0x58, regs[0x58] );
usbio_ReadReg ( dev->fd, 0x02, &bReg2 );
return SANE_TRUE;
}
gettimeofday(&t2, NULL);
if( t2.tv_sec > secs )
break;
}
} else if( action == MOVE_SkipPaperSensor ) {
for(;;) {
if( !usb_SensorPaper( dev )) {
usbio_WriteReg( dev->fd, 0x07, 0 );
usbio_WriteReg( dev->fd, 0x58, regs[0x58] );
usbio_ReadReg ( dev->fd, 0x02, &bReg2 );
return SANE_TRUE;
}
gettimeofday(&t2, NULL);
if( t2.tv_sec > secs )
break;
}
} else {
retval = usb_WaitPos( dev, 200, SANE_TRUE );
}
usbio_WriteReg( dev->fd, 0x58, regs[0x58] );
usbio_ReadReg ( dev->fd, 0x02, &bReg2 );
}
if( !retval )
DBG( _DBG_ERROR, "Position NOT reached\n" );
return retval;
}
/**
*/
static SANE_Bool
usb_ModuleToHome( Plustek_Device *dev, SANE_Bool fWait )
{
u_char mclk_div;
u_char value;
DCapsDef *scaps = &dev->usbDev.Caps;
HWDef *hw = &dev->usbDev.HwSetting;
u_char *regs = dev->usbDev.a_bRegs;
if( usb_IsSheetFedDevice(dev)) {
return usb_ModuleMove( dev, MOVE_EjectAllPapers, 0 );
}
/* Check if merlin is ready for setting command */
usbio_WriteReg( dev->fd, 0x58, hw->bReg_0x58 );
usbio_ReadReg ( dev->fd, 2, &value );
if( value & 1 ) {
dev->usbDev.fModFirstHome = SANE_FALSE;
return SANE_TRUE;
}
_UIO( usbio_ReadReg( dev->fd, 0x07, &value ));
if( dev->usbDev.fModFirstHome ) {
dev->usbDev.fModFirstHome = SANE_FALSE;
if( hw->motorModel != MODEL_Tokyo600 )
usb_ModuleMove( dev, MOVE_Forward, hw->wMotorDpi / 2);
}
/* if not homing, do it... */
if( value != 2 ) {
u_short wFastFeedStepSize;
if( hw->motorModel == MODEL_Tokyo600 ) {
usbio_WriteReg( dev->fd, 0x07, 0 );
} else {
_UIO( usbio_ResetLM983x( dev ));
usleep(200*1000);
}
if(!_IS_PLUSTEKMOTOR(hw->motorModel)) {
ClkMotorDef *clk;
clk = usb_GetMotorSet( hw->motorModel );
regs[0x56] = clk->pwm_fast;
regs[0x57] = clk->pwm_duty_fast;
mclk_div = clk->mclk_fast;
} else {
mclk_div = 6;
if( scaps->OpticDpi.x == 1200 || scaps->bPCB == 2) {
switch( hw->motorModel ) {
case MODEL_KaoHsiung:
case MODEL_HuaLien:
default:
regs[0x56] = 1;
regs[0x57] = 63;
break;
}
} else { /* if(Device.Caps.OpticDpi.x == 600) */
switch( hw->motorModel ) {
case MODEL_Tokyo600:
regs[0x56] = 4;
regs[0x57] = 4; /* 2; */
break;
case MODEL_HuaLien:
if( dev->caps.dwFlag & SFLAG_ADF ) {
regs[0x56] = 64; /* 32; */
regs[0x57] = 4; /* 16; */
} else {
regs[0x56] = 32;
regs[0x57] = 16;
}
break;
case MODEL_KaoHsiung:
default:
regs[0x56] = 64;
regs[0x57] = 20;
break;
}
}
}
/* Compute fast feed step size, use equation 3 and equation 8
* assumptions: MCLK = 6, Lineratemode (CM=1)
*/
wFastFeedStepSize = (u_short)(CRYSTAL_FREQ / (mclk_div * 8 * 1 *
hw->dMaxMotorSpeed * 4 * hw->wMotorDpi));
regs[0x48] = (u_char)(wFastFeedStepSize >> 8);
regs[0x49] = (u_char)(wFastFeedStepSize & 0xFF);
regs[0x4a] = 0;
regs[0x4b] = 0;
regs[0x45] |= 0x10;
DBG( _DBG_INFO2,"MotorDPI=%u, MaxMotorSpeed=%.3f, FFStepSize=%u\n",
hw->wMotorDpi, hw->dMaxMotorSpeed, wFastFeedStepSize );
DBG( _DBG_INFO, "MOTOR: "
"PWM=0x%02x, PWM_DUTY=0x%02x 0x45=0x%02x "
"0x48=0x%02x, 0x49=0x%02x\n",
regs[0x56], regs[0x57],
regs[0x45], regs[0x48], regs[0x49] );
/* The setting for chassis moving is:
* MCLK divider = 6, 8 bits/pixel, HDPI divider = 12,
* no integration time adjustment and 1 channel grayscale
*/
/* MCLK divider = 6 */
value = (u_char)((mclk_div-1) * 2);
DBG( _DBG_INFO, "MCLK_FFW = %u --> 0x%02x\n", mclk_div, value );
if( !usbio_WriteReg(dev->fd, 0x08, value))
return SANE_FALSE;
/* 8 bits/pixel, HDPI divider = 12 */
if( !usbio_WriteReg(dev->fd, 0x09, 0x1F))
return SANE_FALSE;
/* Turn off integration time adjustment */
if( !usbio_WriteReg(dev->fd, 0x19, 0))
return SANE_FALSE;
/* 1 channel grayscale, green channel */
if( !usbio_WriteReg(dev->fd, 0x26, 0x8C))
return SANE_FALSE;
_UIO(sanei_lm983x_write(dev->fd, 0x48, &regs[0x48], 4, SANE_TRUE));
_UIO(sanei_lm983x_write(dev->fd, 0x56, &regs[0x56], 3, SANE_TRUE));
if( !usbio_WriteReg(dev->fd, 0x45, regs[0x45]))
return SANE_FALSE;
usbio_WriteReg(dev->fd, 0x0a, 0);
if( hw->motorModel == MODEL_HuaLien && scaps->OpticDpi.x == 600 )
usleep(100 * 1000);
if( !usbio_WriteReg(dev->fd, 0x07, 2))
return SANE_FALSE;
#if 0
if( hw->motorModel == MODEL_Tokyo600) {
u_long dwSpeedUp = GetTickCount () + 250;
/* while(GetTickCount () < dwSpeedUp) */
while((int)(dwSpeedUp - GetTickCount ()) > 0)
{
Sleep (10);
if (!ReadRegister (0x07, &value))
return FALSE;
if (!value)
return TRUE;
}
wFastFeedStepSize = (WORD)(CRYSTAL_FREQ /
(6UL * 8UL * 1 * Device.HwSetting.dMaxMotorSpeed * 4 *
Device.HwSetting.wMotorDpi) * 60 / 78);
regs[0x48] = (u_char)(wFastFeedStepSize >> 8);
regs[0x49] = (u_char)(wFastFeedStepSize & 0xFF);
WriteRegisters(0x48, &regs[0x48], 2);
}
#endif
}
return usb_WaitPos( dev, 150, fWait );
}
/**
*/
static SANE_Bool
usb_MotorSelect( Plustek_Device *dev, SANE_Bool fADF )
{
DCapsDef *sCaps = &dev->usbDev.Caps;
HWDef *hw = &dev->usbDev.HwSetting;
u_char *regs = dev->usbDev.a_bRegs;
if(!_IS_PLUSTEKMOTOR(hw->motorModel)) {
return SANE_TRUE;
}
if( fADF ) {
if( sCaps->bCCD == kNEC3778 ) {
hw->wMotorDpi = 300;
hw->dMaxMotorSpeed = 1.5;
hw->dMaxMoveSpeed = 1.5;
sCaps->OpticDpi.y = 600;
}
regs[0x5b] |= 0x80;
} else {
if( sCaps->bCCD == kNEC3778 ) {
hw->wMotorDpi = 600;
hw->dMaxMotorSpeed = 1.1;
hw->dMaxMoveSpeed = 0.9;
sCaps->OpticDpi.y = 1200;
}
regs[0x5b] &= ~0x80;
}
/* To stop the motor moving */
usbio_WriteReg( dev->fd, 0x07, 0 );
usleep(10 * 1000);
usbio_WriteReg( dev->fd, 0x5b, regs[0x5b] );
return SANE_TRUE;
}
/** function to adjust the lamp settings of a CIS device without tweaking
* the driver-device settings
* @param dev - our almitghty device structure
* @param on - switch the lamp on or off
*/
static SANE_Bool
usb_AdjustLamps( Plustek_Device *dev, SANE_Bool on )
{
HWDef *hw = &dev->usbDev.HwSetting;
u_char *regs = dev->usbDev.a_bRegs;
if( !usb_IsCISDevice(dev))
return SANE_TRUE;
DBG(_DBG_INFO2, "usb_AdjustLamps(%u)\n", on );
if( on ) {
regs[0x2c] = _HIBYTE(hw->red_lamp_on);
regs[0x2d] = _LOBYTE(hw->red_lamp_on);
regs[0x2e] = _HIBYTE(hw->red_lamp_off);
regs[0x2f] = _LOBYTE(hw->red_lamp_off);
regs[0x30] = _HIBYTE(hw->green_lamp_on);
regs[0x31] = _LOBYTE(hw->green_lamp_on);
regs[0x32] = _HIBYTE(hw->green_lamp_off);
regs[0x33] = _LOBYTE(hw->green_lamp_off);
regs[0x34] = _HIBYTE(hw->blue_lamp_on);
regs[0x35] = _LOBYTE(hw->blue_lamp_on);
regs[0x36] = _HIBYTE(hw->blue_lamp_off);
regs[0x37] = _LOBYTE(hw->blue_lamp_off);
} else {
memset( &regs[0x2c], 0, 12 );
regs[0x2c] = 0x3f;
regs[0x2d] = 0xff;
regs[0x30] = 0x3f;
regs[0x31] = 0xff;
regs[0x34] = 0x3f;
regs[0x35] = 0xff;
}
return sanei_lm983x_write( dev->fd, 0x2c,
&regs[0x2c], 0x37-0x2c+1, SANE_TRUE );
}
/**
*/
static void
usb_AdjustCISLampSettings( Plustek_Device *dev, SANE_Bool on )
{
HWDef *hw = &dev->usbDev.HwSetting;
if( !usb_IsCISDevice(dev))
return;
DBG( _DBG_INFO2, "AdjustCISLamps(%u)\n", on );
if((dev->scanning.sParam.bDataType == SCANDATATYPE_Gray) ||
(dev->scanning.sParam.bDataType == SCANDATATYPE_BW)) {
DBG( _DBG_INFO2, " * setting mono mode\n" );
hw->bReg_0x29 = hw->illu_mono.mode;
memcpy( &hw->red_lamp_on,
&hw->illu_mono.red_lamp_on, sizeof(u_short) * 6 );
} else {
DBG( _DBG_INFO2, " * setting color mode\n" );
hw->bReg_0x29 = hw->illu_color.mode;
memcpy( &hw->red_lamp_on,
&hw->illu_color.red_lamp_on, sizeof(u_short) * 6 );
}
if( !on ) {
hw->red_lamp_on = 0x3fff;
hw->red_lamp_off = 0;
hw->green_lamp_on = 0x3fff;
hw->green_lamp_off = 0;
hw->blue_lamp_on = 0x3fff;
hw->blue_lamp_off = 0;
} else {
if( dev->adj.rlampoff > 0 ) {
hw->red_lamp_off = dev->adj.rlampoff;
if( hw->red_lamp_off > 0x3fff )
hw->red_lamp_off = 0x3fff;
DBG( _DBG_INFO2,
" * red_lamp_off adjusted: %u\n", hw->red_lamp_off );
}
if( dev->adj.glampoff > 0 ) {
hw->green_lamp_off = dev->adj.glampoff;
if( hw->green_lamp_off > 0x3fff )
hw->green_lamp_off = 0x3fff;
DBG( _DBG_INFO2,
" * green_lamp_off adjusted: %u\n", hw->green_lamp_off );
}
if( dev->adj.blampoff > 0 ) {
hw->blue_lamp_off = dev->adj.blampoff;
if( hw->blue_lamp_off > 0x3fff )
hw->blue_lamp_off = 0x3fff;
DBG( _DBG_INFO2,
" * blue_lamp_off adjusted: %u\n", hw->blue_lamp_off );
}
}
dev->usbDev.a_bRegs[0x29] = hw->bReg_0x29;
usb_AdjustLamps( dev, on );
}
/** according to the flag field, we return the register and
* it's mask to turn on/off the lamp.
* @param flag - field to check
* @param reg - pointer to a var to receive the register value
* @param msk - pointer to a var to receive the mask value
* @return Nothing
*/
static void
usb_GetLampRegAndMask( u_long flag, SANE_Byte *reg, SANE_Byte *msk )
{
if( _MIO6 == ( _MIO6 & flag )) {
*reg = 0x5b;
*msk = 0x80;
} else if( _MIO5 == ( _MIO5 & flag )) {
*reg = 0x5b;
*msk = 0x08;
} else if( _MIO4 == ( _MIO4 & flag )) {
*reg = 0x5a;
*msk = 0x80;
} else if( _MIO3 == ( _MIO3 & flag )) {
*reg = 0x5a;
*msk = 0x08;
} else if( _MIO2 == ( _MIO2 & flag )) {
*reg = 0x59;
*msk = 0x80;
} else if( _MIO1 == ( _MIO1 & flag )) {
*reg = 0x59;
*msk = 0x08;
} else {
*reg = 0;
*msk = 0;
}
}
/** usb_GetLampStatus
* This function returns the current lamp in use.
* For non Plustek devices, it always returns DEV_LampReflection.
* @param dev - pointer to our device structure,
* it should contain all we need
* @return - 0 if the scanner hasn't been used before, DEV_LampReflection
* for the normal lamp, or DEV_LampTPA for negative/transparency
* lamp
*/
static int
usb_GetLampStatus( Plustek_Device *dev )
{
int iLampStatus = 0;
u_char *regs = dev->usbDev.a_bRegs;
HWDef *hw = &dev->usbDev.HwSetting;
DCapsDef *sc = &dev->usbDev.Caps;
SANE_Byte reg, msk, val;
if( NULL == hw ) {
DBG( _DBG_ERROR, "NULL-Pointer detected: usb_GetLampStatus()\n" );
return -1;
}
/* do we use the misc I/O pins for switching the lamp ? */
if( _WAF_MISC_IO_LAMPS & sc->workaroundFlag ) {
usb_GetLampRegAndMask( sc->misc_io, &reg, &msk );
if( 0 == reg ) {
usbio_ReadReg( dev->fd, 0x29, &reg );
if( reg & 3 )
iLampStatus |= DEV_LampReflection;
} else {
/* check if the lamp is on */
usbio_ReadReg( dev->fd, reg, &val );
DBG( _DBG_INFO2, "LAMP-REG[0x%02x] = 0x%02x (msk=0x%02x)\n",
reg,val,msk);
if( val & msk )
iLampStatus |= DEV_LampReflection;
/* if the device supports a TPA, we check this here */
if( sc->wFlags & DEVCAPSFLAG_TPA ) {
usb_GetLampRegAndMask( _GET_TPALAMP(sc->misc_io), &reg, &msk );
if (reg) {
usbio_ReadReg( dev->fd, reg, &val );
DBG( _DBG_INFO2, "TPA-REG[0x%02x] = 0x%02x (msk=0x%02x)\n",
reg,val,msk);
if( val & msk )
iLampStatus |= DEV_LampTPA;
}
}
/* CanoScan D660U extra vaganza... */
if((dev->usbDev.vendor == 0x04A9) && (dev->usbDev.product==0x2208)) {
sanei_lm983x_read( dev->fd, 0x29, &regs[0x29], 3, SANE_TRUE );
DBG( _DBG_INFO, "[29]=0x%02x, [2A]=0x%02x, [2B]=0x%02x\n",
regs[0x29], regs[0x2a], regs[0x2b] );
}
}
} else {
sanei_lm983x_read(dev->fd, 0x29,&regs[0x29],0x37-0x29+1,SANE_TRUE);
if((regs[0x29] & 3) == 1) {
/* HEINER: BETTER define register to check ! */
if(!_IS_PLUSTEKMOTOR(hw->motorModel)) {
iLampStatus |= DEV_LampReflection;
} else {
if((regs[0x2e] * 256 + regs[0x2f]) > hw->wLineEnd )
iLampStatus |= DEV_LampReflection;
if((regs[0x36] * 256 + regs[0x37]) > hw->wLineEnd )
iLampStatus |= DEV_LampTPA;
}
}
}
DBG( _DBG_INFO, "LAMP-STATUS: 0x%08x (%s)\n",
iLampStatus, iLampStatus?"on":"off" );
return iLampStatus;
}
/** usb_switchLampX
* used for all devices that use some misc I/O pins to switch the lamp
*/
static SANE_Bool
usb_switchLampX( Plustek_Device *dev, SANE_Bool on, SANE_Bool tpa )
{
SANE_Byte reg, msk;
DCapsDef *sc = &dev->usbDev.Caps;
u_char *regs = dev->usbDev.a_bRegs;
if( tpa )
usb_GetLampRegAndMask( _GET_TPALAMP(sc->misc_io), &reg, &msk );
else
usb_GetLampRegAndMask( sc->misc_io, &reg, &msk );
if( 0 == reg )
return SANE_FALSE; /* no need to switch something */
DBG( _DBG_INFO, "usb_switchLampX(ON=%u,TPA=%u)\n", on, tpa );
if( on ) {
/* in fact the output bit should be set by the default settings
* but we make sure, that it is set anyway...
*/
if (msk & 0x08)
msk |= 0x01;
else
msk |= 0x10;
regs[reg] |= msk;
} else {
regs[reg] &= ~msk;
}
DBG( _DBG_INFO, "Switch Lamp: %u, regs[0x%02x] = 0x%02x\n",
on, reg, regs[reg] );
usbio_WriteReg( dev->fd, reg, regs[reg] );
return SANE_TRUE;
}
/** usb_switchLamp
* used for all devices that use some misc I/O pins to switch the lamp
*/
static SANE_Bool
usb_switchLamp( Plustek_Device *dev, SANE_Bool on )
{
SANE_Bool result;
if((dev->scanning.sParam.bSource == SOURCE_Negative) ||
(dev->scanning.sParam.bSource == SOURCE_Transparency)) {
result = usb_switchLampX( dev, on, SANE_TRUE );
} else {
result = usb_switchLampX( dev, on, SANE_FALSE );
}
/* to switch off CIS, we need to tweak the lampoff/on regs */
usb_AdjustLamps( dev, on );
return result;
}
/** usb_LedOn
*/
static void
usb_LedOn( Plustek_Device *dev, SANE_Bool fOn )
{
u_char value;
if( dev->usbDev.HwSetting.motorModel != MODEL_HuaLien )
return;
value = dev->usbDev.a_bRegs[0x0d];
if( fOn )
value |= 0x10;
else
value &= ~0x10;
dev->usbDev.a_bRegs[0x0d] = value;
usbio_WriteReg( dev->fd, 0x0d, value );
}
/** usb_FillLampRegs
* set all the registers controlling the lamps
*/
static void
usb_FillLampRegs( Plustek_Device *dev )
{
HWDef *hw = &dev->usbDev.HwSetting;
u_char *regs = dev->usbDev.a_bRegs;
regs[0x2a] = _HIBYTE( hw->wGreenPWMDutyCycleLow );
regs[0x2b] = _LOBYTE( hw->wGreenPWMDutyCycleLow );
regs[0x2c] = _HIBYTE( hw->red_lamp_on );
regs[0x2d] = _LOBYTE( hw->red_lamp_on );
regs[0x2e] = _HIBYTE( hw->red_lamp_off);
regs[0x2f] = _LOBYTE( hw->red_lamp_off);
regs[0x30] = _HIBYTE( hw->green_lamp_on );
regs[0x31] = _LOBYTE( hw->green_lamp_on );
regs[0x32] = _HIBYTE( hw->green_lamp_off);
regs[0x33] = _LOBYTE( hw->green_lamp_off);
regs[0x34] = _HIBYTE( hw->blue_lamp_on );
regs[0x35] = _LOBYTE( hw->blue_lamp_on );
regs[0x36] = _HIBYTE( hw->blue_lamp_off);
regs[0x37] = _LOBYTE( hw->blue_lamp_off);
}
/** usb_LampOn
*/
static SANE_Bool
usb_LampOn( Plustek_Device *dev, SANE_Bool fOn, SANE_Bool fResetTimer )
{
DCapsDef *sc = &dev->usbDev.Caps;
ScanDef *scanning = &dev->scanning;
HWDef *hw = &dev->usbDev.HwSetting;
u_char *regs = dev->usbDev.a_bRegs;
int iLampStatus = usb_GetLampStatus( dev );
int lampId = -1;
struct timeval t;
if( NULL == scanning ) {
DBG( _DBG_ERROR, "NULL-Pointer detected: usb_LampOn()\n" );
return SANE_FALSE;
}
switch( scanning->sParam.bSource ) {
case SOURCE_Reflection:
case SOURCE_ADF:
lampId = DEV_LampReflection;
break;
case SOURCE_Transparency:
case SOURCE_Negative:
lampId = DEV_LampTPA;
break;
}
if( fOn ) {
if( iLampStatus != lampId ) {
DBG( _DBG_INFO, "Switching Lamp on\n" );
/* here we might have to switch off the TPA/Main lamp before
* using the other one
*/
if( lampId != dev->usbDev.currentLamp ) {
if( dev->usbDev.currentLamp == DEV_LampReflection )
usb_switchLampX( dev, SANE_FALSE, SANE_FALSE );
else
usb_switchLampX( dev, SANE_FALSE, SANE_TRUE );
}
memset( &regs[0x29], 0, (0x37-0x29+1));
regs[0x29] = hw->bReg_0x29;
if( !usb_switchLamp(dev, SANE_TRUE )) {
if( lampId == DEV_LampReflection ) {
regs[0x2e] = 16383 / 256;
regs[0x2f] = 16383 % 256;
}
if( lampId == DEV_LampTPA ) {
regs[0x36] = 16383 / 256;
regs[0x37] = 16383 % 256;
}
}
if( _WAF_MISC_IO_LAMPS & sc->workaroundFlag )
usb_FillLampRegs( dev );
sanei_lm983x_write( dev->fd, 0x29,
&regs[0x29], 0x37-0x29+1, SANE_TRUE );
if( lampId != dev->usbDev.currentLamp ) {
dev->usbDev.currentLamp = lampId;
if( fResetTimer ) {
gettimeofday( &t, NULL );
dev->usbDev.dwTicksLampOn = t.tv_sec;
DBG( _DBG_INFO, "Warmup-Timer started\n" );
}
}
}
} else {
int iStatusChange = iLampStatus & ~lampId;
if( iStatusChange != iLampStatus ) {
DBG( _DBG_INFO, "Switching Lamp off\n" );
memset( &regs[0x29], 0, 0x37-0x29+1 );
if( !usb_switchLamp(dev, SANE_FALSE )) {
if( iStatusChange & DEV_LampReflection ) {
regs[0x2e] = 16383 / 256;
regs[0x2f] = 16383 % 256;
}
if( iStatusChange & DEV_LampTPA ) {
regs[0x36] = 16383 / 256;
regs[0x37] = 16383 % 256;
}
}
if( _WAF_MISC_IO_LAMPS & sc->workaroundFlag )
usb_FillLampRegs( dev );
sanei_lm983x_write( dev->fd, 0x29,
&regs[0x29], 0x37-0x29+1, SANE_TRUE );
}
}
if( usb_GetLampStatus(dev))
usb_LedOn( dev, SANE_TRUE );
else
usb_LedOn( dev, SANE_FALSE );
return SANE_TRUE;
}
/** Function to preset the registers for the specific device, which
* should never change during the whole operation
* Affected registers:<br>
* 0x0b - 0x0e - Sensor settings - directly from the HWDef<br>
* 0x0f - 0x18 - Sensor Configuration - directly from the HwDef<br>
* 0x1a - 0x1b - Stepper Phase Correction<br>
* 0x20 - 0x21 - Line End<br>
* 0x21 - 0x22 - Data Pixel start<br>
* 0x23 - 0x24 - Data Pixel end<br>
* 0x45 - Stepper Motor Mode<br>
* 0x4c - 0x4d - Full Steps to Scan after PAPER SENSE 2 trips<br>
* 0x50 - Steps to reverse when buffer is full<br>
* 0x51 - Acceleration Profile<br>
* 0x54 - 0x5e - Motor Settings, Paper-Sense Settings and Misc I/O<br>
*
* @param dev - pointer to our device structure,
* it should contain all we need
* @return - Nothing
*/
static void
usb_ResetRegisters( Plustek_Device *dev )
{
int linend;
HWDef *hw = &dev->usbDev.HwSetting;
u_char *regs = dev->usbDev.a_bRegs;
DBG( _DBG_INFO, "RESETTING REGISTERS(%i) - 0x%02x\n",
dev->initialized, (int) sizeof(dev->usbDev.a_bRegs));
memset( regs, 0, sizeof(dev->usbDev.a_bRegs));
memcpy( regs+0x0b, &hw->bSensorConfiguration, 4 );
memcpy( regs+0x0f, &hw->bReg_0x0f_Color, 10 );
regs[0x1a] = _HIBYTE( hw->StepperPhaseCorrection );
regs[0x1b] = _LOBYTE( hw->StepperPhaseCorrection );
/* HEINER: CHECK WHY THIS has been disabled*/
#if 0
regs[0x1c] = hw->bOpticBlackStart;
regs[0x1d] = hw->bOpticBlackEnd;
regs[0x1e] = _HIBYTE( hw->wActivePixelsStart );
regs[0x1f] = _LOBYTE( hw->wActivePixelsStart );
#endif
regs[0x20] = _HIBYTE( hw->wLineEnd );
regs[0x21] = _LOBYTE( hw->wLineEnd );
regs[0x22] = _HIBYTE( hw->bOpticBlackStart );
regs[0x23] = _LOBYTE( hw->bOpticBlackStart );
linend = hw->bOpticBlackStart + hw->wLineEnd;
if( linend < (hw->wLineEnd-20))
linend = hw->wLineEnd-20;
regs[0x24] = _HIBYTE( linend );
regs[0x25] = _LOBYTE( linend );
regs[0x2a] = _HIBYTE( hw->wGreenPWMDutyCycleHigh );
regs[0x2b] = _LOBYTE( hw->wGreenPWMDutyCycleHigh );
regs[0x45] = hw->bReg_0x45;
regs[0x4c] = _HIBYTE( hw->wStepsAfterPaperSensor2 );
regs[0x4d] = _LOBYTE( hw->wStepsAfterPaperSensor2 );
regs[0x50] = hw->bStepsToReverse;
regs[0x51] = hw->bReg_0x51;
/* if already initialized, we ignore the MISC I/O settings as
* they are used to determine the current lamp settings...
*/
if( dev->initialized >= 0 ) {
DBG( _DBG_INFO2, "USING MISC I/O settings\n" );
memcpy( regs+0x54, &hw->bReg_0x54, 0x58 - 0x54 + 1 );
regs[0x5c] = hw->bReg_0x5c;
regs[0x5d] = hw->bReg_0x5d;
regs[0x5e] = hw->bReg_0x5e;
sanei_lm983x_read( dev->fd, 0x59, &regs[0x59], 3, SANE_TRUE );
} else {
DBG( _DBG_INFO2, "SETTING THE MISC I/Os\n" );
memcpy( regs+0x54, &hw->bReg_0x54, 0x5e - 0x54 + 1 );
if( usb_IsCISDevice( dev )) {
/* this sequence seems to be needed at least for the
* CanoScan devices to work properly after power-up
*/
sanei_lm983x_write_byte( dev->fd, 0x5b, regs[0x5b] );
/* At least CanoScan N650U can have a problem with writing
* to register 0x59 due XHCI USB controller is too
* fast for him. Simulate EHCI USB controller's
* behavior here - wait 1ms.
*/
usleep(1000);
sanei_lm983x_write_byte( dev->fd, 0x59, regs[0x59] );
sanei_lm983x_write_byte( dev->fd, 0x5a, regs[0x5a] );
} else {
sanei_lm983x_write( dev->fd, 0x59, &regs[0x59], 3, SANE_TRUE );
}
}
DBG( _DBG_INFO, "MISC I/O after RESET: 0x%02x, 0x%02x, 0x%02x\n",
regs[0x59], regs[0x5a], regs[0x5b] );
}
/** function which checks if we are already in home position or not.
*
*/
static SANE_Bool
usb_SensorStatus( Plustek_Device *dev )
{
u_char value;
HWDef *hw = &dev->usbDev.HwSetting;
/* HEINER: Maybe needed to avoid recalibration!!! */
#if 0
if( dev->scanning.fCalibrated )
return SANE_TRUE;
#endif
/* read the status register */
_UIO( usbio_ReadReg( dev->fd, 2, &value ));
if( value & 1 ) {
_UIO( usbio_ReadReg( dev->fd, 0x7, &value));
if( value ) {
usbio_WriteReg( dev->fd, 0x07, 0 );
usbio_WriteReg( dev->fd, 0x07, 0x20 );
usbio_WriteReg( dev->fd, 0x07, 0 );
sanei_lm983x_write( dev->fd, 0x58,
&hw->bReg_0x58, 0x5b-0x58+1, SANE_TRUE );
usbio_ReadReg( dev->fd, 2, &value );
usbio_ReadReg( dev->fd, 2, &value );
}
usb_MotorOn( dev, SANE_FALSE );
return SANE_TRUE;
}
_UIO( usbio_ReadReg( dev->fd, 0x7, &value ));
if( !(value & 2)) {
usb_ModuleToHome( dev, SANE_FALSE );
}
return SANE_FALSE;
}
/**
*/
static void
usb_LampSwitch( Plustek_Device *dev, SANE_Bool sw )
{
int handle = -1;
if( -1 == dev->fd ) {
if( SANE_STATUS_GOOD == sanei_usb_open(dev->sane.name, &handle)) {
dev->fd = handle;
}
}
/* needs to be recalibrated */
dev->scanning.fCalibrated = SANE_FALSE;
if( -1 != dev->fd )
usb_LampOn( dev, sw, SANE_FALSE );
if( -1 != handle ) {
dev->fd = -1;
sanei_usb_close( handle );
}
}
/* HEINER: replace!!! */
static Plustek_Device *dev_xxx = NULL;
/** ISR to switch lamp off after time has elapsed
*/
static void
usb_LampTimerIrq( int sig )
{
if( NULL == dev_xxx )
return;
_VAR_NOT_USED( sig );
DBG( _DBG_INFO, "LAMP OFF!!!\n" );
usb_LampSwitch( dev_xxx, SANE_FALSE );
}
/** usb_StartLampTimer
*/
static void
usb_StartLampTimer( Plustek_Device *dev )
{
sigset_t block, pause_mask;
struct sigaction s;
#ifdef HAVE_SETITIMER
struct itimerval interval;
#endif
/* block SIGALRM */
sigemptyset( &block );
sigaddset ( &block, SIGALRM );
sigprocmask( SIG_BLOCK, &block, &pause_mask );
/* setup handler */
sigemptyset( &s.sa_mask );
sigaddset ( &s.sa_mask, SIGALRM );
s.sa_flags = 0;
s.sa_handler = usb_LampTimerIrq;
if( sigaction( SIGALRM, &s, NULL ) < 0 )
DBG( _DBG_ERROR, "Can't setup timer-irq handler\n" );
sigprocmask( SIG_UNBLOCK, &block, &pause_mask );
#ifdef HAVE_SETITIMER
/* define a one-shot timer */
interval.it_value.tv_usec = 0;
interval.it_value.tv_sec = dev->usbDev.dwLampOnPeriod;
interval.it_interval.tv_usec = 0;
interval.it_interval.tv_sec = 0;
if( 0 != dev->usbDev.dwLampOnPeriod ) {
dev_xxx = dev;
setitimer( ITIMER_REAL, &interval, &dev->saveSettings );
DBG( _DBG_INFO, "Lamp-Timer started (using ITIMER)\n" );
}
#else
if( 0 != dev->usbDev.dwLampOnPeriod ) {
dev_xxx = dev;
alarm( dev->usbDev.dwLampOnPeriod );
DBG( _DBG_INFO, "Lamp-Timer started (using ALARM)\n" );
}
#endif
}
/** usb_StopLampTimer
*/
static void
usb_StopLampTimer( Plustek_Device *dev )
{
sigset_t block, pause_mask;
/* block SIGALRM */
sigemptyset( &block );
sigaddset ( &block, SIGALRM );
sigprocmask( SIG_BLOCK, &block, &pause_mask );
dev_xxx = NULL;
#ifdef HAVE_SETITIMER
if( 0 != dev->usbDev.dwLampOnPeriod )
setitimer( ITIMER_REAL, &dev->saveSettings, NULL );
#else
_VAR_NOT_USED( dev );
alarm( 0 );
#endif
DBG( _DBG_INFO, "Lamp-Timer stopped\n" );
}
/** wait until warmup has been done
*/
static SANE_Bool
usb_Wait4Warmup( Plustek_Device *dev )
{
u_long dw;
struct timeval t;
if( usb_IsCISDevice(dev)) {
DBG(_DBG_INFO,"Warmup: skipped for CIS devices\n" );
return SANE_TRUE;
}
if( dev->adj.warmup < 0 )
return SANE_TRUE;
/*
* wait until warmup period has been elapsed
*/
gettimeofday( &t, NULL);
dw = t.tv_sec - dev->usbDev.dwTicksLampOn;
if( dw < (u_long)dev->adj.warmup )
DBG(_DBG_INFO,"Warmup: Waiting %d seconds\n", dev->adj.warmup );
do {
gettimeofday( &t, NULL);
dw = t.tv_sec - dev->usbDev.dwTicksLampOn;
if( usb_IsEscPressed()) {
return SANE_FALSE;
}
} while( dw < (u_long)dev->adj.warmup );
return SANE_TRUE;
}
/** function for TPA autodection (EPSON & UMAX devices)
*/
static SANE_Bool
usb_HasTPA( Plustek_Device *dev )
{
static char model[] = { "3450" };
u_char val;
if( dev->usbDev.vendor == 0x04B8 ) { /* the EPSON section */
usb_switchLampX( dev, SANE_FALSE, SANE_TRUE );
usbio_WriteReg ( dev->fd, 0x58, 0x1d );
usbio_WriteReg ( dev->fd, 0x59, 0x49 );
usbio_ReadReg ( dev->fd, 0x02, &val );
usbio_WriteReg ( dev->fd, 0x58, dev->usbDev.HwSetting.bReg_0x58 );
usbio_WriteReg ( dev->fd, 0x59, dev->usbDev.HwSetting.bReg_0x59 );
DBG( _DBG_INFO, "REG[0x02] = 0x%02x\n", val );
if( val & 0x02 ) {
DBG( _DBG_INFO, "EPSON-TPA detected\n" );
return SANE_TRUE;
} else
DBG( _DBG_INFO, "EPSON-TPA NOT detected\n" );
if( dev->adj.enableTpa ) {
DBG( _DBG_INFO, "EPSON-TPA usage forced\n" );
return SANE_TRUE;
}
} else if( dev->usbDev.vendor == 0x1606 ) { /* the UMAX section */
if((dev->usbDev.product == 0x0050) || (dev->usbDev.product == 0x0060)) {
usbio_ReadReg ( dev->fd, 0x02, &val );
DBG( _DBG_INFO, "REG[0x02] = 0x%02x\n", val );
usbio_WriteReg ( dev->fd, 0x58, dev->usbDev.HwSetting.bReg_0x58 );
usbio_WriteReg ( dev->fd, 0x5a, dev->usbDev.HwSetting.bReg_0x5a );
usbio_WriteReg ( dev->fd, 0x5b, dev->usbDev.HwSetting.bReg_0x5b );
usbio_ReadReg ( dev->fd, 0x02, &val );
DBG( _DBG_INFO, "REG[0x02] = 0x%02x\n", val );
if( val & 0x02 ) {
DBG( _DBG_INFO, "UMAX-TPA detected\n" );
dev->usbDev.ModelStr = model;
return SANE_TRUE;
} else
DBG( _DBG_INFO, "UMAX-TPA NOT detected\n" );
if( dev->adj.enableTpa ) {
DBG( _DBG_INFO, "UMAX-TPA usage forced\n" );
dev->usbDev.ModelStr = model;
return SANE_TRUE;
}
}
}
return SANE_FALSE;
}
/** function for reading the button states
*/
static SANE_Bool
usb_UpdateButtonStatus( Plustek_Scanner *s )
{
u_char mio[3];
SANE_Byte val, mask;
int i, j, bc;
int handle = -1;
SANE_Status status;
Plustek_Device *dev = s->hw;
DCapsDef *caps = &dev->usbDev.Caps;
if (caps->bButtons == 0)
return SANE_FALSE;
status = sanei_access_lock( dev->sane.name, 3 );
if( SANE_STATUS_GOOD != status )
return SANE_FALSE;
if( -1 == dev->fd ) {
status = sanei_usb_open(dev->sane.name, &handle);
if( SANE_STATUS_GOOD != status ) {
sanei_access_unlock( dev->sane.name );
return SANE_FALSE;
}
dev->fd = handle;
}
/* we have to check all 6 misc I/O ports for input configuration*/
mio[0] = dev->usbDev.HwSetting.bReg_0x59;
mio[1] = dev->usbDev.HwSetting.bReg_0x5a;
mio[2] = dev->usbDev.HwSetting.bReg_0x5b;
usbio_ReadReg( dev->fd, 0x07, &val );
if( val == 0 ) {
/* first read clears the status... */
usbio_ReadReg( dev->fd, 0x02, &val );
/* Plustek and KYE/Genius use altnernative button handling */
if((dev->usbDev.vendor == 0x07B3) || (dev->usbDev.vendor == 0x0458)) {
DBG( _DBG_INFO2, "Button Value=0x%02x\n", val );
/* no button pressed so far */
for( i = 0; i < caps->bButtons; i++ )
s->val[OPT_BUTTON_0 + i].w = 0;
if (caps->bButtons == 2 || caps->bButtons == 5) {
val >>= 2;
val &= 0x07;
DBG( _DBG_INFO2, "Button Value=0x%02x (2/5)\n", val );
switch( val ) {
case 1: s->val[OPT_BUTTON_1].w = 1; break;
case 2: s->val[OPT_BUTTON_0].w = 1; break;
case 3: s->val[OPT_BUTTON_2].w = 1; break;
case 4: s->val[OPT_BUTTON_3].w = 1; break;
case 6: s->val[OPT_BUTTON_4].w = 1; break;
}
} else if (caps->bButtons == 4 ) {
val >>= 5;
val &= 0x07;
DBG( _DBG_INFO2, "Button Value=0x%02x (4)\n", val );
switch( val ) {
case 1: s->val[OPT_BUTTON_0].w = 1; break;
case 2: s->val[OPT_BUTTON_1].w = 1; break;
case 4: s->val[OPT_BUTTON_2].w = 1; break;
case 6: s->val[OPT_BUTTON_3].w = 1; break;
}
} else {
DBG( _DBG_INFO2, "Hmm, could not handle this!\n" );
}
} else {
/* the generic section... */
val >>= 2;
bc = 0;
/* only use the "valid" ports, that reflect a button */
if( _WAF_MISC_IO_BUTTONS & caps->workaroundFlag ) {
if((caps->misc_io & _PORT0) == 0)
mio[0] = 0xff;
if((caps->misc_io & _PORT1) == 0)
mio[1] = 0xff;
if((caps->misc_io & _PORT2) == 0)
mio[2] = 0xff;
}
for( i = 0; i < 3; i++ ) {
DBG( _DBG_INFO2, "Checking MISC IO[%u]=0x%02x\n", i, mio[i] );
mask = 0x01;
for( j = 0; j < 2; j++ ) {
if((mio[i] & mask) == 0) {
DBG( _DBG_INFO2, "* port %u configured as input,"
" status: %s (%u)\n", (i*2)+j+1,
((val & 1)?"PRESSED":"RELEASED"), (OPT_BUTTON_0 + bc));
s->val[OPT_BUTTON_0 + bc].w = val & 1;
bc++;
}
val >>= 1;
mask <<= 4;
}
}
}
} else {
DBG( _DBG_INFO2, "Scanner NOT idle: 0x%02x\n", val );
}
if( -1 != handle ) {
dev->fd = -1;
sanei_usb_close( handle );
}
sanei_access_unlock( dev->sane.name );
return SANE_TRUE;
}
/* END PLUSTEK-USBHW.C ......................................................*/
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