sane-project-backends/backend/microtek2.h

1385 wiersze
55 KiB
C

/*******************************************************************************
* SANE - Scanner Access Now Easy.
microtek2.h
This file (C) 1998, 1999 Bernd Schroeder
2000, 2001 Karsten Festag
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.
*******************************************************************************/
#ifndef microtek2_h
#define microtek2_h
#include <sys/types.h>
/******************************************************************************/
/* Miscellaneous defines */
/******************************************************************************/
#ifndef PATH_MAX
# define PATH_MAX 1024
#endif
#ifdef HAVE_AUTHORIZATION
#ifndef PATH_SEP
#if defined(_WIN32) || defined(HAVE_OS2_H)
# define PATH_SEP "\\"
#else
# define PATH_SEP "/"
#endif
#endif
#define MAX_LINE_LEN 512 /* max length of entry in password file */
#define PASSWD_FILE STRINGIFY(PATH_SANE_CONFIG_DIR) PATH_SEP "auth"
#define SEPARATOR ':' /* separator in that file */
#define SALT "ab" /* used by crypt() */
#endif /* HAVE_AUTHORIZATION */
#define ENDIAN_TYPE(d) { unsigned i, test = 0; \
for (i=0; i < sizeof(int); i++ ) \
test += i << (8 * i); \
d = ((char *) &test)[0] == 0 ? 0 : 1; }
#define MIN(a,b) ((a) < (b)) ? (a) : (b)
#define MAX(a,b) ((a) > (b)) ? (a) : (b)
#define MICROTEK2_MAJOR 0
#define MICROTEK2_MINOR 96
#define MICROTEK2_BUILD "200410042220"
#define MICROTEK2_CONFIG_FILE "microtek2.conf"
/******************************************************************************/
/* defines that are common to all devices */
/******************************************************************************/
#define MD_RESOLUTION_DEFAULT 72 << SANE_FIXED_SCALE_SHIFT
#define MD_BRIGHTNESS_DEFAULT 100 << SANE_FIXED_SCALE_SHIFT
#define MD_CONTRAST_DEFAULT 100 << SANE_FIXED_SCALE_SHIFT
#define MD_THRESHOLD_DEFAULT 128
#define MD_GAMMA_DEFAULT SANE_FIX(2.2)
#define MD_SHADOW_DEFAULT 0
#define MD_MIDTONE_DEFAULT 128
#define MD_HIGHLIGHT_DEFAULT 255
#define MD_EXPOSURE_DEFAULT 0
#define M_BRIGHTNESS_DEFAULT 128
#define M_CONTRAST_DEFAULT 128
#define M_SHADOW_DEFAULT 0
#define M_MIDTONE_DEFAULT 128
#define M_HIGHLIGHT_DEFAULT 255
#define M_EXPOSURE_DEFAULT 0
#define M_THRESHOLD_DEFAULT 128
/******************************************************************************/
/* SCSI commands used by the scanner */
/******************************************************************************/
/* INQUIRY */
#define INQ_CMD(d) d[0] = 0x12; d[1] = 0x00; d[2] = 0x00; \
d[3] = 0x00; d[4] = 0x00; d[5] = 0x00
#define INQ_CMD_L 6
#define INQ_ALLOC_L 5 /* first get 5 bytes */
#define INQ_ALLOC_P 4
#define INQ_SET_ALLOC(d,s) (d)[4] = (s)
#define INQ_GET_INQLEN(d,s) d = (s)[4]
#define INQ_GET_QUAL(d,s) d = ((s)[0] >> 5) & 0x07
#define INQ_GET_DEVT(d,s) d = (s)[0] & 0x1f
#define INQ_GET_VERSION(d,s) d = (s)[2] & 0x02
#define INQ_VENDOR_L 8
#define INQ_GET_VENDOR(d,s) strncpy(d, &(s)[8], INQ_VENDOR_L); \
d[INQ_VENDOR_L] = '\0'
#define INQ_MODEL_L 16
#define INQ_GET_MODEL(d,s) strncpy(d, &(s)[16], INQ_MODEL_L); \
d[INQ_MODEL_L] = '\0'
#define INQ_REV_L 4
#define INQ_GET_REV(d,s) strncpy(d, &(s)[32], INQ_REV_L); \
d[INQ_REV_L] = '\0'
#define INQ_GET_MODELCODE(d,s) d = (s)[36]
/* TEST_UNIT_READY */
#define TUR_CMD(d) d[0]=0x00; d[1]=0x00; d[2]=0x00; \
d[3]=0x00; d[4]=0x00; d[5]=0x00
#define TUR_CMD_L 6
/* READ GAMMA TABLE */
#define RG_CMD(d) (d)[0] = 0x28; (d)[1] = 0x00; (d)[2] = 0x03; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x00; \
(d)[9] = 0x00
#define RG_CMD_L 10
#define RG_PCORMAC(d,p) (d)[5] |= (((p) << 7) & 0x80)
#define RG_COLOR(d,p) (d)[5] |= (((p) << 5) & 0x60)
#define RG_WORD(d,p) (d)[5] |= ((p) & 0x01)
#define RG_TRANSFERLENGTH(d,p) (d)[7] = (((p) >> 8) & 0xff); \
(d)[8] = ((p) & 0xff)
/* SEND GAMMA TABLE */
#define SG_SET_CMD(d) (d)[0] = 0x2a; (d)[1] = 0x00; (d)[2] = 0x03; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x00; \
(d)[9] = 0x00
#define SG_CMD_L 10
#define SG_SET_PCORMAC(d,p) (d)[5] |= (((p) << 7) & 0x80)
#define SG_SET_COLOR(d,p) (d)[5] |= (((p) << 5) & 0x60)
#define SG_SET_WORD(d,p) (d)[5] |= ((p) & 0x01)
#define SG_SET_TRANSFERLENGTH(d,p) (d)[7] = (((p) >> 8) & 0xff); \
(d)[8] = ((p) & 0xff)
#define SG_DATA_P SG_CMD_L
/* READ CONTROL BITS */
#define RCB_SET_CMD(d) (d)[0] = 0x28; (d)[1] = 0x00; (d)[2] = 0x90; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x00; \
(d)[9] = 0x00
#define RCB_CMD_L 10
#define RCB_SET_LENGTH(d,s) (d)[6] = (((s) >> 16) & 0xff); \
(d)[7] = (((s) >> 8) & 0xff); \
(d)[8] = ((s) & 0xff);
/* READ_SCANNER_ATTRIBUTES */
#define RSA_CMD(d) d[0]=0x28; d[1]=0x00; d[2]=0x82; d[3]=0x00; \
d[4]=0x00; d[5]=0x00; d[6]=0x00; d[7]=0x00; \
d[8]=0x28; d[9]=0x00
#define RSA_CMD_L 10
#define RSA_SETMEDIA(d,p) d[5] |= ((p) & 0x77)
#define RSA_TRANSFERLENGTH 40
#define RSA_COLOR(d,s) d = (((s)[0] >> 7) & 0x01)
#define RSA_ONEPASS(d,s) d = (((s)[0] >> 6) & 0x01)
#define RSA_SCANNERTYPE(d,s) d = (((s)[0] >> 4) & 0x03)
#define RSA_FEPROM(d,s) d = (((s)[0] >> 3) & 0x01)
#define RSA_DATAFORMAT(d,s) d = ((s)[0] & 0x07)
#define RSA_COLORSEQUENCE_L 3
#define RSA_COLORSEQUENCE(d,s) { \
d[0] = (((s)[1] >> 6) & 0x03); \
d[1] = (((s)[1] >> 4) & 0x03); \
d[2] = (((s)[1] >> 2) & 0x03); \
}
#define RSA_NIS(d,s) d = ((s)[1] & 0x02)
#define RSA_DATSEQ(d,s) d = ((s)[1] & 0x01)
#define RSA_CCDGAP(d,s) d = (s)[2]
#define RSA_MAX_XRESOLUTION(d,s) d = ((s)[3] << 8) + (s)[4]
#define RSA_MAX_YRESOLUTION(d,s) d = ((s)[5] << 8) + (s)[6]
#define RSA_GEOWIDTH(d,s) d = ((s)[7] << 8) + (s)[8]
#define RSA_GEOHEIGHT(d,s) d = ((s)[9] << 8) + (s)[10]
#define RSA_OPTRESOLUTION(d,s) d = ((s)[11] << 8) + (s)[12]
#define RSA_DEPTH(d,s) d = (((s)[13] >> 4) & 0x0f)
#define RSA_SCANMODE(d,s) d = (s)[13] & 0x0f
#define RSA_CCDPIXELS(d,s) d = ((s)[14] << 8) + (s)[15]
#define RSA_LUTCAP(d,s) d = (s)[16]
#define RSA_DNLDPTRN(d,s) d = (((s)[17] >> 7) & 0x01)
#define RSA_GRAINSLCT(d,s) d = (s)[17] & 0x7f
#define RSA_SUPPOPT(d,s) d = (s)[18] & 0xf3
#define RSA_CALIBWHITE(d,s) d = ((s)[19] << 24) + ((s)[20] << 16) \
+ ((s)[21] << 8) + (s)[22]
#define RSA_CALIBSPACE(d,s) d = ((s)[23] << 24) + ((s)[24] << 16) \
+ ((s)[25] << 8) + (s)[26]
#define RSA_NLENS(d,s) d = (s)[27]
#define RSA_NWINDOWS(d,s) d = (s)[28]
#define RSA_SHTRNSFEREQU(d,s) d = (((s)[29] >> 2) & 0x3f)
#define RSA_SCNBTTN(d,s) d = (((s)[29] >> 1) & 0x01)
#define RSA_BUFTYPE(d,s) d = (s)[29] & 0x01
#define RSA_REDBALANCE(d,s) d = ((s)[30] << 8) | (s)[31]
#define RSA_GREENBALANCE(d,s) d = ((s)[32] << 8) | (s)[33]
#define RSA_BLUEBALANCE(d,s) d = ((s)[34] << 8) | (s)[35]
#define RSA_APSMAXFRAMES(d,s) d = (s)[36]
/* READ IMAGE INFORMATION */
#define RII_SET_CMD(d) (d)[0] = 0x28; (d)[1] = 0x00; (d)[2] = 0x80; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x10; \
(d)[9] = 0x00
#define RII_CMD_L 10
#define RII_RESULT_L 16
#define RII_GET_WIDTHPIXEL(d,s) d = ((s)[0] << 24) + ((s)[1] << 16) \
+ ((s)[2] << 8) + (s)[3]
#define RII_GET_WIDTHBYTES(d,s) d = ((s)[4] << 24) + ((s)[5] << 16) \
+ ((s)[6] << 8) + (s)[7]
#define RII_GET_HEIGHTLINES(d,s) d = ((s)[8] << 24) + ((s)[9] << 16) \
+ ((s)[10] << 8) + (s)[11]
#define RII_GET_REMAINBYTES(d,s) d = ((s)[12] << 24) + ((s)[13] << 16) \
+ ((s)[14] << 8) + (s)[15]
/* The V300 returns some values in only two bytes */
#define RII_GET_V300_WIDTHPIXEL(d,s) d = ((s)[0] << 8) + (s)[1]
#define RII_GET_V300_WIDTHBYTES(d,s) d = ((s)[2] << 8) + (s)[3]
#define RII_GET_V300_HEIGHTLINES(d,s) d = ((s)[4] << 8) + (s)[5]
#define RII_GET_V300_REMAINBYTES(d,s) d = ((s)[6] << 24) + ((s)[7] << 16) \
+ ((s)[8] << 8) + (s)[9]
/* READ SHADING INFORMATION */
#define RSI_SET_CMD(d) (d)[0] = 0x28; (d)[1] = 0x00; (d)[2] = 0x01; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x10; \
(d)[9] = 0x00
#define RSI_CMD_L 10
#define RSI_SET_PCORMAC(d,s) (d)[5] |= (((s) << 7) & 0x80)
#define RSI_SET_COLOR(d,s) (d)[5] |= (((s) << 5) & 0x60)
#define RSI_SET_DARK(d,s) (d)[5] |= (((s) << 1) & 0x02) /*(KF)*/
/* RSI_SET_DARK was missing*/
#define RSI_SET_WORD(d,s) (d)[5] |= ((s) & 0x01)
#define RSI_SET_TRANSFERLENGTH(d,s) (d)[6] = (((s) >> 16) & 0xff); \
(d)[7] = (((s) >> 8) & 0xff); \
(d)[8] = ((s) & 0xff);
/* SEND SHADING INFORMATION */
#define SSI_SET_CMD(d) (d)[0] = 0x2a; (d)[1] = 0x00; (d)[2] = 0x01; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x00; \
(d)[9] = 0x00
#define SSI_CMD_L 10
#define SSI_SET_PCORMAC(d,s) (d)[5] |= (((s) << 7) & 0x80)
#define SSI_SET_COLOR(d,s) (d)[5] |= (((s) << 5) & 0x60)
#define SSI_SET_DARK(d,s) (d)[5] |= (((s) << 1) & 0x02)
#define SSI_SET_WORD(d,s) (d)[5] |= ((s) & 0x01)
#define SSI_SET_TRANSFERLENGTH(d,s) (d)[6] = (((s) >> 16) & 0xff); \
(d)[7] = (((s) >> 8) & 0xff); \
(d)[8] = ((s) & 0xff);
/* READ IMAGE */
/* READ IMAGE */
#define RI_SET_CMD(d) (d)[0] = 0x28; (d)[1] = 0x00; (d)[2] = 0x00; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x00; \
(d)[9] = 0x00
#define RI_CMD_L 10
#define RI_SET_PCORMAC(d,s) (d)[4] |= (((s) << 7) & 0x80)
#define RI_SET_COLOR(d,s) (d)[4] |= (((s) << 5) & 0x60)
#define RI_SET_TRANSFERLENGTH(d,s) (d)[6] = (((s) >> 16) & 0xff); \
(d)[7] = (((s) >> 8) & 0xff); \
(d)[8] = ((s) & 0xff);
/* READ SYSTEM_STATUS */
#define RSS_CMD(d) (d)[0] = 0x28; (d)[1] = 0x00; (d)[2] = 0x81; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x09; \
(d)[9] = 0x00
#define RSS_CMD_L 10
#define RSS_RESULT_L 9
#define RSS_FIRSTSCAN(s) (s)[0] & 0x80
#define RSS_AFOCUS(s) (s)[0] & 0x40
#define RSS_SSKIP(s) (s)[0] & 0x20
#define RSS_STICK(s) (s)[0] & 0x10
#define RSS_NTRACK(s) (s)[0] & 0x08
#define RSS_NCALIB(s) (s)[0] & 0x04
#define RSS_TLAMP(s) (s)[0] & 0x02
#define RSS_FLAMP(s) (s)[0] & 0x01
#define RSS_FSH(s) (s)[1] & 0x20
#define RSS_TEFLAG(s) (s)[1] & 0x10
#define RSS_WHITESTRIE(s) (s)[1] & 0x08
#define RSS_RDYMAN(s) (s)[1] & 0x04
#define RSS_TRDY(s) (s)[1] & 0x02
#define RSS_FRDY(s) (s)[1] & 0x01
#define RSS_ADP(s) (s)[2] & 0x80
#define RSS_DETECT(s) (s)[2] & 0x40
#define RSS_ADPTIME(s) (s)[2] & 0x3f
#define RSS_LENSSTATUS(s) (s)[3]
#define RSS_ALOFF(s) (s)[4] & 0x80
#define RSS_TIMEREMAIN(s) (s)[4] & 0x7f
#define RSS_MTMACNT(s) (s)[5] & 0x40
#define RSS_MOVE(s) (s)[5] & 0x20
#define RSS_LAMP(s) (s)[5] & 0x10
#define RSS_EJECT(s) (s)[5] & 0x08
#define RSS_TMACNT(s) (s)[5] & 0x04
#define RSS_PAPER(s) (s)[5] & 0x02
#define RSS_ADFCNT(s) (s)[5] & 0x01
#define RSS_CANCELBTN(s) (s)[6] & 0x80
#define RSS_COPYBTN(s) (s)[6] & 0x40
#define RSS_EMAILBTN(s) (s)[6] & 0x20
#define RSS_GOBTN(s) (s)[6] & 0x10
#define RSS_TURBOBTN(s) (s)[6] & 0x08
#define RSS_CURRENTMODE(s) (s)[6] & 0x07
#define RSS_BUTTONCOUNT(s) (s)[7]
#define RSS_MFOCUS(s) (s)[9]
/* SEND SYSTEM STATUS */
#define SSS_CMD(d) (d)[0] = 0x2a; (d)[1] = 0x00; (d)[2] = 0x81; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x09; \
(d)[9] = 0x00
#define SSS_CMD_L 10
#define SSS_DATA_L 9
#define SSS_AFOCUS(d,p) d[0] |= (p) & 0x40
#define SSS_STICK(d,p) d[0] |= (p) & 0x10
#define SSS_NTRACK(d,p) d[0] |= (p) & 0x08
#define SSS_NCALIB(d,p) d[0] |= (p) & 0x04
#define SSS_TLAMP(d,p) d[0] |= (p) & 0x02
#define SSS_FLAMP(d,p) d[0] |= (p) & 0x01
#define SSS_RESERVED17(d,p) d[1] |= (p) & 0x80
#define SSS_FSH(d,p) d[1] |= (p) & 0x40
#define SSS_RDYMAN(d,p) d[1] |= (p) & 0x04
#define SSS_TRDY(d,p) d[1] |= (p) & 0x02
#define SSS_FRDY(d,p) d[1] |= (p) & 0x01
#define SSS_ADP(d,p) d[2] |= (p) & 0x80
#define SSS_DETECT(d,p) d[2] |= (p) & 0x40
#define SSS_ADPTIME(d,p) d[2] |= (p) & 0x3f
#define SSS_LENSSTATUS(d,p) d[3] |= (p)
#define SSS_ALOFF(d,p) d[4] |= (p) & 0x80
#define SSS_TIMEREMAIN(d,p) d[4] |= (p) & 0x7f
#define SSS_TMACNT(d,p) d[5] |= (p) & 0x04
#define SSS_PAPER(d,p) d[5] |= (p) & 0x02
#define SSS_ADFCNT(d,p) d[5] |= (p) & 0x01
#define SSS_CURRENTMODE(d,p) d[6] |= (p) & 0x07
#define SSS_BUTTONCOUNT(d,p) d[6] |= (p)
#define SSS_MFOCUS(s) d[9] |= (p)
/* SET WINDOW */
#define SW_CMD(d) d[0]=0x24; d[1]=0x00; d[2]=0x00; d[3]=0x00; \
d[4]=0x00; d[5]=0x00; d[6]=0x00; d[7]=0x00;\
d[8]=0x00; d[9]=0x00
#define SW_CMD_L 10
#define SW_HEADER_L 8
#define SW_BODY_L 61
#define SW_CMD_P 0 /* command at postion 0 */
#define SW_HEADER_P SW_CMD_L
#define SW_BODY_P(n) SW_CMD_L + SW_HEADER_L + (n) * SW_BODY_L
/* d: SW_CMD_P, SW_HEADER_P, SW_BODY_P(n) */
#define SW_PARAM_LENGTH(d,p) (d)[6] = ((p) >> 16) & 0xff; \
(d)[7] = ((p) >> 8) & 0xff;\
(d)[8] = (p) & 0xff
#define SW_WNDDESCVAL SW_BODY_L
#define SW_WNDDESCLEN(d,p) (d)[6] = ((p) >> 8) & 0xff; \
(d)[7] = (p) & 0xff
#define SW_WNDID(d,p) (d)[0] = (p)
#define SW_XRESDPI(d,p) (d)[2] = ((p) >> 8) & 0xff; \
(d)[3] = (p) & 0xff
#define SW_YRESDPI(d,p) (d)[4] = ((p) >> 8) & 0xff; \
(d)[5] = (p) & 0xff
#define SW_XPOSTL(d,p) (d)[6] = ((p) >> 24) & 0xff; \
(d)[7] = ((p) >> 16) & 0xff; \
(d)[8] = ((p) >> 8) & 0xff; \
(d)[9] = ((p)) & 0xff
#define SW_YPOSTL(d,p) (d)[10] = ((p) >> 24) & 0xff; \
(d)[11] = ((p) >> 16) & 0xff; \
(d)[12] = ((p) >> 8) & 0xff; \
(d)[13] = (p) & 0xff
#define SW_WNDWIDTH(d,p) (d)[14] = ((p) >> 24) & 0xff; \
(d)[15] = ((p) >> 16) & 0xff; \
(d)[16] = ((p) >> 8) & 0xff; \
(d)[17] = (p) & 0xff
#define SW_WNDHEIGHT(d,p) (d)[18] = ((p) >> 24) & 0xff; \
(d)[19] = ((p) >> 16) & 0xff; \
(d)[20] = ((p) >> 8) & 0xff; \
(d)[21] = (p) & 0xff
#define SW_BRIGHTNESS_M(d,p) (d)[22] = (p)
#define SW_THRESHOLD(d,p) (d)[23] = (p)
#define SW_CONTRAST_M(d,p) (d)[24] = (p)
#define SW_IMGCOMP(d,p) (d)[25] = (p) & 0x0f /* take lineartfake */
/* into account */
#define SW_BITSPERPIXEL(d,p) (d)[26] = (p)
#define SW_EXPOSURE_M(d,p) (d)[27] = (p)
#define SW_EXTHT(d,p) (d)[28] |= (((p) << 7) & 0x80)
#define SW_INTHTINDEX(d,p) (d)[28] |= ((p) & 0x7f)
#define SW_RIF(d,p) (d)[29] |= (((p) << 7) & 0x80)
#define SW_NOGAMMA(d,p) (d)[29] |= (((p) << 6) & 0x40)
#define SW_SLOWSCAN(d,p) (d)[29] |= (((p) << 5) & 0x20)
#define SW_LENS(d,p) (d)[30] = (p)
#define SW_INFINITE(d,p) (d)[31] |= (((p) << 7) & 0x80)
#define SW_STAY(d,p) (d)[31] |= (((p) << 6) & 0x40)
#define SW_RAWDAT(d,p) (d)[31] |= (((p) << 5) & 0x20)
#define SW_QUALITY(d,p) (d)[31] |= (((p) << 4) & 0x10)
#define SW_FASTSCAN(d,p) (d)[31] |= (((p) << 3) & 0x08)
#define SW_MEDIA(d,p) (d)[31] |= ((p) & 0x07)
#define SW_JPEGENABLE(d,p) (d)[34] |= (((p) << 7) & 0x80)
#define SW_JPEGALGOR(d,p) (d)[34] |= (((p) << 5) & 0x60)
#define SW_JPEGMODE(d,p) (d)[34] |= (((p) << 3) & 0x18)
#define SW_SHADOW_M(d,p) (d)[40] = (p)
#define SW_MIDTONE_M(d,p) (d)[41] = (p)
#define SW_HIGHLIGHT_M(d,p) (d)[42] = (p)
#define SW_BRIGHTNESS_R(d,p) (d)[43] = (p)
#define SW_CONTRAST_R(d,p) (d)[44] = (p)
#define SW_EXPOSURE_R(d,p) (d)[45] = (p)
#define SW_SHADOW_R(d,p) (d)[46] = (p)
#define SW_MIDTONE_R(d,p) (d)[47] = (p)
#define SW_HIGHLIGHT_R(d,p) (d)[48] = (p)
#define SW_BRIGHTNESS_G(d,p) (d)[49] = (p)
#define SW_CONTRAST_G(d,p) (d)[50] = (p)
#define SW_EXPOSURE_G(d,p) (d)[51] = (p)
#define SW_SHADOW_G(d,p) (d)[52] = (p)
#define SW_MIDTONE_G(d,p) (d)[53] = (p)
#define SW_HIGHLIGHT_G(d,p) (d)[54] = (p)
#define SW_BRIGHTNESS_B(d,p) (d)[55] = (p)
#define SW_CONTRAST_B(d,p) (d)[56] = (p)
#define SW_EXPOSURE_B(d,p) (d)[57] = (p)
#define SW_SHADOW_B(d,p) (d)[58] = (p)
#define SW_MIDTONE_B(d,p) (d)[59] = (p)
#define SW_HIGHLIGHT_B(d,p) (d)[60] = (p)
/* READ IMAGE STATUS */
#define RIS_SET_CMD(d) (d)[0] = 0x28; (d)[1] = 0x00; (d)[2] = 0x83; \
(d)[3] = 0x00; (d)[4] = 0x00; (d)[5] = 0x00; \
(d)[6] = 0x00; (d)[7] = 0x00; (d)[8] = 0x00; \
(d)[9] = 0x00
#define RIS_CMD_L 10
#define RIS_SET_PCORMAC(d,p) (d)[4] |= (((p) << 7) & 0x80)
#define RIS_SET_COLOR(d,p) (d)[4] |= (((p) << 5) & 0x60)
/* REQUEST SENSE */
#define RQS_CMD(d) (d)[0] = 0x03; (d)[1] = 0x00; (d)[2] = 0x00; \
(d)[3] = 0x00; (d)[5] = 0x00
#define RQS_CMD_L 6
#define RQS_ALLOCLENGTH(d,p) (d)[4] = (p)
#define RQS_LENGTH(s) (s)[7] + 7
#define RQS_SENSEKEY_NOSENSE 0x00
#define RQS_SENSEKEY_HWERR 0x04
#define RQS_SENSEKEY_ILLEGAL 0x05
#define RQS_SENSEKEY_VENDOR 0x09
#define RQS_SENSEKEY(s) ((s)[2] & 0x0f)
#define RQS_INFO(s) ((s)[3] << 24) + ((s)[4] << 16) \
+ ((s)[5] << 8) + ((s)[6])
#define RQS_ASL(s) (s)[7]
#define RQS_REMAINBYTES(s) ((s)[8] << 24) + ((s)[9] << 16) \
+ ((s)[10] << 8) + ((s)[11])
#define RQS_ASC(s) (s)[12]
/* ASC == 0x40 */
#define RQS_ASCQ_CPUERR 0x81
#define RQS_ASCQ_SRAMERR 0x82
#define RQS_ASCQ_DRAMERR 0x84
#define RQS_ASCQ_DCOFF 0x88
#define RQS_ASCQ_GAIN 0x90
#define RQS_ASCQ_POS 0xa0
#define RQS_ASCQ(s) (s)[13]
#define RQS_ASINFO(s) &((s)[18])
#define RQS_ASINFOLENGTH(s) (s)[7] - 11
/******************************************************************************/
/* enumeration of Option Descriptors */
/******************************************************************************/
enum Microtek2_Option
{
/*0*/
OPT_NUM_OPTS = 0,
/*1*/OPT_MODE_GROUP,
OPT_SOURCE,
OPT_MODE,
OPT_BITDEPTH,
OPT_RESOLUTION,
OPT_Y_RESOLUTION,
OPT_PREVIEW,
/*9*/ OPT_GEOMETRY_GROUP,
OPT_TL_X, /* top-left x */
OPT_TL_Y, /* top-left y */
OPT_BR_X, /* bottom-right x */
OPT_BR_Y, /* bottom-right y */
/*14*/ OPT_ENHANCEMENT_GROUP,
OPT_BRIGHTNESS,
OPT_CONTRAST,
OPT_THRESHOLD,
OPT_HALFTONE,
OPT_AUTOADJUST,
/*20*/ OPT_GAMMA_GROUP,
OPT_GAMMA_MODE,
OPT_GAMMA_SCALAR,
OPT_GAMMA_SCALAR_R,
OPT_GAMMA_SCALAR_G,
OPT_GAMMA_SCALAR_B,
OPT_GAMMA_CUSTOM,
OPT_GAMMA_CUSTOM_R,
OPT_GAMMA_CUSTOM_G,
OPT_GAMMA_CUSTOM_B,
OPT_GAMMA_BIND,
/*31*/ OPT_SMH_GROUP,
/* these options must appear in exactly this order, */
/* sane_control_option relies on it */
OPT_CHANNEL,
OPT_SHADOW,
OPT_MIDTONE,
OPT_HIGHLIGHT,
OPT_SHADOW_R,
OPT_MIDTONE_R,
OPT_HIGHLIGHT_R,
OPT_SHADOW_G,
OPT_MIDTONE_G,
OPT_HIGHLIGHT_G,
OPT_SHADOW_B,
OPT_MIDTONE_B,
OPT_HIGHLIGHT_B,
OPT_EXPOSURE,
OPT_EXPOSURE_R,
OPT_EXPOSURE_G,
OPT_EXPOSURE_B,
/*49*/ OPT_SPECIAL,
OPT_RESOLUTION_BIND,
OPT_DISABLE_BACKTRACK,
OPT_CALIB_BACKEND,
OPT_LIGHTLID35,
OPT_TOGGLELAMP,
/*55*/ OPT_COLORBALANCE,
OPT_BALANCE_R,
OPT_BALANCE_G,
OPT_BALANCE_B,
OPT_BALANCE_FW,
/*60*/ NUM_OPTIONS
};
/******************************************************************************/
/* Description of options not included in saneopts.h */
/******************************************************************************/
#define M_TITLE_SCANMODEGRP SANE_I18N("Scan Mode")
#define M_TITLE_GEOMGRP SANE_I18N("Geometry")
#define M_TITLE_ENHANCEGRP SANE_I18N("Enhancement")
#define M_TITLE_SMHGRP SANE_I18N("Shadow, midtone, highlight,"\
" exposure time");
#define M_TITLE_SPECIALGRP SANE_I18N("Special options")
#define M_TITLE_COLBALANCEGRP SANE_I18N("Color balance")
#define M_NAME_NOBACKTRACK "no-backtracking"
#define M_TITLE_NOBACKTRACK SANE_I18N("Disable backtracking")
#define M_DESC_NOBACKTRACK SANE_I18N("If checked the scanner does not" \
" perform backtracking")
#define M_NAME_TOGGLELAMP "toggle-lamp"
#define M_TITLE_TOGGLELAMP SANE_I18N("Toggle lamp of flatbed")
#define M_DESC_TOGGLELAMP SANE_I18N("Toggles the lamp of the flatbed")
#define M_NAME_CALIBBACKEND "backend-calibration"
#define M_TITLE_CALIBBACKEND SANE_I18N("Calibration by backend")
#define M_DESC_CALIBBACKEND SANE_I18N("If checked the color calibration" \
" before a scan is done by the backend")
#define M_NAME_LIGHTLID35 "lightlid35"
#define M_TITLE_LIGHTLID35 SANE_I18N("Use the lightlid-35mm adapter")
#define M_DESC_LIGHTLID35 SANE_I18N("This option turns off the lamp of" \
" the flatbed during a scan")
#define M_NAME_QUALITY_SCAN "quality-scan"
#define M_TITLE_QUALITY_SCAN SANE_I18N("Quality scan")
#define M_DESC_QUALITY_SCAN SANE_I18N("Highest quality but lower speed")
#define M_NAME_FAST_SCAN "fast-scan"
#define M_TITLE_FAST_SCAN SANE_I18N("Fast scan")
#define M_DESC_FAST_SCAN SANE_I18N("Highest speed but lower quality")
#define M_NAME_AUTOADJUST "lineart-auto-adjust"
#define M_TITLE_AUTOADJUST SANE_I18N("Automatic adjustment of threshold")
#define M_DESC_AUTOADJUST SANE_I18N("If checked the backend automatically"\
" tries to determine an optimal value for the" \
" threshold.")
#define M_NAME_GAMMA_MODE "gamma-correction"
#define M_TITLE_GAMMA_MODE SANE_I18N("Gamma correction")
#define M_DESC_GAMMA_MODE SANE_I18N("Selects the gamma correction mode.")
#define M_NAME_GAMMA_BIND "bind-gamma"
#define M_TITLE_GAMMA_BIND SANE_I18N("Bind gamma")
#define M_DESC_GAMMA_BIND SANE_I18N("Use same gamma values for all" \
" colour channels.")
#define M_NAME_GAMMA_SCALAR "scalar-gamma"
#define M_TITLE_GAMMA_SCALAR SANE_I18N("Scalar gamma")
#define M_DESC_GAMMA_SCALAR SANE_I18N("Selects a value for scalar" \
" gamma correction.")
#define M_NAME_GAMMA_SCALAR_R "scalar-gamma-r"
#define M_TITLE_GAMMA_SCALAR_R SANE_I18N("Scalar gamma red")
#define M_DESC_GAMMA_SCALAR_R SANE_I18N("Selects a value for scalar gamma" \
" correction (red channel)")
#define M_NAME_GAMMA_SCALAR_G "scalar-gamma-g"
#define M_TITLE_GAMMA_SCALAR_G SANE_I18N("Scalar gamma green")
#define M_DESC_GAMMA_SCALAR_G SANE_I18N("Selects a value for scalar gamma" \
" correction (green channel)")
#define M_NAME_GAMMA_SCALAR_B "scalar-gamma-b"
#define M_TITLE_GAMMA_SCALAR_B SANE_I18N("Scalar gamma blue")
#define M_DESC_GAMMA_SCALAR_B SANE_I18N("Selects a value for scalar gamma" \
" correction (blue channel)")
#define M_NAME_CHANNEL "channel"
#define M_TITLE_CHANNEL SANE_I18N("Channel")
#define M_DESC_CHANNEL SANE_I18N("Selects the colour band, \"Master\"" \
" means that all colours are affected.")
#define M_NAME_MIDTONE "midtone"
#define M_TITLE_MIDTONE SANE_I18N("Midtone")
#define M_DESC_MIDTONE SANE_I18N("Selects which radiance level should" \
" be considered \"50 % gray\".")
#define M_NAME_MIDTONE_R "midtone-r"
#define M_TITLE_MIDTONE_R SANE_I18N("Midtone for red")
#define M_DESC_MIDTONE_R SANE_I18N("Selects which radiance level should" \
" be considered \"50 % red\".")
#define M_NAME_MIDTONE_G "midtone-g"
#define M_TITLE_MIDTONE_G SANE_I18N("Midtone for green")
#define M_DESC_MIDTONE_G SANE_I18N("Selects which radiance level should" \
" be considered \"50 % green\".")
#define M_NAME_MIDTONE_B "midtone-b"
#define M_TITLE_MIDTONE_B SANE_I18N("Midtone for blue")
#define M_DESC_MIDTONE_B SANE_I18N("Selects which radiance level should" \
" be considered \"50 % blue\".")
#define M_NAME_BALANCE_R "balance-r"
#define M_TITLE_BALANCE_R SANE_I18N("Red balance")
#define M_DESC_BALANCE_R SANE_I18N("Balance factor for red. A value of" \
" 100% means no correction.")
#define M_NAME_BALANCE_G "balance-g"
#define M_TITLE_BALANCE_G SANE_I18N("Green balance")
#define M_DESC_BALANCE_G SANE_I18N("Balance factor for green. A value of"\
" 100% means no correction.")
#define M_NAME_BALANCE_B "balance-b"
#define M_TITLE_BALANCE_B SANE_I18N("Blue balance")
#define M_DESC_BALANCE_B SANE_I18N("Balance factor for blue. A value of" \
" 100% means no correction.")
#define M_NAME_BALANCE_FW "balance-fw"
#define M_TITLE_BALANCE_FW SANE_I18N("Firmware balance")
#define M_DESC_BALANCE_FW SANE_I18N("Sets the color balance values to"\
" the firmware provided values.")
/******************************************************************************/
/* Structure that contains global options */
/******************************************************************************/
typedef struct Config_Options
{
double strip_height; /* inch */
char *no_backtracking; /* enable/disable option for */
/* backtracking */
char *lightlid35; /* enable/disable lightlid35 option */
char *toggle_lamp; /* enable/disable lightlid35 option */
char *backend_calibration; /* calibration by backend */
char *auto_adjust; /* automatically choose threshold */
char *colorbalance_adjust; /* color balance can be modified */
} Config_Options;
/******************************************************************************/
/* Structure that is temporarily used, when the config file is parsed */
/******************************************************************************/
typedef struct Config_Temp
{
struct Config_Temp *next;
char *device; /* possible device name */
Config_Options opts; /* options belonging to this device name */
} Config_Temp;
/******************************************************************************/
/* scanner hardware info (as discovered by INQUIRY and READ ATTRIBUTES) */
/******************************************************************************/
typedef struct Microtek2_Info {
/* from inquiry */
SANE_Byte device_qualifier;
#define MI_DEVTYPE_SCANNER 0x06
SANE_Byte device_type;
#define MI_SCSI_II_VERSION 0x02
SANE_Byte scsi_version;
SANE_Char vendor[INQ_VENDOR_L + 1];
SANE_Char model[INQ_MODEL_L + 1];
SANE_Char revision[INQ_REV_L + 1];
SANE_Byte model_code;
/* from read scanner attributes */
SANE_Bool color;
#define MI_HAS_ONEPASS SANE_TRUE
SANE_Bool onepass;
/* the following 3 defines must correspond to byte 31 of SET WINDOW cmd */
#define MI_TYPE_FLATBED 0x01
#define MI_TYPE_SHEEDFEED 0x02
#define MI_TYPE_TRANSPARENCY 0x03
SANE_Byte scanner_type;
#define MI_HAS_FEPROM SANE_TRUE
SANE_Bool feprom;
/* MI_DATAFMT_X must correspond to Byte 0 in READ SCANNER ATTRIBUTE */
#define MI_DATAFMT_CHUNKY 1
#define MI_DATAFMT_LPLCONCAT 2
#define MI_DATAFMT_LPLSEGREG 3
#define MI_DATAFMT_9800 4
#define MI_DATAFMT_WORDCHUNKY 5
SANE_Byte data_format;
#define MI_COLSEQ_RED 0
#define MI_COLSEQ_GREEN 1
#define MI_COLSEQ_BLUE 2
#define MI_COLSEQ_ILLEGAL 3
uint8_t color_sequence[RSA_COLORSEQUENCE_L];
SANE_Bool new_image_status;
#define MI_DATSEQ_RTOL 1
uint8_t direction;
SANE_Byte ccd_gap;
SANE_Int max_xresolution;
SANE_Int max_yresolution;
SANE_Int geo_width;
SANE_Int geo_height;
SANE_Int opt_resolution;
#define MI_HASDEPTH_NIBBLE 1
#define MI_HASDEPTH_10 2
#define MI_HASDEPTH_12 4
#define MI_HASDEPTH_16 8
#define MI_HASDEPTH_14 16 /*This is not in Byte 13 of
scanner attributes but in
byte 48-bit0*/
SANE_Byte depth;
#define MI_LINEART_NONE(d) (((d) & 0x01) == 0)
#define MI_HASMODE_LINEART 1
#define MI_HASMODE_HALFTONE 2
#define MI_HASMODE_GRAY 4
#define MI_HASMODE_COLOR 8
SANE_Byte scanmode;
SANE_Int ccd_pixels;
#define MI_LUTCAP_NONE(d) ((d) == 0)
#define MI_LUTCAP_256B 1
#define MI_LUTCAP_1024B 2
#define MI_LUTCAP_1024W 4
#define MI_LUTCAP_4096B 8
#define MI_LUTCAP_4096W 16
#define MI_LUTCAP_64k_W 32
#define MI_LUTCAP_16k_W 64
#define MI_LUTCAP_UNKNOWN 128
SANE_Byte lut_cap;
#define MI_HAS_DNLDPTRN SANE_TRUE
SANE_Bool has_dnldptrn;
SANE_Byte grain_slct;
#define MI_OPTDEV_ADF 0x01
#define MI_OPTDEV_TMA 0x02
#define MI_OPTDEV_ADP 0x10
#define MI_OPTDEV_APS 0x20
#define MI_OPTDEV_STRIPE 0x40
#define MI_OPTDEV_SLIDE 0x80
SANE_Byte option_device;
SANE_Int calib_white;
SANE_Int calib_space;
SANE_Byte nlens;
SANE_Byte nwindows;
SANE_Byte shtrnsferequ;
#define MI_WHITE_SHADING_ONLY(x) ((x) & 0x20) == 0
#define MI_HAS_SCNBTTN SANE_TRUE
SANE_Bool scnbuttn;
#define MI_HAS_PIPOBUF SANE_TRUE
SANE_Bool buftype;
uint16_t balance[3]; /* balance factor for red, green */
/* and blue data */
uint16_t aps_maxframes;
SANE_Int calib_divisor; /* e.g. the X12USL reads and sends */
/* shading at 1/2 * opt_resolution */
} Microtek2_Info;
/******************************************************************************/
/* device structure (one for each device in config file) */
/******************************************************************************/
typedef struct Microtek2_Device {
struct Microtek2_Device *next; /* next, for linked list */
#define MD_SOURCE_FLATBED 0
#define MD_SOURCE_ADF 1
#define MD_SOURCE_TMA 2
#define MD_SOURCE_SLIDE 3
#define MD_SOURCE_STRIPE 4
Microtek2_Info info[5]; /* detailed scanner spec */
SANE_Device sane; /* SANE generic device block */
char name[PATH_MAX]; /* name from config file */
SANE_Int *custom_gamma_table[4]; /* used for the custom gamma */
/* values before a scan starts */
/* the following two are derived from lut_cap */
int max_lut_size; /* in bytes */
int lut_entry_size; /* word or byte transfer in LUT */
uint8_t scan_source;
double revision;
/* basically the following two variables should go into the */
/* Microtek2_Scanner structure, but their values must be retained */
/* over several scans, and would be lost, if the application issues */
/* a sane_close. */
uint8_t *shading_table_w; /* shading table white */
uint8_t *shading_table_d; /* shading table dark */
uint8_t shading_table_contents; /* values like ms->mode */
/* the following structure describes the device status */
#define MD_TLAMP_ON 2
#define MD_FLAMP_ON 1
#define MD_NCALIB_ON 4
#define MD_NTRACK_ON 8
#define MD_STICK_ON 16
#define MD_RESERVED17_ON 128
#define MD_CURRENT_MODE_FLATBED 0
struct {
uint8_t sskip;
uint8_t stick;
uint8_t ntrack;
uint8_t ncalib;
uint8_t tlamp;
uint8_t flamp;
uint8_t reserved17;
uint8_t rdyman;
uint8_t trdy;
uint8_t frdy;
uint8_t adp;
uint8_t detect;
uint8_t adptime;
uint8_t lensstatus;
uint8_t aloff;
uint8_t timeremain;
uint8_t tmacnt;
uint8_t paper;
uint8_t adfcnt;
uint8_t currentmode;
uint8_t buttoncount;
} status;
/* The following defines are related to the model. Some models have */
/* more or less subtle deviations from the spec, which are indicated */
/* by these defines */
uint32_t model_flags;
#define MD_NO_SLIDE_MODE 1 /* indicates that it has slide */
/* mode, but it does not */
#define MD_DATA_FORMAT_WRONG 2 /* X6 indicates wrong mode for TMA */
#define MD_NO_ENHANCEMENTS 4 /* image enhancements do not work */
/* (Brightness, contrast, .....) */
#define MD_RII_TWO_BYTES 8 /* return some image information */
/* in two byte */
#define MD_NO_GAMMA 16 /* if device does not accept */
/* gamma tables */
#define MD_PHANTOM336CX_TYPE_SHADING 32 /* Phantom 336cx type shading */
#define MD_READ_CONTROL_BIT 64 /* uses "read control bit" */
#define MD_PHANTOM_C6 128 /* It is a Phantom C6 */
#define MD_OFFSET_2 256 /* Image data starts 2 bytes */
/* from the beginning of a */
/* scanline */
#define MD_X6_SHORT_TRANSFER 512 /* X6 USB crashes if you read
too much */
#define MD_NO_RIS_COMMAND 1024 /* doesn't like read_image_status */
#define MD_16BIT_TRANSFER 2048 /* transfers 10/12/14bit scans as */
/* 16bit data */
#define MD_CALIB_DIVISOR_600 4096 /* uses mi->calib_divisor=2 below
600dpi */
size_t n_control_bytes; /* for read_control_bits; the */
/* number is model dependent */
/* and can not be inquired */
uint32_t shading_length; /* length of the shading image */
/* Phantom 336cx, C6, ... */
uint8_t shading_depth; /* bit depth of shading image */
uint8_t controlbit_offset; /* first relevant control bit */
#define MD_MODESTRING_NUMS 4
#define MD_MODESTRING_COLOR SANE_VALUE_SCAN_MODE_COLOR
#define MD_MODESTRING_GRAY SANE_VALUE_SCAN_MODE_GRAY
#define MD_MODESTRING_HALFTONE SANE_VALUE_SCAN_MODE_HALFTONE
#define MD_MODESTRING_LINEART SANE_VALUE_SCAN_MODE_LINEART
SANE_String_Const scanmode_list[MD_MODESTRING_NUMS + 1];
#define MD_DEPTHVAL_NUMS 6
#define MD_DEPTHVAL_16 16
#define MD_DEPTHVAL_14 14
#define MD_DEPTHVAL_12 12
#define MD_DEPTHVAL_10 10
#define MD_DEPTHVAL_8 8
#define MD_DEPTHVAL_4 4
SANE_Int bitdepth_list[MD_DEPTHVAL_NUMS + 1];
#define MD_SOURCESTRING_NUMS 5
#define MD_SOURCESTRING_FLATBED "Flatbed"
#define MD_SOURCESTRING_ADF "ADF"
#define MD_SOURCESTRING_TMA "TMA"
#define MD_SOURCESTRING_STRIPE "Filmstrip"
#define MD_SOURCESTRING_SLIDE "Slide"
SANE_String_Const scansource_list[MD_SOURCESTRING_NUMS + 1];
#define MD_HALFTONE_NUMS 12
#define MD_HALFTONE0 "53-dot screen (53 gray levels)"
#define MD_HALFTONE1 "Horiz. screen (65 gray levels)"
#define MD_HALFTONE2 "Vert. screen (65 gray levels)"
#define MD_HALFTONE3 "Mixed page (33 gray levels)"
#define MD_HALFTONE4 "71-dot screen (29 gray levels)"
#define MD_HALFTONE5 "60-dot #1 (26 gray levels)"
#define MD_HALFTONE6 "60-dot #2 (26 gray levels)"
#define MD_HALFTONE7 "Fine detail #1 (17 gray levels)"
#define MD_HALFTONE8 "Fine detail #2 (17 gray levels)"
#define MD_HALFTONE9 "Slant line (17 gray levels)"
#define MD_HALFTONE10 "Posterizing (10 gray levels)"
#define MD_HALFTONE11 "High Contrast (5 gray levels)"
SANE_String_Const halftone_mode_list[MD_HALFTONE_NUMS + 1];
#define MD_CHANNEL_NUMS 4
#define MD_CHANNEL_MASTER "Master"
#define MD_CHANNEL_RED "Red"
#define MD_CHANNEL_GREEN "Green"
#define MD_CHANNEL_BLUE "Blue"
SANE_String_Const channel_list[MD_CHANNEL_NUMS + 1];
#define MD_GAMMAMODE_NUMS 3
#define MD_GAMMAMODE_LINEAR "None"
#define MD_GAMMAMODE_SCALAR "Scalar"
#define MD_GAMMAMODE_CUSTOM "Custom"
SANE_String_Const gammamode_list[MD_GAMMAMODE_NUMS + 1];
SANE_Range x_res_range_dpi; /* X resolution in dpi */
SANE_Range y_res_range_dpi; /* Y resolution in dpi */
SANE_Range x_range_mm; /* scan width in mm */
SANE_Range y_range_mm; /* scan height in mm */
SANE_Range percentage_range; /* for brightness, shadow, ... */
SANE_Range custom_gamma_range; /* for custom gamma values */
SANE_Range scalar_gamma_range; /* for scalar gamma values */
SANE_Range shadow_range; /* shadow of blue channel */
SANE_Range midtone_range; /* midtone shadow of blue channel */
SANE_Range exposure_range; /* for lengthening exposure time */
SANE_Range highlight_range; /* highlight of master channel */
SANE_Range threshold_range; /* 1 - 255 */
SANE_Range balance_range; /* for user provided color balance */
Config_Options opts; /* options from the config file */
SANE_Word opt_backend_calib_default; /* corresponds to scanner model */
SANE_Word opt_no_backtrack_default; /* corresponds to scanner model */
} Microtek2_Device;
/******************************************************************************/
/* scanner structure (one for each device in use) */
/* ....all the state needed to define a scan request */
/******************************************************************************/
typedef struct Microtek2_Scanner {
struct Microtek2_Scanner *next; /* for linked list */
Microtek2_Device *dev; /* raw device info */
Option_Value val[NUM_OPTIONS + 1]; /* option values for session */
SANE_Parameters params; /* format, lastframe, lines, depth, ppl, bpl */
SANE_Option_Descriptor sod[NUM_OPTIONS + 1]; /* option list for session */
uint8_t *gamma_table;
uint8_t *shading_image; /* used for shading image */
uint8_t *condensed_shading_w; /* used when a model uses "read */
uint8_t *condensed_shading_d; /* control bit", stores the relevant */
/* shading pixels for each color */
uint8_t *temporary_buffer; /* used when automatic adjustment */
/* is selected */
char *gamma_mode; /* none, linear or custom */
/* the following defines must correspond to byte 25 of SET WINDOW body */
#define MS_MODE_LINEART 0x00
#define MS_MODE_HALFTONE 0x01
#define MS_MODE_GRAY 0x02
#define MS_MODE_LINEARTFAKE 0x12 /* no real mode */
#define MS_MODE_COLOR 0x05
/* the following defines must correspond to byte 31 of SET WINDOW body */
#define MS_SOURCE_FLATBED 0x00
#define MS_SOURCE_ADF 0x01
#define MS_SOURCE_TMA 0x02
#define MS_SOURCE_STRIPE 0x05
#define MS_SOURCE_SLIDE 0x06
SANE_Int mode;
SANE_Int depth;
SANE_Int x_resolution_dpi;
SANE_Int y_resolution_dpi;
SANE_Int x1_dots; /* x-position in units of optical resolution */
SANE_Int y1_dots; /* same for y-position */
SANE_Int width_dots; /* scan width in units of optical resolution */
SANE_Int height_dots; /* same for height */
uint8_t brightness_m;
uint8_t contrast_m;
uint8_t exposure_m;
uint8_t shadow_m;
uint8_t midtone_m;
uint8_t highlight_m;
uint8_t brightness_r;
uint8_t contrast_r;
uint8_t exposure_r;
uint8_t shadow_r;
uint8_t midtone_r;
uint8_t highlight_r;
uint8_t brightness_g;
uint8_t contrast_g;
uint8_t exposure_g;
uint8_t shadow_g;
uint8_t midtone_g;
uint8_t highlight_g;
uint8_t brightness_b;
uint8_t contrast_b;
uint8_t exposure_b;
uint8_t shadow_b;
uint8_t midtone_b;
uint8_t highlight_b;
uint8_t threshold;
SANE_Bool use_external_ht;
SANE_Byte internal_ht_index;
uint8_t stay;
uint8_t rawdat;
SANE_Bool quality;
SANE_Bool fastscan;
SANE_Byte scan_source;
uint8_t no_backtracking;
uint8_t lightlid35;
uint8_t auto_adjust;
uint8_t calib_backend;
uint8_t colorbalance_adjust;
int current_pass; /* current pass if 3-pass scan */
int lut_size; /* size of gamma lookup table */
int lut_entry_size; /* size of one entry in lookup table */
uint32_t lut_size_bytes; /* size of LUT in bytes */
uint8_t word; /* word transfer, used in some read cmds */
/* MS_COLOR_X must correspond to color field in READ IMAGE STATUS */
#define MS_COLOR_RED 0
#define MS_COLOR_GREEN 1
#define MS_COLOR_BLUE 2
#define MS_COLOR_ALL 3
uint8_t current_color; /* for gamma calc. and 3-pass scanners */
uint8_t current_read_color; /* dto, for RI and RIS */
uint8_t dark; /* is 1 for reading dark shading */
uint32_t ppl; /* pixels per line as returned by RII */
uint32_t bpl; /* bytes per line as returned by RII */
uint32_t remaining_bytes; /* remaining bytes as returned by RII */
uint32_t real_remaining_bytes;/* bytes to transfer to the frontend */
uint32_t real_bpl; /* bpl to transfer to the frontend */
SANE_Int src_remaining_lines; /* remaining lines to read */
SANE_Int src_lines_to_read; /* actual number of lines read */
SANE_Int src_max_lines; /* maximum number of lines that fit */
/* into the scsi buffer */
/* sent to the frontend */
int bits_per_pixel_in; /* bits per pixel transferred from scanner */
int bits_per_pixel_out; /* bits per pixel transf. to frontend */
uint32_t src_buffer_size; /* size of the buffer */
int transfer_length; /* transfer length for RI command */
uint8_t balance[3]; /* user provided balance factor for */
/* red, green and blue data */
struct {
uint8_t *src_buffer[2]; /* two buffers because of CCD gap */
uint8_t *src_buf;
int current_src;
SANE_Int free_lines;
SANE_Int free_max_lines;
uint8_t *current_pos[3]; /* actual position in the source buffer */
int planes[2][3]; /* # of red, green, blue planes in the */
/* current source buffer and leftover */
/* planes from previous "read image" */
} buf;
SANE_Bool onepass;
size_t n_control_bytes; /* for READ CONTROL BITS */
uint8_t *control_bytes; /* pointer to the result */
int scanning; /* true == between sane_start & sane_read=EOF */
int cancelled;
int sfd; /* SCSI filedescriptor */
int fd[2]; /* file descriptors for pipe */
SANE_Pid pid; /* pid of child process */
FILE *fp;
} Microtek2_Scanner;
/******************************************************************************/
/* Function prototypes */
/******************************************************************************/
static SANE_Status
add_device_list(SANE_String_Const, Microtek2_Device **);
static SANE_Status
attach(Microtek2_Device *);
static SANE_Status
attach_one (const char *);
static SANE_Status
auto_adjust_proc_data (Microtek2_Scanner *, uint8_t **);
static SANE_Status
calc_cx_shading_line(Microtek2_Scanner *); /* (KF) new */
static SANE_Status
calculate_gamma(Microtek2_Scanner *, uint8_t *, int, char *);
static SANE_Status
calculate_sane_params(Microtek2_Scanner *);
static SANE_Status
cancel_scan(Microtek2_Scanner *);
static SANE_Status
check_inquiry(Microtek2_Device *, SANE_String *);
static void
check_option(const char *, Config_Options *);
static SANE_Status
chunky_copy_pixels(Microtek2_Scanner *, uint8_t *);
static SANE_Status
chunky_proc_data(Microtek2_Scanner *);
#if 0
static void
chunky_set_exposure(uint8_t *, uint32_t, uint8_t, uint8_t, int);
#endif
static void
cleanup_scanner(Microtek2_Scanner *);
static SANE_Status
condense_shading(Microtek2_Scanner *);
#ifdef HAVE_AUTHORIZATION
static SANE_Status
do_authorization(char *);
#endif
static SANE_Status
read_shading_image(Microtek2_Scanner *);
static SANE_Status
dump_area(uint8_t *, int, char *);
static SANE_Status
dump_area2(uint8_t *, int, char *);
/* currently not used */
#if 0
static SANE_Status
dump_to_file(uint8_t *, int, char *, char *);
#endif
static SANE_Status
dump_attributes(Microtek2_Info *);
static void
get_calib_params(Microtek2_Scanner *);
static SANE_Status
get_cshading_values(Microtek2_Scanner *,uint8_t, uint32_t, float, int,
float *, float *); /* (KF) new */
static SANE_Status
get_scan_mode_and_depth(Microtek2_Scanner *, int *, SANE_Int *, int *, int *);
static SANE_Status
get_scan_parameters(Microtek2_Scanner *);
static SANE_Status
get_lut_size(Microtek2_Info *, int *, int *);
static SANE_Status
gray_copy_pixels(Microtek2_Scanner *ms, uint8_t *, int, int);
static SANE_Status
gray_proc_data(Microtek2_Scanner *);
#if 0
static void
gray_set_exposure(uint8_t *, uint32_t, uint8_t, uint8_t);
#endif
static SANE_Status
init_options(Microtek2_Scanner *, uint8_t);
static SANE_Status
lineartfake_copy_pixels(Microtek2_Scanner *, uint8_t *, uint32_t, uint8_t,
int, FILE *);
static SANE_Status
lineartfake_proc_data(Microtek2_Scanner *);
static SANE_Status
lplconcat_copy_pixels(Microtek2_Scanner *, uint8_t **, int, int);
static SANE_Status
lplconcat_proc_data(Microtek2_Scanner *ms);
static size_t
max_string_size (const SANE_String_Const * /* strings[] */);
static void
parse_config_file(FILE *, Config_Temp **);
static SANE_Status
prepare_buffers(Microtek2_Scanner *);
static SANE_Status
prepare_shading_data(Microtek2_Scanner *, uint32_t, uint8_t **);
static SANE_Status
proc_onebit_data(Microtek2_Scanner *);
static SANE_Status
read_cx_shading_image(Microtek2_Scanner *);
static SANE_Status
read_cx_shading(Microtek2_Scanner *);
static int
reader_process(void *);
static SANE_Status
restore_gamma_options(SANE_Option_Descriptor *, Option_Value *);
static SANE_Status
segreg_copy_pixels(Microtek2_Scanner *);
static SANE_Status
segreg_proc_data(Microtek2_Scanner *ms);
static void
set_exposure(Microtek2_Scanner *);
static SANE_Status
set_option_dependencies(Microtek2_Scanner *,
SANE_Option_Descriptor *, Option_Value *);
static SANE_Status
shading_function(Microtek2_Scanner *, uint8_t *);
static RETSIGTYPE
signal_handler (int);
static SANE_Status
wordchunky_copy_pixels(uint8_t *, uint32_t, int, FILE *);
static SANE_Status
wordchunky_proc_data(Microtek2_Scanner *);
typedef int (*qsortfunc)(const void *, const void *);
static int compare_func_16(const uint16_t *p1, uint16_t *p2)
{
return ( *p1 - *p2 );
}
/******************************************************************************/
/* Function prototypes for basic SCSI commands */
/******************************************************************************/
static SANE_Status
scsi_inquiry(Microtek2_Info *, char *);
static SANE_Status
scsi_read_attributes(Microtek2_Info *, char *, uint8_t);
static SANE_Status
scsi_read_control_bits(Microtek2_Scanner *);
/* currently not used */
/* static SANE_Status
scsi_read_gamma(Microtek2_Scanner *); */
static SANE_Status
scsi_read_image(Microtek2_Scanner *, uint8_t *, int);
static SANE_Status
scsi_read_image_info(Microtek2_Scanner *);
static SANE_Status
scsi_read_image_status(Microtek2_Scanner *);
static SANE_Status
scsi_read_system_status(Microtek2_Device *, int);
/* currently not used */
/* static SANE_Status
scsi_request_sense(Microtek2_Scanner *); */
static SANE_Status
scsi_send_gamma(Microtek2_Scanner *);
static SANE_Status
scsi_send_shading(Microtek2_Scanner *, uint8_t *, uint32_t, uint8_t);
static SANE_Status
scsi_read_shading(Microtek2_Scanner *, uint8_t *, uint32_t);
static SANE_Status
scsi_send_system_status(Microtek2_Device *, int);
static SANE_Status
scsi_sense_handler (int, u_char *, void *);
static SANE_Status
scsi_test_unit_ready(Microtek2_Device *);
static SANE_Status
scsi_set_window(Microtek2_Scanner *, int);
static SANE_Status
scsi_wait_for_image(Microtek2_Scanner *);
#endif