sane-project-backends/backend/avision.h

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C

/*******************************************************************************
* SANE - Scanner Access Now Easy.
avision.h
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.
*****************************************************************************
This backend is based upon the Tamarack backend and adapted to the Avision
scanners by René Rebe and Meino Cramer.
Check the avision.c file for detailed copyright and change-log
information.
********************************************************************************/
#ifndef avision_h
#define avision_h
#include <sys/types.h>
typedef enum Avision_ConnectionType {
AV_SCSI,
AV_USB
} Avision_ConnectionType;
/* information needed for device access */
typedef struct Avision_Connection {
Avision_ConnectionType logical_connection;
int scsi_fd; /* SCSI filedescriptor */
SANE_Int usb_dn; /* USB (libusb or scanner.c) device number */
} Avision_Connection;
typedef struct Avision_HWEntry {
char* scsi_mfg;
char* scsi_model;
int usb_vendor;
int usb_product;
const char* real_mfg;
const char* real_model;
/* the one of the device - not what we see via the OS' kernel */
Avision_ConnectionType physical_connection;
enum {AV_FLATBED,
AV_FILM,
AV_SHEETFEED
} scanner_type;
/* feature overwrites */
enum {
/* force no calibration */
AV_NO_CALIB = 1,
/* force the special C5 calibration */
AV_C5_CALIB = 2,
/* force all in one command calibration */
AV_ONE_CMD_CALIB = 4,
/* no gamma table */
AV_NO_GAMMA = 8,
/* light check is bogus */
AV_LIGHT_CHECK_BOGUS = 16,
/* do not use line packing even if line_difference */
AV_NO_LINE_DIFFERENCE = 32,
/* limit the available resolutions */
AV_RES_HACK = 64,
/* fujitsu adaption */
AV_FUJITSU = 128
/* maybe more ...*/
} feature_type;
} Avision_HWEntry;
typedef enum {
AV_ASIC_Cx = 0,
AV_ASIC_C1 = 1,
AV_ASIC_C2 = 3,
AV_ASIC_C5 = 5,
AV_ASIC_C6 = 6,
AV_ASIC_OA980 = 128
} asic_type;
typedef enum {
AV_THRESHOLDED,
AV_DITHERED,
AV_GRAYSCALE,
AV_TRUECOLOR,
AV_COLOR_MODE_LAST
} color_mode;
typedef enum {
AV_NORMAL,
AV_TRANSPARENT,
AV_ADF,
AV_OPERATION_MODE_LAST
} operation_mode;
enum Avision_Option
{
OPT_NUM_OPTS = 0, /* must come first */
OPT_MODE_GROUP,
OPT_MODE,
#define OPT_MODE_DEFAULT 3
OPT_RESOLUTION,
#define OPT_RESOLUTION_DEFAULT 300
OPT_SPEED,
OPT_PREVIEW,
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 */
OPT_ENHANCEMENT_GROUP,
OPT_BRIGHTNESS,
OPT_CONTRAST,
OPT_QSCAN,
OPT_QCALIB,
OPT_TRANS, /* Transparency Mode */
OPT_ADF, /* Use ADF unit */
OPT_GAMMA_VECTOR, /* first must be gray */
OPT_GAMMA_VECTOR_R, /* then r g b vector */
OPT_GAMMA_VECTOR_G,
OPT_GAMMA_VECTOR_B,
OPT_FRAME, /* Film holder control */
NUM_OPTIONS /* must come last */
};
typedef struct Avision_Dimensions
{
/* in dpi */
int xres;
int yres;
/* in pixels */
long tlx;
long tly;
long brx;
long bry;
/* in pixels */
int line_difference;
} Avision_Dimensions;
/* this contains our low-level info - not relevant for the SANE interface */
typedef struct Avision_Device
{
struct Avision_Device* next;
SANE_Device sane;
Avision_ConnectionType logical_connection;
/* structs used to store config options */
SANE_Range dpi_range;
SANE_Range x_range;
SANE_Range y_range;
SANE_Range speed_range;
asic_type inquiry_asic_type;
SANE_Bool inquiry_new_protocol;
SANE_Bool inquiry_adf;
SANE_Bool inquiry_detect_accessories;
SANE_Bool inquiry_needs_calibration;
SANE_Bool inquiry_needs_gamma;
SANE_Bool inquiry_calibration;
SANE_Bool inquiry_3x3_matrix;
SANE_Bool inquiry_needs_software_colorpack;
SANE_Bool inquiry_needs_line_pack;
SANE_Bool inquiry_adf_need_mirror;
SANE_Bool inquiry_light_detect;
SANE_Bool inquiry_light_control;
int inquiry_max_shading_target;
int inquiry_optical_res; /* in dpi */
int inquiry_max_res; /* in dpi */
double inquiry_x_ranges [AV_OPERATION_MODE_LAST]; /* in mm */
double inquiry_y_ranges [AV_OPERATION_MODE_LAST]; /* in mm */
int inquiry_color_boundary;
int inquiry_gray_boundary;
int inquiry_dithered_boundary;
int inquiry_thresholded_boundary;
int inquiry_line_difference; /* software color pack */
/* int inquiry_bits_per_channel; */
int scsi_buffer_size; /* nice to have SCSI buffer size */
/* accessories */
SANE_Bool acc_light_box;
SANE_Bool acc_adf;
SANE_Bool is_adf; /* ADF scanner */
/* film scanner atributes - maybe these should be in the scanner struct? */
SANE_Range frame_range;
SANE_Word current_frame;
SANE_Word holder_type;
/* some versin corrections */
u_int16_t data_dq; /* was ox0A0D - but hangs some new scanners */
/* driver state */
SANE_Bool is_calibrated;
Avision_HWEntry* hw;
} Avision_Device;
/* all the state relevant for the SANE interface */
typedef struct Avision_Scanner
{
struct Avision_Scanner* next;
Avision_Device* hw;
SANE_Option_Descriptor opt [NUM_OPTIONS];
Option_Value val [NUM_OPTIONS];
SANE_Int gamma_table [4][256];
/* page (ADF) state */
int page;
/* Parsed option values and variables that are valid only during
the actual scan: */
SANE_Bool scanning; /* scan in progress */
SANE_Parameters params; /* scan window */
Avision_Dimensions avdimen; /* scan window - detailed internals */
color_mode c_mode;
operation_mode o_mode;
/* Avision HW Access Connection (SCSI/USB abstraction) */
Avision_Connection av_con;
pid_t reader_pid; /* process id of reader */
#ifdef HAVE_OS2_H
int reader_fds; /* OS/2: pipe write handler for reader */
#endif
int pipe; /* pipe to reader process */
int line; /* current line number during scan */
} Avision_Scanner;
/* Some Avision driver internal defines */
#define AV_WINID 0
/* SCSI commands that the Avision scanners understand: */
#define AVISION_SCSI_TEST_UNIT_READY 0x00
#define AVISION_SCSI_REQUEST_SENSE 0x03
#define AVISION_SCSI_MEDIA_CHECK 0x08
#define AVISION_SCSI_INQUIRY 0x12
#define AVISION_SCSI_MODE_SELECT 0x15
#define AVISION_SCSI_RESERVE_UNIT 0x16
#define AVISION_SCSI_RELEASE_UNIT 0x17
#define AVISION_SCSI_SCAN 0x1b
#define AVISION_SCSI_SET_WINDOW 0x24
#define AVISION_SCSI_READ 0x28
#define AVISION_SCSI_SEND 0x2a
#define AVISION_SCSI_OBJECT_POSITION 0x31
#define AVISION_SCSI_GET_DATA_STATUS 0x34
#define AVISION_SCSI_OP_REJECT_PAPER 0x00
#define AVISION_SCSI_OP_LOAD_PAPER 0x01
#define AVISION_SCSI_OP_GO_HOME 0x02
#define AVISION_SCSI_OP_TRANS_CALIB_GRAY 0x04
#define AVISION_SCSI_OP_TRANS_CALIB_COLOR 0x05
/* The SCSI structures that we have to send to an avision to get it to
do various stuff... */
typedef struct command_header
{
u_int8_t opc;
u_int8_t pad0 [3];
u_int8_t len;
u_int8_t pad1;
} command_header;
typedef struct command_set_window
{
u_int8_t opc;
u_int8_t reserved0 [5];
u_int8_t transferlen [3];
u_int8_t control;
} command_set_window;
typedef struct command_read
{
u_int8_t opc;
u_int8_t bitset1;
u_int8_t datatypecode;
u_int8_t readtype;
u_int8_t datatypequal [2];
u_int8_t transferlen [3];
u_int8_t control;
} command_read;
typedef struct command_scan
{
u_int8_t opc;
u_int8_t bitset0;
u_int8_t reserved0 [2];
u_int8_t transferlen;
u_int8_t bitset1;
} command_scan;
typedef struct command_send
{
u_int8_t opc;
u_int8_t bitset1;
u_int8_t datatypecode;
u_int8_t reserved0;
u_int8_t datatypequal [2];
u_int8_t transferlen [3];
u_int8_t reserved1;
} command_send;
typedef struct command_set_window_window
{
struct {
u_int8_t reserved0 [6];
u_int8_t desclen [2];
} header;
struct {
u_int8_t winid;
u_int8_t reserved0;
u_int8_t xres [2];
u_int8_t yres [2];
u_int8_t ulx [4];
u_int8_t uly [4];
u_int8_t width [4];
u_int8_t length [4];
u_int8_t brightness;
u_int8_t threshold;
u_int8_t contrast;
u_int8_t image_comp;
u_int8_t bpc;
u_int8_t halftone [2];
u_int8_t padding_and_bitset;
u_int8_t bitordering [2];
u_int8_t compr_type;
u_int8_t compr_arg;
u_int8_t reserved1 [6];
/* Avision specific parameters */
u_int8_t vendor_specific;
u_int8_t paralen; /* bytes following after this byte */
} descriptor;
struct {
u_int8_t bitset1;
u_int8_t highlight;
u_int8_t shadow;
u_int8_t line_width [2];
u_int8_t line_count [2];
/* this is quite version / model sepecific */
union {
struct {
u_int8_t bitset2;
u_int8_t reserved;
} old;
struct {
u_int8_t bitset2;
u_int8_t ir_exposure_time;
/* optional */
u_int8_t r_exposure_time [2];
u_int8_t g_exposure_time [2];
u_int8_t b_exposure_time [2];
u_int8_t bitset3; /* reserved in the v2 */
u_int8_t auto_focus;
u_int8_t line_width_msb;
u_int8_t line_count_msb;
u_int8_t edge_threshold;
} normal;
struct {
u_int8_t reserved0 [4];
u_int8_t paper_size;
u_int8_t paperx [4];
u_int8_t papery [4];
u_int8_t reserved1 [2];
} fujitsu;
} type;
} avision;
} command_set_window_window;
typedef struct page_header
{
u_int8_t pad0 [4];
u_int8_t code;
u_int8_t length;
} page_header;
typedef struct avision_page
{
u_int8_t gamma;
u_int8_t thresh;
u_int8_t masks;
u_int8_t delay;
u_int8_t features;
u_int8_t pad0;
} avision_page;
typedef struct calibration_format
{
u_int16_t pixel_per_line;
u_int8_t bytes_per_channel;
u_int8_t lines;
u_int8_t flags;
u_int8_t ability1;
u_int8_t r_gain;
u_int8_t g_gain;
u_int8_t b_gain;
u_int16_t r_shading_target;
u_int16_t g_shading_target;
u_int16_t b_shading_target;
u_int16_t r_dark_shading_target;
u_int16_t g_dark_shading_target;
u_int16_t b_dark_shading_target;
/* not returned but usefull in some places */
u_int8_t channels;
} calibration_format;
/* set/get SCSI highended variables. Declare them as an array of chars */
/* endianness-safe, int-size safe ... */
#define set_double(var,val) var[0] = ((val) >> 8) & 0xff; \
var[1] = ((val) ) & 0xff
#define set_triple(var,val) var[0] = ((val) >> 16) & 0xff; \
var[1] = ((val) >> 8 ) & 0xff; \
var[2] = ((val) ) & 0xff
#define set_quad(var,val) var[0] = ((val) >> 24) & 0xff; \
var[1] = ((val) >> 16) & 0xff; \
var[2] = ((val) >> 8 ) & 0xff; \
var[3] = ((val) ) & 0xff
#define get_double(var) ((*var << 8) + *(var + 1))
#define get_triple(var) ((*var << 16) + \
(*(var + 1) << 8) + * *var)
#define get_quad(var) ((*var << 24) + \
(*(var + 1) << 16) + \
(*(var + 2) << 8) + *(var + 3))
#define BIT(n, p) ((n & ( 1 << p)) ? 1 : 0)
#define SET_BIT(n, p) (n |= (1 << p))
/* These should be in saneopts.h */
#define SANE_NAME_FRAME "frame"
#define SANE_TITLE_FRAME SANE_I18N("Number of the frame to scan")
#define SANE_DESC_FRAME SANE_I18N("Selects the number of the frame to scan")
#endif /* avision_h */