/* sane - Scanner Access Now Easy. Copyright (C) 2002 Sergey Vlasov Copyright (C) 2002 Henning Meier-Geinitz 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. */ /** @file * @brief Implementation of the gt6816 specific functions. */ #include "gt68xx_gt6816.h" SANE_Status gt6816_check_firmware (GT68xx_Device * dev, SANE_Bool * loaded) { SANE_Status status; GT68xx_Packet req; memset (req, 0, sizeof (req)); req[0] = 0x70; req[1] = 0x01; RIE (gt68xx_device_small_req (dev, req, req)); if (req[0] == 0x00 && req[1] == 0x70 && req[2] == 0xff) *loaded = SANE_TRUE; else *loaded = SANE_FALSE; return SANE_STATUS_GOOD; } #define MAX_DOWNLOAD_BLOCK_SIZE 64 SANE_Status gt6816_download_firmware (GT68xx_Device * dev, SANE_Byte * data, SANE_Word size) { DECLARE_FUNCTION_NAME ("gt6816_download_firmware") SANE_Status status; SANE_Byte download_buf[MAX_DOWNLOAD_BLOCK_SIZE]; SANE_Byte check_buf[MAX_DOWNLOAD_BLOCK_SIZE]; SANE_Byte *block; SANE_Word addr, bytes_left; GT68xx_Packet boot_req; SANE_Word block_size = MAX_DOWNLOAD_BLOCK_SIZE; CHECK_DEV_ACTIVE (dev, function_name); for (addr = 0; addr < size; addr += block_size) { bytes_left = size - addr; if (bytes_left > block_size) block = data + addr; else { memset (download_buf, 0, block_size); memcpy (download_buf, data + addr, bytes_left); block = download_buf; } RIE (gt68xx_device_memory_write (dev, addr, block_size, block)); RIE (gt68xx_device_memory_read (dev, addr, block_size, check_buf)); if (memcmp (block, check_buf, block_size) != 0) { XDBG ((3, "%s: mismatch at block 0x%0x\n", function_name, addr)); return SANE_STATUS_IO_ERROR; } } memset (boot_req, 0, sizeof (boot_req)); boot_req[0] = 0x69; boot_req[1] = 0x01; boot_req[2] = LOBYTE (addr); boot_req[3] = HIBYTE (addr); RIE (gt68xx_device_req (dev, boot_req, boot_req)); return SANE_STATUS_GOOD; } SANE_Status gt6816_get_power_status (GT68xx_Device * dev, SANE_Bool * power_ok) { SANE_Status status; GT68xx_Packet req; memset (req, 0, sizeof (req)); req[0] = 0x3f; req[1] = 0x01; RIE (gt68xx_device_req (dev, req, req)); if (req[0] == 0x00 && req[1] == 0x3f && req[2] == 0x01) *power_ok = SANE_TRUE; else *power_ok = SANE_FALSE; return SANE_STATUS_GOOD; } SANE_Status gt6816_get_ta_status (GT68xx_Device * dev, SANE_Bool * ta_attached) { SANE_Status status; GT68xx_Packet req; memset (req, 0, sizeof (req)); req[0] = 0x28; req[1] = 0x01; RIE (gt68xx_device_req (dev, req, req)); if (req[0] == 0x00 && req[1] == 0x28 && (req[8] & 0x01) != 0 && !dev->model->is_cis) *ta_attached = SANE_TRUE; else *ta_attached = SANE_FALSE; return SANE_STATUS_GOOD; } SANE_Status gt6816_lamp_control (GT68xx_Device * dev, SANE_Bool fb_lamp, SANE_Bool ta_lamp) { GT68xx_Packet req; memset (req, 0, sizeof (req)); req[0] = 0x25; req[1] = 0x01; req[2] = 0; if (fb_lamp) req[2] |= 0x01; if (ta_lamp) req[2] |= 0x02; return gt68xx_device_req (dev, req, req); } SANE_Status gt6816_is_moving (GT68xx_Device * dev, SANE_Bool * moving) { SANE_Status status; GT68xx_Packet req; memset (req, 0, sizeof (req)); req[0] = 0x17; req[1] = 0x01; RIE (gt68xx_device_req (dev, req, req)); if (req[0] == 0x00 && req[1] == 0x17) { if (req[2] == 0 && (req[3] == 0 || req[3] == 2)) *moving = SANE_FALSE; else *moving = SANE_TRUE; } else return SANE_STATUS_IO_ERROR; return SANE_STATUS_GOOD; } SANE_Status gt6816_carriage_home (GT68xx_Device * dev) { GT68xx_Packet req; memset (req, 0, sizeof (req)); req[0] = 0x24; req[1] = 0x01; return gt68xx_device_req (dev, req, req); } SANE_Status gt6816_stop_scan (GT68xx_Device * dev) { GT68xx_Packet req; memset (req, 0, sizeof (req)); req[0] = 0x41; req[1] = 0x01; return gt68xx_device_small_req (dev, req, req); } /* 3.0 mm of calibration */ #define CALIBRATION_HEIGHT 3.0 SANE_Status gt6816_setup_scan (GT68xx_Device * dev, GT68xx_Scan_Request * request, GT68xx_Scan_Action action, GT68xx_Scan_Parameters * params) { DECLARE_FUNCTION_NAME ("gt6816_setup_scan") SANE_Status status; GT68xx_Model *model; SANE_Int xdpi, ydpi; SANE_Bool color; SANE_Int depth; SANE_Int pixel_x0, pixel_y0, pixel_xs, pixel_ys; SANE_Int pixel_align; SANE_Int abs_x0, abs_y0, abs_xs, abs_ys, base_xdpi, base_ydpi; SANE_Int scan_xs, scan_ys, scan_bpl; SANE_Int bits_per_line; SANE_Byte color_mode_code; SANE_Bool line_mode; SANE_Int overscan_lines; SANE_Fixed x0, y0, xs, ys; SANE_Bool backtrack = SANE_FALSE; XDBG ((5, "%s: enter (action=%s)\n", function_name, action == SA_CALIBRATE ? "calibrate" : action == SA_CALIBRATE_ONE_LINE ? "calibrate one line" : action == SA_SCAN ? "scan" : "calculate only")); model = dev->model; xdpi = request->xdpi; ydpi = request->ydpi; color = request->color; depth = request->depth; base_xdpi = model->base_xdpi; base_ydpi = model->base_ydpi; if (xdpi > model->base_xdpi) base_xdpi = model->optical_xdpi; /* Special fixes */ if (strcmp (model->name, "mustek-bearpaw-2400-ta-plus") == 0 && xdpi <= 50) base_xdpi = model->optical_xdpi; if (ydpi <= 100) { if ((strcmp (model->name, "mustek-bearpaw-2400-ta-plus") == 0 || strcmp (model->name, "mustek-bearpaw-2400-ta") == 0) && !request->use_ta && action == SA_SCAN) request->mbs = SANE_TRUE; /* 50/100 dpi need a mimimum y0 */ } if (!model->constant_ydpi) { if (ydpi > model->base_ydpi) base_ydpi = model->optical_ydpi; } XDBG ((5, "%s: base_xdpi=%d, base_ydpi=%d\n", function_name, base_xdpi, base_ydpi)); switch (action) { case SA_CALIBRATE_ONE_LINE: { x0 = request->x0; if (request->use_ta) y0 = model->y_offset_calib_ta; else y0 = model->y_offset_calib; ys = SANE_FIX (1.0 * MM_PER_INCH / ydpi); /* one line */ xs = request->xs; depth = 8; color = request->color; break; } case SA_CALIBRATE: { if (request->use_ta) { x0 = request->x0 + model->x_offset_ta; if (request->mbs) y0 = model->y_offset_calib_ta; else y0 = 0; } else { x0 = request->x0 + model->x_offset; if (request->mbs) y0 = model->y_offset_calib; else y0 = 0; } ys = SANE_FIX (CALIBRATION_HEIGHT); xs = request->xs; color = request->color; break; } case SA_SCAN: { SANE_Fixed x_offset, y_offset; if (request->use_ta) { x_offset = model->x_offset_ta; if (request->mbs) y_offset = model->y_offset_ta; else y_offset = model->y_offset_ta - model->y_offset_calib_ta - SANE_FIX (CALIBRATION_HEIGHT); } else { x_offset = model->x_offset; if (request->mbs) y_offset = model->y_offset; else y_offset = model->y_offset - model->y_offset_calib - SANE_FIX (CALIBRATION_HEIGHT); } x0 = request->x0 + x_offset; y0 = request->y0 + y_offset; ys = request->ys; xs = request->xs; backtrack = SANE_TRUE; break; } default: XDBG ((5, "%s: invalid action=%d\n", function_name, (int) action)); return SANE_STATUS_INVAL; } pixel_x0 = SANE_UNFIX (x0) * xdpi / MM_PER_INCH + 0.5; pixel_y0 = SANE_UNFIX (y0) * ydpi / MM_PER_INCH + 0.5; pixel_ys = SANE_UNFIX (ys) * ydpi / MM_PER_INCH + 0.5; pixel_xs = SANE_UNFIX (xs) * xdpi / MM_PER_INCH + 0.5; XDBG ((5, "%s: xdpi=%d, ydpi=%d\n", function_name, xdpi, ydpi)); XDBG ((5, "%s: color=%s, depth=%d\n", function_name, color ? "TRUE" : "FALSE", depth)); XDBG ((5, "%s: pixel_x0=%d, pixel_y0=%d\n", function_name, pixel_x0, pixel_y0)); XDBG ((5, "%s: pixel_xs=%d, pixel_ys=%d\n", function_name, pixel_xs, pixel_ys)); XDBG ((5, "%s: backtrack=%d\n", function_name, backtrack)); color_mode_code = 0x80; /* What does this mean ? */ if (color) color_mode_code |= (1 << 2); else color_mode_code |= (1 << 1); if (depth > 12) color_mode_code |= (1 << 5); else if (depth > 8) { color_mode_code &= 0x7f; color_mode_code |= (1 << 4); } XDBG ((5, "%s: color_mode_code = 0x%02X\n", function_name, color_mode_code)); overscan_lines = 0; params->ld_shift_r = params->ld_shift_g = params->ld_shift_b = 0; params->ld_shift_double = 0; if (action == SA_SCAN && color) { /* Line distance correction is required for color scans. */ SANE_Int optical_ydpi = model->optical_ydpi; SANE_Int ld_shift_r = model->ld_shift_r; SANE_Int ld_shift_g = model->ld_shift_g; SANE_Int ld_shift_b = model->ld_shift_b; SANE_Int max_ld = MAX (MAX (ld_shift_r, ld_shift_g), ld_shift_b); overscan_lines = max_ld * ydpi / optical_ydpi; params->ld_shift_r = ld_shift_r * ydpi / optical_ydpi; params->ld_shift_g = ld_shift_g * ydpi / optical_ydpi; params->ld_shift_b = ld_shift_b * ydpi / optical_ydpi; params->ld_shift_double = 0; XDBG ((5, "%s: overscan=%d, ld=%d/%d/%d\n", function_name, overscan_lines, params->ld_shift_r, params->ld_shift_g, params->ld_shift_b)); } if (action == SA_SCAN && xdpi >= model->optical_xdpi && model->ld_shift_double > 0) { params->ld_shift_double = model->ld_shift_double * ydpi / model->optical_ydpi; if (color) overscan_lines += (params->ld_shift_double * 3); else overscan_lines += params->ld_shift_double; XDBG ((5, "%s: overscan=%d, ld double=%d\n", function_name, overscan_lines, params->ld_shift_double)); } abs_x0 = pixel_x0 * base_xdpi / xdpi; abs_y0 = pixel_y0 * base_ydpi / ydpi; XDBG ((5, "%s: abs_x0=%d, abs_y0=%d\n", function_name, abs_x0, abs_y0)); params->double_column = abs_x0 & 1; /* Calculate minimum number of pixels which span an integral multiple of 64 * bytes. */ pixel_align = 32; /* best case for depth = 16 */ while ((depth * pixel_align) % (64 * 8) != 0) pixel_align *= 2; XDBG ((5, "%s: pixel_align=%d\n", function_name, pixel_align)); if (pixel_xs % pixel_align == 0) scan_xs = pixel_xs; else scan_xs = (pixel_xs / pixel_align + 1) * pixel_align; scan_ys = pixel_ys + overscan_lines; abs_xs = scan_xs * base_xdpi / xdpi; if (action == SA_CALIBRATE_ONE_LINE) abs_ys = 2; else abs_ys = scan_ys * base_ydpi / ydpi; XDBG ((5, "%s: abs_xs=%d, abs_ys=%d\n", function_name, abs_xs, abs_ys)); if (model->is_cis) { line_mode = SANE_TRUE; } else { line_mode = SANE_FALSE; if (!color) /* ??? */ { XDBG ((5, "%s: using line mode for monochrome scan\n", function_name)); line_mode = SANE_TRUE; } else if (ydpi >= model->ydpi_force_line_mode) { XDBG ((5, "%s: forcing line mode for ydpi=%d\n", function_name, ydpi)); line_mode = SANE_TRUE; } #if 1 else if (ydpi == 600 && depth > 12) /* XXX */ { XDBG ((5, "%s: forcing line mode for ydpi=%d, depth=%d\n", function_name, ydpi, depth)); line_mode = SANE_TRUE; } #endif } bits_per_line = depth * scan_xs; if (color && !line_mode) bits_per_line *= 3; if (bits_per_line % 8) /* impossible */ { XDBG ((0, "%s: BUG: unaligned bits_per_line=%d\n", function_name, bits_per_line)); return SANE_STATUS_INVAL; } scan_bpl = bits_per_line / 8; if (scan_bpl > 15600 && !line_mode) /* ??? */ { XDBG ((5, "%s: scan_bpl=%d, trying line mode\n", function_name, scan_bpl)); line_mode = SANE_TRUE; if (scan_bpl % 3) { XDBG ((0, "%s: BUG: monochrome scan in pixel mode?\n", function_name)); return SANE_STATUS_INVAL; } scan_bpl /= 3; } if (scan_bpl % 64) /* impossible */ { XDBG ((0, "%s: BUG: unaligned scan_bpl=%d\n", function_name, scan_bpl)); return SANE_STATUS_INVAL; } if (scan_bpl > 15600) /* ??? */ { XDBG ((5, "%s: scan_bpl=%d, too large\n", function_name, scan_bpl)); return SANE_STATUS_INVAL; } /* really? */ if (color && line_mode) scan_ys *= 3; XDBG ((5, "%s: scan_xs=%d, scan_ys=%d\n", function_name, scan_xs, scan_ys)); XDBG ((5, "%s: scan_bpl=%d\n", function_name, scan_bpl)); if (!request->calculate) { GT68xx_Packet req; SANE_Byte motor_mode_1, motor_mode_2; motor_mode_1 = (request->mbs ? 0 : 1) << 1; motor_mode_1 |= (request->mds ? 0 : 1) << 2; motor_mode_1 |= (request->mas ? 0 : 1) << 0; motor_mode_1 |= (backtrack ? 1 : 0) << 3; motor_mode_2 = (request->lamp ? 0 : 1) << 0; motor_mode_2 |= (line_mode ? 0 : 1) << 2; if (action != SA_SCAN) motor_mode_2 |= 1 << 3; XDBG ((5, "%s: motor_mode_1 = 0x%02X, motor_mode_2 = 0x%02X\n", function_name, motor_mode_1, motor_mode_2)); /* Fill in the setup command */ memset (req, 0, sizeof (req)); req[0x00] = 0x20; req[0x01] = 0x01; req[0x02] = LOBYTE (abs_y0); req[0x03] = HIBYTE (abs_y0); req[0x04] = LOBYTE (abs_ys); req[0x05] = HIBYTE (abs_ys); req[0x06] = LOBYTE (abs_x0); req[0x07] = HIBYTE (abs_x0); req[0x08] = LOBYTE (abs_xs); req[0x09] = HIBYTE (abs_xs); req[0x0a] = color_mode_code; req[0x0b] = 0x20; /* 0x20 CCD; 0x60 CIS, I don't see any difference */ req[0x0c] = LOBYTE (xdpi); req[0x0d] = HIBYTE (xdpi); req[0x0e] = 0x12; /* 0x12 ??? */ req[0x0f] = 0x00; req[0x10] = LOBYTE (scan_bpl); req[0x11] = HIBYTE (scan_bpl); req[0x12] = LOBYTE (scan_ys); req[0x13] = HIBYTE (scan_ys); req[0x14] = motor_mode_1; req[0x15] = motor_mode_2; req[0x16] = LOBYTE (ydpi); req[0x17] = HIBYTE (ydpi); if (backtrack) { if (model->is_cis) req[0x18] = 0x20; else req[0x18] = 0x3f; } else req[0x18] = 0x00; status = gt68xx_device_req (dev, req, req); if (status != SANE_STATUS_GOOD) { XDBG ((3, "%s: setup request failed: %s\n", function_name, sane_strstatus (status))); return status; } } /* Fill in calculated values */ params->xdpi = xdpi; params->ydpi = ydpi; params->depth = depth; params->color = color; params->pixel_xs = pixel_xs; params->pixel_ys = pixel_ys; params->scan_xs = scan_xs; params->scan_ys = scan_ys; params->scan_bpl = scan_bpl; params->line_mode = line_mode; params->overscan_lines = overscan_lines; XDBG ((6, "%s: leave: ok\n", function_name)); return SANE_STATUS_GOOD; } /* vim: set sw=2 cino=>2se-1sn-1s{s^-1st0(0u0 smarttab expandtab: */