/* $OpenBSD: ss_scanjet.c,v 1.44 2010/07/01 05:11:18 krw Exp $ */ /* $NetBSD: ss_scanjet.c,v 1.6 1996/05/18 22:58:01 christos Exp $ */ /* * Copyright (c) 1995 Kenneth Stailey. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Kenneth Stailey. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * special functions for the HP ScanJet IIc and IIcx */ #include #include #include #include #include #include #include #include #include #include /* for cdevsw */ #include #include #include #include #include int scanjet_set_params(struct ss_softc *, struct scan_io *); int scanjet_trigger_scanner(struct ss_softc *); int scanjet_read(struct ss_softc *, struct scsi_xfer *, struct buf *); void scanjet_read_done(struct scsi_xfer *); /* only used internally */ int scanjet_ctl_write(struct ss_softc *, char *, u_int, int); int scanjet_ctl_read(struct ss_softc *, char *, u_int, int); int scanjet_set_window(struct ss_softc *, int); int scanjet_compute_sizes(struct ss_softc *, int); /* Maybe move to libkern? */ #define atoi local_atoi __inline static int atoi(const char *); /* * structure for the special handlers */ struct ss_special scanjet_special = { scanjet_set_params, scanjet_trigger_scanner, NULL, NULL, /* no special minphys */ scanjet_read, /* scsi 6-byte read */ NULL, /* no "rewind" code (yet?) */ NULL, /* no adf support right now */ NULL /* no adf support right now */ }; /* * scanjet_attach: attach special functions to ss */ void scanjet_attach(ss, sa) struct ss_softc *ss; struct scsi_attach_args *sa; { #ifdef SCSIDEBUG struct scsi_link *sc_link = sa->sa_sc_link; #endif int error; SC_DEBUG(sc_link, SDEV_DB1, ("scanjet_attach: start\n")); ss->sio.scan_scanner_type = 0; printf("\n%s: ", ss->sc_dev.dv_xname); /* first, check the model (which determines nothing yet) */ if (!bcmp(sa->sa_inqbuf->product, "C1750A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet IIc"); } /* The IIp is a grayscale-only HP SCL scanner */ if (!bcmp(sa->sa_inqbuf->product, "C1790A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet IIp"); } if (!bcmp(sa->sa_inqbuf->product, "C2500A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet IIcx"); } /* The 3p is a grayscale-only HP SCL scanner */ if (!bcmp(sa->sa_inqbuf->product, "C2570A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet 3p"); } /* The 3c/4c/6100C report as the same? */ if (!bcmp(sa->sa_inqbuf->product, "C2520A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet 3c/4c/6100C"); } if (!bcmp(sa->sa_inqbuf->product, "C1130A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet 4p"); } if (!bcmp(sa->sa_inqbuf->product, "C5110A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet 5p"); } if (!bcmp(sa->sa_inqbuf->product, "C6290A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet 4100C"); } if (!bcmp(sa->sa_inqbuf->product, "C5190A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet 5100C"); } if (!bcmp(sa->sa_inqbuf->product, "C7190A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet 5200C"); } if (!bcmp(sa->sa_inqbuf->product, "C6270A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet 6200C"); } if (!bcmp(sa->sa_inqbuf->product, "C7670A", 6)) { ss->sio.scan_scanner_type = HP_SCANJET_IIC; printf("HP ScanJet 6300C"); } SC_DEBUG(sc_link, SDEV_DB1, ("scanjet_attach: scanner_type = %d\n", ss->sio.scan_scanner_type)); /* now install special handlers */ ss->special = scanjet_special; /* * fill in the rest of the scan_io struct by calling * set_window and compute_sizes routines */ error = scanjet_set_window(ss, SCSI_POLL); if (error) { printf(" set_window failed\n"); return; } error = scanjet_compute_sizes(ss, SCSI_POLL); if (error) { printf(" compute_sizes failed\n"); return; } printf("\n"); } /* * check the parameters if the scanjet is capable of fulfilling it * but don't send the command to the scanner in case the user wants * to change parameters by more than one call */ int scanjet_set_params(ss, sio) struct ss_softc *ss; struct scan_io *sio; { int error; #if 0 /* * if the scanner is triggered, then rewind it */ if (ss->flags & SSF_TRIGGERED) { error = scanjet_rewind_scanner(ss); if (error) return (error); } #endif /* size constraints... */ if (sio->scan_width == 0 || sio->scan_x_origin + sio->scan_width > 10200 || /* 8.5" */ sio->scan_height == 0 || sio->scan_y_origin + sio->scan_height > 16800) /* 14" */ return (EINVAL); /* resolution (dpi)... */ if (sio->scan_x_resolution < 100 || sio->scan_x_resolution > 400 || sio->scan_y_resolution < 100 || sio->scan_y_resolution > 400) return (EINVAL); switch (sio->scan_image_mode) { case SIM_BINARY_MONOCHROME: case SIM_DITHERED_MONOCHROME: case SIM_GRAYSCALE: case SIM_COLOR: break; default: return (EINVAL); } /* change ss_softc to the new values, but save ro-variables */ sio->scan_scanner_type = ss->sio.scan_scanner_type; bcopy(sio, &ss->sio, sizeof(struct scan_io)); error = scanjet_set_window(ss, 0); if (error) { uprintf("%s: set_window failed\n", ss->sc_dev.dv_xname); return (error); } error = scanjet_compute_sizes(ss, 0); if (error) { uprintf("%s: compute_sizes failed\n", ss->sc_dev.dv_xname); return (error); } return (0); } /* * trigger the scanner to start a scan operation * this includes sending the mode- and window-data, * and starting the scanner */ int scanjet_trigger_scanner(ss) struct ss_softc *ss; { static char *escape_codes = "\033*f0S"; int error; error = scanjet_set_window(ss, 0); if (error) { uprintf("%s: set_window failed\n", ss->sc_dev.dv_xname); return (error); } error = scanjet_compute_sizes(ss, 0); if (error) { uprintf("%s: compute_sizes failed\n", ss->sc_dev.dv_xname); return (error); } /* send "trigger" operation */ error = scanjet_ctl_write(ss, escape_codes, strlen(escape_codes), 0); if (error) { uprintf("%s: trigger_scanner failed\n", ss->sc_dev.dv_xname); return (error); } return (0); } int scanjet_read(ss, xs, bp) struct ss_softc *ss; struct scsi_xfer *xs; struct buf *bp; { struct scsi_rw_scanner *cdb; SC_DEBUG(ss->sc_link, SDEV_DB1, ("scanjet_read: start\n")); cdb = (struct scsi_rw_scanner *)xs->cmd; xs->cmdlen = sizeof(*cdb); cdb->opcode = READ; _lto3b(bp->b_bcount, cdb->len); xs->data = bp->b_data; xs->datalen = bp->b_bcount; xs->flags |= SCSI_DATA_IN; xs->timeout = 100000; xs->done = scanjet_read_done; xs->cookie = bp; xs->bp = bp; scsi_xs_exec(xs); return (0); } void scanjet_read_done(struct scsi_xfer *xs) { struct ss_softc *ss = xs->sc_link->device_softc; struct buf *bp = xs->cookie; int error, s; switch (xs->error) { case XS_NOERROR: if (bp->b_bcount >= ss->sio.scan_window_size) ss->sio.scan_window_size = 0; else ss->sio.scan_window_size -= bp->b_bcount; bp->b_error = 0; bp->b_resid = xs->resid; break; case XS_NO_CCB: /* The adapter is busy, requeue the buf and try it later. */ BUFQ_REQUEUE(ss->sc_bufq, bp); scsi_xs_put(xs); SET(ss->flags, SSF_WAITING); timeout_add(&ss->timeout, 1); return; case XS_SENSE: case XS_SHORTSENSE: #ifdef SCSIDEBUG scsi_sense_print_debug(xs); #endif error = scsi_interpret_sense(xs); if (error == 0) { if (bp->b_bcount >= ss->sio.scan_window_size) ss->sio.scan_window_size = 0; else ss->sio.scan_window_size -= bp->b_bcount; bp->b_error = 0; bp->b_resid = xs->resid; break; } if (error != ERESTART) xs->retries = 0; goto retry; case XS_BUSY: if (xs->retries) { if (scsi_delay(xs, 1) != ERESTART) xs->retries = 0; } goto retry; case XS_TIMEOUT: retry: if (xs->retries--) { scsi_xs_exec(xs); return; } /* FALLTHROUGH */ default: bp->b_error = EIO; bp->b_flags |= B_ERROR; bp->b_resid = bp->b_bcount; break; } s = splbio(); biodone(bp); splx(s); scsi_xs_put(xs); } /* * Do a synchronous write. Used to send control messages. */ int scanjet_ctl_write(ss, buf, size, flags) struct ss_softc *ss; char *buf; u_int size; int flags; { struct scsi_rw_scanner cmd; bzero(&cmd, sizeof(cmd)); cmd.opcode = WRITE; _lto3b(size, cmd.len); return (scsi_scsi_cmd(ss->sc_link, (struct scsi_generic *) &cmd, sizeof(cmd), (u_char *) buf, size, 0, 100000, NULL, flags | SCSI_DATA_OUT)); } /* * Do a synchronous read. Used to read responses to control messages. */ int scanjet_ctl_read(ss, buf, size, flags) struct ss_softc *ss; char *buf; u_int size; int flags; { struct scsi_rw_scanner cmd; bzero(&cmd, sizeof(cmd)); cmd.opcode = READ; _lto3b(size, cmd.len); return (scsi_scsi_cmd(ss->sc_link, (struct scsi_generic *) &cmd, sizeof(cmd), (u_char *) buf, size, 0, 100000, NULL, flags | SCSI_DATA_IN)); } #ifdef SCANJETDEBUG static void show_es(char *es) { char *p = es; while (*p) { if (*p == '\033') printf("[Esc]"); else printf("%c", *p); ++p; } printf("\n"); } #endif /* * simulate SCSI_SET_WINDOW for ScanJets */ int scanjet_set_window(ss, flags) struct ss_softc *ss; int flags; { char escape_codes[128]; size_t len; int n; snprintf(escape_codes, sizeof escape_codes, "\033*f%ldP\033*f%ldQ\033*f%ldX\033*f%ldY\033*a%dR\033*a%dS", ss->sio.scan_width / 4, ss->sio.scan_height / 4, ss->sio.scan_x_origin / 4, ss->sio.scan_y_origin / 4, ss->sio.scan_x_resolution, ss->sio.scan_y_resolution); switch (ss->sio.scan_image_mode) { case SIM_BINARY_MONOCHROME: ss->sio.scan_bits_per_pixel = 1; /* * Use line art mode (\033*aoT) and make image data be * min-is-white ala PBM (\033*a0I). */ strlcat(escape_codes, "\033*a0T\033*a0I", sizeof escape_codes); break; case SIM_DITHERED_MONOCHROME: ss->sio.scan_bits_per_pixel = 1; /* * Use dithered mode (\033*a3T) and make image data be * min-is-white ala PBM (\033*a0I). */ strlcat(escape_codes, "\033*a3T\033*a0I", sizeof escape_codes); break; case SIM_GRAYSCALE: ss->sio.scan_bits_per_pixel = 8; /* * Use grayscale mode (\033*a4T) and make image data be * min-is-black ala PGM (\033*a1I) */ strlcat(escape_codes, "\033*a4T\033*a1I", sizeof escape_codes); break; case SIM_COLOR: ss->sio.scan_bits_per_pixel = 24; /* * Use RGB color mode (\033*a5T), make image data be * min-is-black ala PPM (\033*a1I) and use pass-through matrix, * i.e. disable NTSC (\033*u2T). */ strlcat(escape_codes, "\033*a5T\033*a1I\033*u2T", sizeof escape_codes); break; } /* * If the escape sequence has been truncated at this point, appending * the next sequence will also cause truncation, and this time we pay * attention. */ len = strlen(escape_codes); n = snprintf(escape_codes + len, sizeof escape_codes - len, "\033*a%dG\033*a%dL\033*a%dK", ss->sio.scan_bits_per_pixel, (int)(ss->sio.scan_brightness) - 128, (int)(ss->sio.scan_contrast) - 128); if (n >= sizeof escape_codes - len) return (ENOMEM); len += n; return (scanjet_ctl_write(ss, escape_codes, len, flags)); } /* atoi() is from /sys/arch/amiga/dev/ite.c and is only used in scanjet_compute_sizes */ __inline static int atoi(cp) const char *cp; { int n; for (n = 0; *cp && *cp >= '0' && *cp <= '9'; cp++) n = n * 10 + *cp - '0'; return (n); } int scanjet_compute_sizes(ss, flags) struct ss_softc *ss; int flags; { int error; static char *wfail = "%s: interrogate write failed\n"; static char *rfail = "%s: interrogate read failed\n"; static char *dfail = "%s: bad data returned\n"; static char *mono = "\033*s1025E"; /* bytes wide */ static char *color = "\033*s1024E"; /* pixels wide */ static char *high = "\033*s1026E"; /* pixels high */ char response[20]; char *p; /* * Deal with the fact that the HP ScanJet IIc uses 1/300" not 1/1200" * as its base unit of measurement. PINT uses 1/1200" (yes I know * ScanJet II's use decipoints as well but 1200 % 720 != 0) */ ss->sio.scan_width = (ss->sio.scan_width + 3) & 0xfffffffc; ss->sio.scan_height = (ss->sio.scan_height + 3) & 0xfffffffc; switch (ss->sio.scan_image_mode) { case SIM_BINARY_MONOCHROME: case SIM_DITHERED_MONOCHROME: error = scanjet_ctl_write(ss, mono, strlen(mono), flags); break; case SIM_GRAYSCALE: case SIM_COLOR: error = scanjet_ctl_write(ss, color, strlen(color), flags); break; default: error = EIO; break; } if (error) { uprintf(wfail, ss->sc_dev.dv_xname); return (error); } error = scanjet_ctl_read(ss, response, 20, flags); if (error) { uprintf(rfail, ss->sc_dev.dv_xname); return (error); } p = strchr(response, 'd'); if (p == NULL) { uprintf(dfail, ss->sc_dev.dv_xname); return (EIO); } ss->sio.scan_pixels_per_line = atoi(p + 1); if (ss->sio.scan_image_mode < SIM_GRAYSCALE) ss->sio.scan_pixels_per_line *= 8; error = scanjet_ctl_write(ss, high, strlen(high), flags); if (error) { uprintf(wfail, ss->sc_dev.dv_xname); return (error); } error = scanjet_ctl_read(ss, response, 20, flags); if (error) { uprintf(rfail, ss->sc_dev.dv_xname); return (error); } p = strchr(response, 'd'); if (p == NULL) { uprintf(dfail, ss->sc_dev.dv_xname); return (EIO); } ss->sio.scan_lines = atoi(p + 1); ss->sio.scan_window_size = ss->sio.scan_lines * ((ss->sio.scan_pixels_per_line * ss->sio.scan_bits_per_pixel) / 8); return (0); }