mac68k/nubus/grf_nubus.c

1.63.8.1  gehenna /*	$NetBSD: grf_nubus.c,v 1.63.8.1 2002/07/14 18:37:08 gehenna Exp $	*/
     1.1   briggs
     1.1   briggs /*
     1.1   briggs  * Copyright (c) 1995 Allen Briggs.  All rights reserved.
     1.1   briggs  *
     1.1   briggs  * Redistribution and use in source and binary forms, with or without
     1.1   briggs  * modification, are permitted provided that the following conditions
     1.1   briggs  * are met:
     1.1   briggs  * 1. Redistributions of source code must retain the above copyright
     1.1   briggs  *    notice, this list of conditions and the following disclaimer.
     1.1   briggs  * 2. Redistributions in binary form must reproduce the above copyright
     1.1   briggs  *    notice, this list of conditions and the following disclaimer in the
     1.1   briggs  *    documentation and/or other materials provided with the distribution.
    1.58   briggs  * 3. The name of the author may not be used to endorse or promote products
     1.1   briggs  *    derived from this software without specific prior written permission.
     1.1   briggs  *
     1.1   briggs  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     1.1   briggs  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     1.1   briggs  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     1.1   briggs  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
     1.1   briggs  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     1.1   briggs  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     1.1   briggs  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     1.1   briggs  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     1.1   briggs  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
     1.1   briggs  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     1.1   briggs  */
     1.1   briggs /*
     1.1   briggs  * Device-specific routines for handling Nubus-based video cards.
     1.1   briggs  */
     1.1   briggs
     1.1   briggs #include <sys/param.h>
     1.1   briggs
     1.1   briggs #include <sys/device.h>
     1.1   briggs #include <sys/ioctl.h>
     1.1   briggs #include <sys/file.h>
     1.1   briggs #include <sys/malloc.h>
     1.1   briggs #include <sys/mman.h>
     1.1   briggs #include <sys/proc.h>
     1.8   briggs #include <sys/systm.h>
     1.1   briggs
    1.16   scottr #include <machine/bus.h>
     1.8   briggs #include <machine/cpu.h>
     1.1   briggs #include <machine/grfioctl.h>
     1.8   briggs #include <machine/viareg.h>
     1.1   briggs
    1.43   scottr #include <mac68k/nubus/nubus.h>
    1.31   scottr #include <mac68k/dev/grfvar.h>
     1.1   briggs
     1.8   briggs static void	load_image_data __P((caddr_t data, struct image_data *image));
     1.1   briggs
    1.41   scottr static void	grfmv_intr_generic_write1 __P((void *vsc));
    1.41   scottr static void	grfmv_intr_generic_write4 __P((void *vsc));
    1.41   scottr static void	grfmv_intr_generic_or4 __P((void *vsc));
    1.41   scottr
    1.41   scottr static void	grfmv_intr_cb264 __P((void *vsc));
    1.41   scottr static void	grfmv_intr_cb364 __P((void *vsc));
    1.41   scottr static void	grfmv_intr_cmax __P((void *vsc));
    1.41   scottr static void	grfmv_intr_cti __P((void *vsc));
    1.41   scottr static void	grfmv_intr_radius __P((void *vsc));
    1.41   scottr static void	grfmv_intr_radius24 __P((void *vsc));
    1.41   scottr static void	grfmv_intr_supermacgfx __P((void *vsc));
    1.41   scottr static void	grfmv_intr_lapis __P((void *vsc));
    1.41   scottr static void	grfmv_intr_formac __P((void *vsc));
    1.44   briggs static void	grfmv_intr_vimage __P((void *vsc));
    1.48   briggs static void	grfmv_intr_gvimage __P((void *vsc));
    1.55   briggs static void	grfmv_intr_radius_gsc __P((void *vsc));
    1.61   briggs static void	grfmv_intr_radius_gx __P((void *vsc));
     1.1   briggs
     1.8   briggs static int	grfmv_mode __P((struct grf_softc *gp, int cmd, void *arg));
    1.15   scottr static int	grfmv_match __P((struct device *, struct cfdata *, void *));
     1.8   briggs static void	grfmv_attach __P((struct device *, struct device *, void *));
    1.11   scottr
    1.11   scottr struct cfattach macvid_ca = {
    1.11   scottr 	sizeof(struct grfbus_softc), grfmv_match, grfmv_attach
     1.8   briggs };
     1.8   briggs
     1.1   briggs static void
     1.1   briggs load_image_data(data, image)
     1.1   briggs 	caddr_t	data;
     1.1   briggs 	struct	image_data *image;
     1.1   briggs {
     1.1   briggs 	bcopy(data     , &image->size,       4);
     1.1   briggs 	bcopy(data +  4, &image->offset,     4);
     1.1   briggs 	bcopy(data +  8, &image->rowbytes,   2);
     1.1   briggs 	bcopy(data + 10, &image->top,        2);
     1.1   briggs 	bcopy(data + 12, &image->left,       2);
     1.1   briggs 	bcopy(data + 14, &image->bottom,     2);
     1.1   briggs 	bcopy(data + 16, &image->right,      2);
     1.1   briggs 	bcopy(data + 18, &image->version,    2);
     1.1   briggs 	bcopy(data + 20, &image->packType,   2);
     1.1   briggs 	bcopy(data + 22, &image->packSize,   4);
     1.1   briggs 	bcopy(data + 26, &image->hRes,       4);
     1.1   briggs 	bcopy(data + 30, &image->vRes,       4);
     1.1   briggs 	bcopy(data + 34, &image->pixelType,  2);
     1.1   briggs 	bcopy(data + 36, &image->pixelSize,  2);
     1.1   briggs 	bcopy(data + 38, &image->cmpCount,   2);
     1.1   briggs 	bcopy(data + 40, &image->cmpSize,    2);
     1.1   briggs 	bcopy(data + 42, &image->planeBytes, 4);
     1.1   briggs }
     1.1   briggs
     1.1   briggs
     1.7   briggs static int
    1.15   scottr grfmv_match(parent, cf, aux)
    1.11   scottr 	struct device *parent;
    1.15   scottr 	struct cfdata *cf;
    1.15   scottr 	void *aux;
     1.1   briggs {
    1.21   scottr 	struct nubus_attach_args *na = (struct nubus_attach_args *)aux;
     1.1   briggs
    1.15   scottr 	if (na->category != NUBUS_CATEGORY_DISPLAY)
     1.1   briggs 		return 0;
     1.1   briggs
    1.15   scottr 	if (na->type != NUBUS_TYPE_VIDEO)
     1.1   briggs 		return 0;
     1.1   briggs
    1.15   scottr 	if (na->drsw != NUBUS_DRSW_APPLE)
     1.1   briggs 		return 0;
     1.1   briggs
     1.1   briggs 	/*
     1.1   briggs 	 * If we've gotten this far, then we're dealing with a real-live
     1.1   briggs 	 * Apple QuickDraw-compatible display card resource.  Now, how to
     1.1   briggs 	 * determine that this is an active resource???  Dunno.  But we'll
     1.1   briggs 	 * proceed like it is.
     1.1   briggs 	 */
     1.1   briggs
     1.1   briggs 	return 1;
     1.1   briggs }
     1.1   briggs
     1.8   briggs static void
     1.8   briggs grfmv_attach(parent, self, aux)
     1.8   briggs 	struct device *parent, *self;
     1.8   briggs 	void *aux;
     1.1   briggs {
    1.21   scottr 	struct grfbus_softc *sc = (struct grfbus_softc *)self;
    1.21   scottr 	struct nubus_attach_args *na = (struct nubus_attach_args *)aux;
     1.1   briggs 	struct image_data image_store, image;
    1.15   scottr 	struct grfmode *gm;
    1.15   scottr 	char cardname[CARD_NAME_LEN];
    1.15   scottr 	nubus_dirent dirent;
    1.15   scottr 	nubus_dir dir, mode_dir;
    1.15   scottr 	int mode;
    1.15   scottr
    1.46   scottr 	bcopy(na->fmt, &sc->sc_slot, sizeof(nubus_slot));
    1.46   scottr
    1.25   scottr 	sc->sc_tag = na->na_tag;
    1.15   scottr 	sc->card_id = na->drhw;
    1.49   scottr 	sc->sc_basepa = (bus_addr_t)NUBUS_SLOT2PA(na->slot);
    1.49   scottr 	sc->sc_fbofs = 0;
    1.15   scottr
    1.49   scottr 	if (bus_space_map(sc->sc_tag, sc->sc_basepa, NBMEMSIZE,
    1.46   scottr 	    0, &sc->sc_handle)) {
    1.25   scottr 		printf(": grfmv_attach: failed to map slot %d\n", na->slot);
    1.25   scottr 		return;
    1.25   scottr 	}
    1.25   scottr
    1.15   scottr 	nubus_get_main_dir(&sc->sc_slot, &dir);
     1.1   briggs
    1.25   scottr 	if (nubus_find_rsrc(sc->sc_tag, sc->sc_handle,
    1.25   scottr 	    &sc->sc_slot, &dir, na->rsrcid, &dirent) <= 0) {
    1.25   scottr bad:
    1.25   scottr 		bus_space_unmap(sc->sc_tag, sc->sc_handle, NBMEMSIZE);
    1.15   scottr 		return;
    1.25   scottr 	}
    1.15   scottr
    1.15   scottr 	nubus_get_dir_from_rsrc(&sc->sc_slot, &dirent, &sc->board_dir);
    1.15   scottr
    1.25   scottr 	if (nubus_find_rsrc(sc->sc_tag, sc->sc_handle,
    1.25   scottr 	    &sc->sc_slot, &sc->board_dir, NUBUS_RSRC_TYPE, &dirent) <= 0)
    1.15   scottr 		if ((na->rsrcid != 128) ||
    1.25   scottr 		    (nubus_find_rsrc(sc->sc_tag, sc->sc_handle,
    1.25   scottr 		    &sc->sc_slot, &dir, 129, &dirent) <= 0))
    1.25   scottr 			goto bad;
     1.8   briggs
     1.1   briggs 	mode = NUBUS_RSRC_FIRSTMODE;
    1.25   scottr 	if (nubus_find_rsrc(sc->sc_tag, sc->sc_handle,
    1.25   scottr 	    &sc->sc_slot, &sc->board_dir, mode, &dirent) <= 0) {
    1.25   scottr 		printf(": probe failed to get board rsrc.\n");
    1.25   scottr 		goto bad;
     1.8   briggs 	}
     1.1   briggs
     1.1   briggs 	nubus_get_dir_from_rsrc(&sc->sc_slot, &dirent, &mode_dir);
     1.1   briggs
    1.25   scottr 	if (nubus_find_rsrc(sc->sc_tag, sc->sc_handle,
    1.25   scottr 	    &sc->sc_slot, &mode_dir, VID_PARAMS, &dirent) <= 0) {
    1.25   scottr 		printf(": probe failed to get mode dir.\n");
    1.25   scottr 		goto bad;
     1.8   briggs 	}
     1.1   briggs
    1.25   scottr 	if (nubus_get_ind_data(sc->sc_tag, sc->sc_handle, &sc->sc_slot,
    1.25   scottr 	    &dirent, (caddr_t)&image_store, sizeof(struct image_data)) <= 0) {
    1.25   scottr 		printf(": probe failed to get indirect mode data.\n");
    1.25   scottr 		goto bad;
     1.8   briggs 	}
     1.1   briggs
    1.15   scottr 	/* Need to load display info (and driver?), etc... (?) */
    1.15   scottr
    1.21   scottr 	load_image_data((caddr_t)&image_store, &image);
     1.1   briggs
    1.15   scottr 	gm = &sc->curr_mode;
    1.11   scottr 	gm->mode_id = mode;
    1.49   scottr 	gm->ptype = image.pixelType;
    1.49   scottr 	gm->psize = image.pixelSize;
    1.11   scottr 	gm->width = image.right - image.left;
    1.11   scottr 	gm->height = image.bottom - image.top;
    1.49   scottr 	gm->rowbytes = image.rowbytes;
    1.11   scottr 	gm->hres = image.hRes;
    1.11   scottr 	gm->vres = image.vRes;
    1.49   scottr 	gm->fbsize = gm->height * gm->rowbytes;
    1.59   briggs 	gm->fbbase = (caddr_t)(sc->sc_handle.base);	/* XXX evil hack */
    1.49   scottr 	gm->fboff = image.offset;
     1.1   briggs
    1.25   scottr 	strncpy(cardname, nubus_get_card_name(sc->sc_tag, sc->sc_handle,
    1.25   scottr 	    &sc->sc_slot), CARD_NAME_LEN);
    1.11   scottr 	cardname[CARD_NAME_LEN-1] = '\0';
    1.21   scottr 	printf(": %s\n", cardname);
     1.1   briggs
    1.18   briggs 	if (sc->card_id == NUBUS_DRHW_TFB) {
    1.18   briggs 		/*
    1.18   briggs 		 * This is the Toby card, but apparently some manufacturers
    1.18   briggs 		 * (like Cornerstone) didn't bother to get/use their own
    1.18   briggs 		 * value here, even though the cards are different, so we
    1.18   briggs 		 * so we try to differentiate here.
    1.18   briggs 		 */
    1.21   scottr 		if (strncmp(cardname, "Samsung 768", 11) == 0)
    1.18   briggs 			sc->card_id = NUBUS_DRHW_SAM768;
    1.21   scottr 		else if (strncmp(cardname, "Toby frame", 10) != 0)
    1.25   scottr 			printf("%s: This display card pretends to be a TFB!\n",
    1.21   scottr 			    sc->sc_dev.dv_xname);
    1.18   briggs 	}
    1.18   briggs
    1.18   briggs 	switch (sc->card_id) {
    1.28   scottr 	case NUBUS_DRHW_TFB:
    1.18   briggs 	case NUBUS_DRHW_M2HRVC:
    1.27   scottr 	case NUBUS_DRHW_PVC:
    1.18   briggs 		sc->cli_offset = 0xa0000;
    1.22   briggs 		sc->cli_value = 0;
    1.38   briggs 		add_nubus_intr(na->slot, grfmv_intr_generic_write1, sc);
    1.18   briggs 		break;
    1.18   briggs 	case NUBUS_DRHW_WVC:
    1.18   briggs 		sc->cli_offset = 0xa00000;
    1.22   briggs 		sc->cli_value = 0;
    1.38   briggs 		add_nubus_intr(na->slot, grfmv_intr_generic_write1, sc);
    1.28   scottr 		break;
    1.32   scottr 	case NUBUS_DRHW_COLORMAX:
    1.32   scottr 		add_nubus_intr(na->slot, grfmv_intr_cmax, sc);
    1.32   scottr 		break;
    1.28   scottr 	case NUBUS_DRHW_SE30:
    1.28   scottr 		/* Do nothing--SE/30 interrupts are disabled */
    1.28   scottr 		break;
    1.28   scottr 	case NUBUS_DRHW_MDC:
    1.28   scottr 		sc->cli_offset = 0x200148;
    1.28   scottr 		sc->cli_value = 1;
    1.38   briggs 		add_nubus_intr(na->slot, grfmv_intr_generic_write4, sc);
    1.28   scottr
    1.28   scottr 		/* Enable interrupts; to disable, write 0x7 to this location */
    1.28   scottr 		bus_space_write_4(sc->sc_tag, sc->sc_handle, 0x20013C, 5);
    1.28   scottr 		break;
    1.28   scottr 	case NUBUS_DRHW_CB264:
    1.28   scottr 		add_nubus_intr(na->slot, grfmv_intr_cb264, sc);
    1.28   scottr 		break;
    1.28   scottr 	case NUBUS_DRHW_CB364:
    1.28   scottr 		add_nubus_intr(na->slot, grfmv_intr_cb364, sc);
    1.34   briggs 		break;
    1.34   briggs 	case NUBUS_DRHW_RPC8:
    1.34   briggs 		sc->cli_offset = 0xfdff8f;
    1.34   briggs 		sc->cli_value = 0xff;
    1.38   briggs 		add_nubus_intr(na->slot, grfmv_intr_generic_write1, sc);
    1.22   briggs 		break;
    1.23   briggs 	case NUBUS_DRHW_RPC8XJ:
    1.45   briggs 		sc->cli_value = 0x66;
    1.45   briggs 		add_nubus_intr(na->slot, grfmv_intr_radius, sc);
    1.45   briggs 		break;
    1.45   briggs 	case NUBUS_DRHW_RPC24X:
    1.60   briggs 	case NUBUS_DRHW_BOOGIE:
    1.45   briggs 		sc->cli_value = 0x64;
    1.25   scottr 		add_nubus_intr(na->slot, grfmv_intr_radius, sc);
    1.23   briggs 		break;
    1.40   briggs 	case NUBUS_DRHW_RPC24XP:
    1.40   briggs 		add_nubus_intr(na->slot, grfmv_intr_radius24, sc);
    1.40   briggs 		break;
    1.55   briggs 	case NUBUS_DRHW_RADGSC:
    1.55   briggs 		add_nubus_intr(na->slot, grfmv_intr_radius_gsc, sc);
    1.55   briggs 		break;
    1.61   briggs 	case NUBUS_DRHW_RDCGX:
    1.61   briggs 		add_nubus_intr(na->slot, grfmv_intr_radius_gx, sc);
    1.61   briggs 		break;
    1.22   briggs 	case NUBUS_DRHW_FIILX:
    1.22   briggs 	case NUBUS_DRHW_FIISXDSP:
    1.35   briggs 	case NUBUS_DRHW_FUTURASX:
    1.26   scottr 		sc->cli_offset = 0xf05000;
    1.22   briggs 		sc->cli_value = 0x80;
    1.38   briggs 		add_nubus_intr(na->slot, grfmv_intr_generic_write1, sc);
    1.18   briggs 		break;
    1.18   briggs 	case NUBUS_DRHW_SAM768:
    1.25   scottr 		add_nubus_intr(na->slot, grfmv_intr_cti, sc);
    1.19   briggs 		break;
    1.33   briggs 	case NUBUS_DRHW_SUPRGFX:
    1.33   briggs 		add_nubus_intr(na->slot, grfmv_intr_supermacgfx, sc);
    1.33   briggs 		break;
    1.38   briggs 	case NUBUS_DRHW_SPECTRM8:
    1.38   briggs 		sc->cli_offset = 0x0de178;
    1.38   briggs 		sc->cli_value = 0x80;
    1.38   briggs 		add_nubus_intr(na->slot, grfmv_intr_generic_or4, sc);
    1.38   briggs 		break;
    1.36   briggs 	case NUBUS_DRHW_LAPIS:
    1.36   briggs 		add_nubus_intr(na->slot, grfmv_intr_lapis, sc);
    1.36   briggs 		break;
    1.40   briggs 	case NUBUS_DRHW_FORMAC:
    1.40   briggs 		add_nubus_intr(na->slot, grfmv_intr_formac, sc);
    1.42   briggs 		break;
    1.42   briggs 	case NUBUS_DRHW_ROPS24LXI:
    1.53   briggs 	case NUBUS_DRHW_ROPS24XLTV:
    1.57   scottr 	case NUBUS_DRHW_ROPS24MXTV:
    1.42   briggs 		sc->cli_offset = 0xfb0010;
    1.42   briggs 		sc->cli_value = 0x00;
    1.62   briggs 		add_nubus_intr(na->slot, grfmv_intr_generic_write4, sc);
    1.62   briggs 		break;
    1.62   briggs 	case NUBUS_DRHW_ROPSPPGT:
    1.62   briggs 		sc->cli_offset = 0xf50010;
    1.62   briggs 		sc->cli_value = 0x02;
    1.42   briggs 		add_nubus_intr(na->slot, grfmv_intr_generic_write4, sc);
    1.40   briggs 		break;
    1.44   briggs 	case NUBUS_DRHW_VIMAGE:
    1.44   briggs 		add_nubus_intr(na->slot, grfmv_intr_vimage, sc);
    1.44   briggs 		break;
    1.48   briggs 	case NUBUS_DRHW_GVIMAGE:
    1.48   briggs 		add_nubus_intr(na->slot, grfmv_intr_gvimage, sc);
    1.51   scottr 		break;
    1.52   scottr 	case NUBUS_DRHW_MC2124NB:
    1.51   scottr 		sc->cli_offset = 0xfd1000;
    1.51   scottr 		sc->cli_value = 0x00;
    1.51   scottr 		add_nubus_intr(na->slot, grfmv_intr_generic_write4, sc);
    1.48   briggs 		break;
    1.18   briggs 	case NUBUS_DRHW_MICRON:
    1.54   briggs 		sc->cli_offset = 0xa00014;
    1.54   briggs 		sc->cli_value = 0;
    1.54   briggs 		add_nubus_intr(na->slot, grfmv_intr_generic_write4, sc);
    1.54   briggs 		break;
    1.18   briggs 	default:
    1.21   scottr 		printf("%s: Unknown video card ID 0x%x --",
    1.21   scottr 		    sc->sc_dev.dv_xname, sc->card_id);
    1.21   scottr 		printf(" Not installing interrupt routine.\n");
    1.18   briggs 		break;
    1.18   briggs 	}
     1.1   briggs
    1.11   scottr 	/* Perform common video attachment. */
    1.46   scottr 	grf_establish(sc, &sc->sc_slot, grfmv_mode);
     1.1   briggs }
     1.1   briggs
     1.8   briggs static int
     1.1   briggs grfmv_mode(gp, cmd, arg)
     1.1   briggs 	struct grf_softc *gp;
     1.1   briggs 	int cmd;
     1.1   briggs 	void *arg;
     1.1   briggs {
     1.1   briggs 	switch (cmd) {
     1.4   briggs 	case GM_GRFON:
     1.4   briggs 	case GM_GRFOFF:
     1.4   briggs 		return 0;
     1.1   briggs 	case GM_CURRMODE:
     1.1   briggs 		break;
     1.1   briggs 	case GM_NEWMODE:
     1.1   briggs 		break;
     1.1   briggs 	case GM_LISTMODES:
     1.1   briggs 		break;
     1.1   briggs 	}
     1.1   briggs 	return EINVAL;
    1.18   briggs }
    1.18   briggs
    1.18   briggs /* Interrupt handlers... */
    1.18   briggs /*
    1.18   briggs  * Generic routine to clear interrupts for cards where it simply takes
    1.28   scottr  * a MOV.B to clear the interrupt.  The offset and value of this byte
    1.28   scottr  * varies between cards.
    1.18   briggs  */
    1.18   briggs /*ARGSUSED*/
    1.18   briggs static void
    1.41   scottr grfmv_intr_generic_write1(vsc)
    1.18   briggs 	void	*vsc;
    1.18   briggs {
    1.26   scottr 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.26   scottr
    1.26   scottr 	bus_space_write_1(sc->sc_tag, sc->sc_handle,
    1.28   scottr 	    sc->cli_offset, (u_int8_t)sc->cli_value);
    1.28   scottr }
    1.28   scottr
    1.28   scottr /*
    1.28   scottr  * Generic routine to clear interrupts for cards where it simply takes
    1.28   scottr  * a MOV.L to clear the interrupt.  The offset and value of this byte
    1.28   scottr  * varies between cards.
    1.28   scottr  */
    1.28   scottr /*ARGSUSED*/
    1.28   scottr static void
    1.41   scottr grfmv_intr_generic_write4(vsc)
    1.28   scottr 	void	*vsc;
    1.28   scottr {
    1.28   scottr 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.28   scottr
    1.28   scottr 	bus_space_write_4(sc->sc_tag, sc->sc_handle,
    1.26   scottr 	    sc->cli_offset, sc->cli_value);
    1.38   briggs }
    1.38   briggs
    1.38   briggs /*
    1.38   briggs  * Generic routine to clear interrupts for cards where it simply takes
    1.38   briggs  * an OR.L to clear the interrupt.  The offset and value of this byte
    1.38   briggs  * varies between cards.
    1.38   briggs  */
    1.38   briggs /*ARGSUSED*/
    1.38   briggs static void
    1.41   scottr grfmv_intr_generic_or4(vsc)
    1.38   briggs 	void	*vsc;
    1.38   briggs {
    1.38   briggs 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.38   briggs 	unsigned long	scratch;
    1.38   briggs
    1.38   briggs 	scratch = bus_space_read_4(sc->sc_tag, sc->sc_handle, sc->cli_offset);
    1.38   briggs 	scratch |= 0x80;
    1.38   briggs 	bus_space_write_4(sc->sc_tag, sc->sc_handle, sc->cli_offset, scratch);
    1.23   briggs }
    1.23   briggs
    1.23   briggs /*
    1.26   scottr  * Routine to clear interrupts for the Radius PrecisionColor 8xj card.
    1.23   briggs  */
    1.23   briggs /*ARGSUSED*/
    1.23   briggs static void
    1.41   scottr grfmv_intr_radius(vsc)
    1.23   briggs 	void	*vsc;
    1.23   briggs {
    1.26   scottr 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.26   scottr 	u_int8_t c;
    1.23   briggs
    1.45   briggs 	c = sc->cli_value;
    1.23   briggs
    1.23   briggs 	c |= 0x80;
    1.26   scottr 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0xd00403, c);
    1.26   scottr 	c &= 0x7f;
    1.26   scottr 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0xd00403, c);
    1.18   briggs }
    1.18   briggs
    1.18   briggs /*
    1.40   briggs  * Routine to clear interrupts for the Radius PrecisionColor 24Xp card.
    1.40   briggs  * Is this what the 8xj routine is doing, too?
    1.40   briggs  */
    1.40   briggs /*ARGSUSED*/
    1.40   briggs static void
    1.41   scottr grfmv_intr_radius24(vsc)
    1.40   briggs 	void	*vsc;
    1.40   briggs {
    1.40   briggs 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.40   briggs 	u_int8_t c;
    1.40   briggs
    1.40   briggs 	c = 0x80 | bus_space_read_1(sc->sc_tag, sc->sc_handle, 0xfffd8);
    1.40   briggs 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0xd00403, c);
    1.40   briggs 	c &= 0x7f;
    1.40   briggs 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0xd00403, c);
    1.40   briggs }
    1.40   briggs
    1.40   briggs /*
    1.18   briggs  * Routine to clear interrupts on Samsung 768x1006 video controller.
    1.18   briggs  * This controller was manufactured by Cornerstone Technology, Inc.,
    1.18   briggs  * now known as Cornerstone Imaging.
    1.18   briggs  *
    1.18   briggs  * To clear this interrupt, we apparently have to set, then clear,
    1.18   briggs  * bit 2 at byte offset 0x80000 from the card's base.
    1.18   briggs  *	Information for this provided by Brad Salai <bsalai (at) servtech.com>
    1.18   briggs  */
    1.18   briggs /*ARGSUSED*/
    1.18   briggs static void
    1.41   scottr grfmv_intr_cti(vsc)
    1.18   briggs 	void	*vsc;
    1.18   briggs {
    1.26   scottr 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.26   scottr 	u_int8_t c;
    1.18   briggs
    1.26   scottr 	c = bus_space_read_1(sc->sc_tag, sc->sc_handle, 0x80000);
    1.26   scottr 	c |= 0x02;
    1.26   scottr 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0x80000, c);
    1.26   scottr 	c &= 0xfd;
    1.26   scottr 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0x80000, c);
    1.18   briggs }
    1.18   briggs
    1.18   briggs /*ARGSUSED*/
    1.18   briggs static void
    1.41   scottr grfmv_intr_cb264(vsc)
    1.18   briggs 	void	*vsc;
    1.18   briggs {
    1.18   briggs 	struct grfbus_softc *sc;
    1.21   scottr 	volatile char *slotbase;
    1.18   briggs
    1.21   scottr 	sc = (struct grfbus_softc *)vsc;
    1.59   briggs 	slotbase = (volatile char *)(sc->sc_handle.base); /* XXX evil hack */
1.63.8.1  gehenna 	__asm __volatile(
1.63.8.1  gehenna 		"	movl	%0,%%a0				\n"
1.63.8.1  gehenna 		"	movl	%%a0@(0xff6028),%%d0		\n"
1.63.8.1  gehenna 		"	andl	#0x2,%%d0			\n"
1.63.8.1  gehenna 		"	beq	_mv_intr0			\n"
1.63.8.1  gehenna 		"	movql	#0x3,%%d0			\n"
1.63.8.1  gehenna 		"_mv_intr0:					\n"
1.63.8.1  gehenna 		"	movl	%%a0@(0xff600c),%%d1		\n"
1.63.8.1  gehenna 		"	andl	#0x3,%%d1			\n"
1.63.8.1  gehenna 		"	cmpl	%%d1,%%d0			\n"
1.63.8.1  gehenna 		"	beq	_mv_intr_fin			\n"
1.63.8.1  gehenna 		"	movl	%%d0,%%a0@(0xff600c)		\n"
1.63.8.1  gehenna 		"	nop					\n"
1.63.8.1  gehenna 		"	tstb	%%d0				\n"
1.63.8.1  gehenna 		"	beq	_mv_intr1			\n"
1.63.8.1  gehenna 		"	movl	#0x0002,%%a0@(0xff6040)		\n"
1.63.8.1  gehenna 		"	movl	#0x0102,%%a0@(0xff6044)		\n"
1.63.8.1  gehenna 		"	movl	#0x0105,%%a0@(0xff6048)		\n"
1.63.8.1  gehenna 		"	movl	#0x000e,%%a0@(0xff604c)		\n"
1.63.8.1  gehenna 		"	movl	#0x001c,%%a0@(0xff6050)		\n"
1.63.8.1  gehenna 		"	movl	#0x00bc,%%a0@(0xff6054)		\n"
1.63.8.1  gehenna 		"	movl	#0x00c3,%%a0@(0xff6058)		\n"
1.63.8.1  gehenna 		"	movl	#0x0061,%%a0@(0xff605c)		\n"
1.63.8.1  gehenna 		"	movl	#0x0012,%%a0@(0xff6060)		\n"
1.63.8.1  gehenna 		"	bra	_mv_intr_fin			\n"
1.63.8.1  gehenna 		"_mv_intr1:					\n"
1.63.8.1  gehenna 		"	movl	#0x0002,%%a0@(0xff6040)		\n"
1.63.8.1  gehenna 		"	movl	#0x0209,%%a0@(0xff6044)		\n"
1.63.8.1  gehenna 		"	movl	#0x020c,%%a0@(0xff6048)		\n"
1.63.8.1  gehenna 		"	movl	#0x000f,%%a0@(0xff604c)		\n"
1.63.8.1  gehenna 		"	movl	#0x0027,%%a0@(0xff6050)		\n"
1.63.8.1  gehenna 		"	movl	#0x00c7,%%a0@(0xff6054)		\n"
1.63.8.1  gehenna 		"	movl	#0x00d7,%%a0@(0xff6058)		\n"
1.63.8.1  gehenna 		"	movl	#0x006b,%%a0@(0xff605c)		\n"
1.63.8.1  gehenna 		"	movl	#0x0029,%%a0@(0xff6060)		\n"
1.63.8.1  gehenna 		"_mv_intr_fin:					\n"
1.63.8.1  gehenna 		"	movl	#0x1,%%a0@(0xff6014)"
    1.18   briggs 		: : "g" (slotbase) : "a0","d0","d1");
    1.24   briggs }
    1.24   briggs
    1.24   briggs /*
    1.24   briggs  * Support for the Colorboard 364 might be more complex than it needs to
    1.24   briggs  * be.  If we can find more information about this card, this might be
    1.24   briggs  * significantly simplified.  Contributions welcome...  :-)
    1.24   briggs  */
    1.24   briggs /*ARGSUSED*/
    1.24   briggs static void
    1.41   scottr grfmv_intr_cb364(vsc)
    1.24   briggs 	void	*vsc;
    1.24   briggs {
    1.24   briggs 	struct grfbus_softc *sc;
    1.24   briggs 	volatile char *slotbase;
    1.24   briggs
    1.24   briggs 	sc = (struct grfbus_softc *)vsc;
    1.59   briggs 	slotbase = (volatile char *)(sc->sc_handle.base); /* XXX evil hack */
1.63.8.1  gehenna 	__asm __volatile(
1.63.8.1  gehenna 		"	movl	%0,%%a0				\n"
1.63.8.1  gehenna 		"	movl	%%a0@(0xfe6028),%%d0		\n"
1.63.8.1  gehenna 		"	andl	#0x2,%%d0			\n"
1.63.8.1  gehenna 		"	beq	_cb364_intr4			\n"
1.63.8.1  gehenna 		"	movql	#0x3,%%d0			\n"
1.63.8.1  gehenna 		"	movl	%%a0@(0xfe6018),%%d1		\n"
1.63.8.1  gehenna 		"	movl	#0x3,%%a0@(0xfe6018)		\n"
1.63.8.1  gehenna 		"	movw	%%a0@(0xfe7010),%%d2		\n"
1.63.8.1  gehenna 		"	movl	%%d1,%%a0@(0xfe6018)		\n"
1.63.8.1  gehenna 		"	movl	%%a0@(0xfe6020),%%d1		\n"
1.63.8.1  gehenna 		"	btst	#0x06,%%d2			\n"
1.63.8.1  gehenna 		"	beq	_cb364_intr0			\n"
1.63.8.1  gehenna 		"	btst	#0x00,%%d1			\n"
1.63.8.1  gehenna 		"	beq	_cb364_intr5			\n"
1.63.8.1  gehenna 		"	bsr	_cb364_intr1			\n"
1.63.8.1  gehenna 		"	bra	_cb364_intr_out			\n"
1.63.8.1  gehenna 		"_cb364_intr0:					\n"
1.63.8.1  gehenna 		"	btst	#0x00,%%d1			\n"
1.63.8.1  gehenna 		"	bne	_cb364_intr5			\n"
1.63.8.1  gehenna 		"	bsr	_cb364_intr1			\n"
1.63.8.1  gehenna 		"	bra	_cb364_intr_out			\n"
1.63.8.1  gehenna 		"_cb364_intr1:					\n"
1.63.8.1  gehenna 		"	movl	%%d0,%%a0@(0xfe600c)		\n"
1.63.8.1  gehenna 		"	nop					\n"
1.63.8.1  gehenna 		"	tstb	%%d0				\n"
1.63.8.1  gehenna 		"	beq	_cb364_intr3			\n"
1.63.8.1  gehenna 		"	movl	#0x0002,%%a0@(0xfe6040)		\n"
1.63.8.1  gehenna 		"	movl	#0x0105,%%a0@(0xfe6048)		\n"
1.63.8.1  gehenna 		"	movl	#0x000e,%%a0@(0xfe604c)		\n"
1.63.8.1  gehenna 		"	movl	#0x00c3,%%a0@(0xfe6058)		\n"
1.63.8.1  gehenna 		"	movl	#0x0061,%%a0@(0xfe605c)		\n"
1.63.8.1  gehenna 		"	btst	#0x06,%%d2			\n"
1.63.8.1  gehenna 		"	beq	_cb364_intr2			\n"
1.63.8.1  gehenna 		"	movl	#0x001c,%%a0@(0xfe6050)		\n"
1.63.8.1  gehenna 		"	movl	#0x00bc,%%a0@(0xfe6054)		\n"
1.63.8.1  gehenna 		"	movl	#0x0012,%%a0@(0xfe6060)		\n"
1.63.8.1  gehenna 		"	movl	#0x000e,%%a0@(0xfe6044)		\n"
1.63.8.1  gehenna 		"	movl	#0x00c3,%%a0@(0xfe6064)		\n"
1.63.8.1  gehenna 		"	movl	#0x0061,%%a0@(0xfe6020)		\n"
1.63.8.1  gehenna 		"	rts					\n"
1.63.8.1  gehenna 		"_cb364_intr2:					\n"
1.63.8.1  gehenna 		"	movl	#0x0016,%%a0@(0xfe6050)		\n"
1.63.8.1  gehenna 		"	movl	#0x00b6,%%a0@(0xfe6054)		\n"
1.63.8.1  gehenna 		"	movl	#0x0011,%%a0@(0xfe6060)		\n"
1.63.8.1  gehenna 		"	movl	#0x0101,%%a0@(0xfe6044)		\n"
1.63.8.1  gehenna 		"	movl	#0x00bf,%%a0@(0xfe6064)		\n"
1.63.8.1  gehenna 		"	movl	#0x0001,%%a0@(0xfe6020)		\n"
1.63.8.1  gehenna 		"	rts					\n"
1.63.8.1  gehenna 		"_cb364_intr3:					\n"
1.63.8.1  gehenna 		"	movl	#0x0002,%%a0@(0xfe6040)		\n"
1.63.8.1  gehenna 		"	movl	#0x0209,%%a0@(0xfe6044)		\n"
1.63.8.1  gehenna 		"	movl	#0x020c,%%a0@(0xfe6048)		\n"
1.63.8.1  gehenna 		"	movl	#0x000f,%%a0@(0xfe604c)		\n"
1.63.8.1  gehenna 		"	movl	#0x0027,%%a0@(0xfe6050)		\n"
1.63.8.1  gehenna 		"	movl	#0x00c7,%%a0@(0xfe6054)		\n"
1.63.8.1  gehenna 		"	movl	#0x00d7,%%a0@(0xfe6058)		\n"
1.63.8.1  gehenna 		"	movl	#0x006b,%%a0@(0xfe605c)		\n"
1.63.8.1  gehenna 		"	movl	#0x0029,%%a0@(0xfe6060)		\n"
1.63.8.1  gehenna 		"	oril	#0x0040,%%a0@(0xfe6064)		\n"
1.63.8.1  gehenna 		"	movl	#0x0000,%%a0@(0xfe6020)		\n"
1.63.8.1  gehenna 		"	rts					\n"
1.63.8.1  gehenna 		"_cb364_intr4:					\n"
1.63.8.1  gehenna 		"	movq	#0x00,%%d0			\n"
1.63.8.1  gehenna 		"_cb364_intr5:					\n"
1.63.8.1  gehenna 		"	movl	%%a0@(0xfe600c),%%d1		\n"
1.63.8.1  gehenna 		"	andl	#0x3,%%d1			\n"
1.63.8.1  gehenna 		"	cmpl	%%d1,%%d0			\n"
1.63.8.1  gehenna 		"	beq	_cb364_intr_out			\n"
1.63.8.1  gehenna 		"	bsr	_cb364_intr1			\n"
1.63.8.1  gehenna 		"_cb364_intr_out:				\n"
1.63.8.1  gehenna 		"	movl	#0x1,%%a0@(0xfe6014)		\n"
1.63.8.1  gehenna 		"_cb364_intr_quit:"
1.63.8.1  gehenna 		: : "g" (slotbase) : "a0","d0","d1","d2");
    1.33   briggs }
    1.33   briggs
    1.33   briggs /*
    1.33   briggs  * Interrupt clearing routine for SuperMac GFX card.
    1.33   briggs  */
    1.33   briggs /*ARGSUSED*/
    1.33   briggs static void
    1.41   scottr grfmv_intr_supermacgfx(vsc)
    1.33   briggs 	void	*vsc;
    1.33   briggs {
    1.33   briggs 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.33   briggs 	u_int8_t dummy;
    1.33   briggs
    1.33   briggs 	dummy = bus_space_read_1(sc->sc_tag, sc->sc_handle, 0xE70D3);
    1.32   scottr }
    1.32   scottr
    1.32   scottr /*
    1.32   scottr  * Routine to clear interrupts for the Sigma Designs ColorMax card.
    1.32   scottr  */
    1.32   scottr /*ARGSUSED*/
    1.32   scottr static void
    1.41   scottr grfmv_intr_cmax(vsc)
    1.32   scottr 	void	*vsc;
    1.32   scottr {
    1.32   scottr 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.32   scottr 	u_int32_t dummy;
    1.32   scottr
    1.32   scottr 	dummy = bus_space_read_4(sc->sc_tag, sc->sc_handle, 0xf501c);
    1.32   scottr 	dummy = bus_space_read_4(sc->sc_tag, sc->sc_handle, 0xf5018);
    1.36   briggs }
    1.36   briggs
    1.36   briggs /*
    1.37   scottr  * Routine to clear interrupts for the Lapis ProColorServer 8 PDS card
    1.37   scottr  * (for the SE/30).
    1.36   briggs  */
    1.36   briggs /*ARGSUSED*/
    1.36   briggs static void
    1.41   scottr grfmv_intr_lapis(vsc)
    1.36   briggs 	void	*vsc;
    1.36   briggs {
    1.36   briggs 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.36   briggs
    1.36   briggs 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0xff7000, 0x08);
    1.36   briggs 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0xff7000, 0x0C);
    1.40   briggs }
    1.40   briggs
    1.40   briggs /*
    1.40   briggs  * Routine to clear interrupts for the Formac Color Card II
    1.40   briggs  */
    1.40   briggs /*ARGSUSED*/
    1.40   briggs static void
    1.41   scottr grfmv_intr_formac(vsc)
    1.40   briggs 	void	*vsc;
    1.40   briggs {
    1.40   briggs 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.40   briggs 	u_int8_t dummy;
    1.40   briggs
    1.40   briggs 	dummy = bus_space_read_1(sc->sc_tag, sc->sc_handle, 0xde80db);
    1.40   briggs 	dummy = bus_space_read_1(sc->sc_tag, sc->sc_handle, 0xde80d3);
    1.44   briggs }
    1.44   briggs
    1.44   briggs /*
    1.44   briggs  * Routine to clear interrupts for the Vimage by Interware Co., Ltd.
    1.44   briggs  */
    1.44   briggs /*ARGSUSED*/
    1.44   briggs static void
    1.44   briggs grfmv_intr_vimage(vsc)
    1.44   briggs 	void	*vsc;
    1.44   briggs {
    1.44   briggs 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.44   briggs
    1.44   briggs 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0x800000, 0x67);
    1.44   briggs 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0x800000, 0xE7);
    1.48   briggs }
    1.48   briggs
    1.48   briggs /*
    1.50   briggs  * Routine to clear interrupts for the Grand Vimage by Interware Co., Ltd.
    1.48   briggs  */
    1.48   briggs /*ARGSUSED*/
    1.48   briggs static void
    1.48   briggs grfmv_intr_gvimage(vsc)
    1.48   briggs 	void	*vsc;
    1.48   briggs {
    1.48   briggs 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.48   briggs 	u_int8_t dummy;
    1.48   briggs
    1.48   briggs 	dummy = bus_space_read_1(sc->sc_tag, sc->sc_handle, 0xf00000);
     1.1   briggs }
    1.55   briggs
    1.55   briggs /*
    1.55   briggs  * Routine to clear interrupts for the Radius GS/C
    1.55   briggs  */
    1.55   briggs /*ARGSUSED*/
    1.55   briggs static void
    1.55   briggs grfmv_intr_radius_gsc(vsc)
    1.55   briggs 	void	*vsc;
    1.55   briggs {
    1.55   briggs 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.55   briggs 	u_int8_t dummy;
    1.55   briggs
    1.55   briggs 	dummy = bus_space_read_1(sc->sc_tag, sc->sc_handle, 0xfb802);
    1.55   briggs 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0xfb802, 0xff);
    1.55   briggs }
    1.55   briggs
    1.61   briggs /*
    1.61   briggs  * Routine to clear interrupts for the Radius GS/C
    1.61   briggs  */
    1.61   briggs /*ARGSUSED*/
    1.61   briggs static void
    1.61   briggs grfmv_intr_radius_gx(vsc)
    1.61   briggs 	void	*vsc;
    1.61   briggs {
    1.61   briggs 	struct grfbus_softc *sc = (struct grfbus_softc *)vsc;
    1.61   briggs
    1.61   briggs 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0x600000, 0x00);
    1.61   briggs 	bus_space_write_1(sc->sc_tag, sc->sc_handle, 0x600000, 0x20);
    1.61   briggs }