amiga/dev/grf_et.c

1.1.4.2     is /*	$NetBSD: grf_et.c,v 1.1.4.2 1996/06/04 09:01:21 is Exp $	*/
    1.1  veego
    1.1  veego /*
    1.1  veego  * Copyright (c) 1996 Tobias Abt
    1.1  veego  * Copyright (c) 1995 Ezra Story
    1.1  veego  * Copyright (c) 1995 Kari Mettinen
    1.1  veego  * Copyright (c) 1994 Markus Wild
    1.1  veego  * Copyright (c) 1994 Lutz Vieweg
    1.1  veego  * All rights reserved.
    1.1  veego  *
    1.1  veego  * Redistribution and use in source and binary forms, with or without
    1.1  veego  * modification, are permitted provided that the following conditions
    1.1  veego  * are met:
    1.1  veego  * 1. Redistributions of source code must retain the above copyright
    1.1  veego  *    notice, this list of conditions and the following disclaimer.
    1.1  veego  * 2. Redistributions in binary form must reproduce the above copyright
    1.1  veego  *    notice, this list of conditions and the following disclaimer in the
    1.1  veego  *    documentation and/or other materials provided with the distribution.
    1.1  veego  * 3. All advertising materials mentioning features or use of this software
    1.1  veego  *    must display the following acknowledgement:
    1.1  veego  *      This product includes software developed by Lutz Vieweg.
    1.1  veego  * 4. The name of the author may not be used to endorse or promote products
    1.1  veego  *    derived from this software without specific prior written permission
    1.1  veego  *
    1.1  veego  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
    1.1  veego  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
    1.1  veego  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
    1.1  veego  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
    1.1  veego  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
    1.1  veego  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
    1.1  veego  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
    1.1  veego  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
    1.1  veego  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
    1.1  veego  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    1.1  veego  */
    1.1  veego #include "grfet.h"
    1.1  veego #if NGRFET > 0
    1.1  veego
    1.1  veego /*
    1.1  veego  * Graphics routines for Tseng ET4000 (&W32) boards,
    1.1  veego  *
    1.1  veego  * This code offers low-level routines to access Tseng ET4000
    1.1  veego  * graphics-boards from within NetBSD for the Amiga.
    1.1  veego  * No warranties for any kind of function at all - this
    1.1  veego  * code may crash your hardware and scratch your harddisk.  Use at your
    1.1  veego  * own risk.  Freely distributable.
    1.1  veego  *
    1.1  veego  * Modified for Tseng ET4000 from
    1.1  veego  * Kari Mettinen's Cirrus driver by Tobias Abt
    1.1  veego  *
    1.1  veego  *
    1.1  veego  * TODO:
    1.1  veego  *
    1.1  veego  */
    1.1  veego
    1.1  veego #include <sys/param.h>
    1.1  veego #include <sys/systm.h>
    1.1  veego #include <sys/errno.h>
    1.1  veego #include <sys/ioctl.h>
    1.1  veego #include <sys/device.h>
    1.1  veego #include <sys/malloc.h>
    1.1  veego
    1.1  veego #include <machine/cpu.h>
    1.1  veego #include <dev/cons.h>
    1.1  veego #ifdef TSENGCONSOLE
    1.1  veego #include <amiga/dev/itevar.h>
    1.1  veego #endif
    1.1  veego #include <amiga/amiga/device.h>
    1.1  veego #include <amiga/dev/grfioctl.h>
    1.1  veego #include <amiga/dev/grfvar.h>
    1.1  veego #include <amiga/dev/grf_etreg.h>
    1.1  veego #include <amiga/dev/zbusvar.h>
    1.1  veego
1.1.4.1     is int	et_mondefok __P((struct grfvideo_mode *gv));
1.1.4.1     is void	et_boardinit __P((struct grf_softc *gp));
1.1.4.1     is static void et_CompFQ __P((u_int fq, u_char *num, u_char *denom));
1.1.4.1     is int	et_getvmode __P((struct grf_softc *gp, struct grfvideo_mode *vm));
1.1.4.1     is int	et_setvmode __P((struct grf_softc *gp, unsigned int mode));
1.1.4.1     is int	et_toggle __P((struct grf_softc *gp, unsigned short));
1.1.4.1     is int	et_getcmap __P((struct grf_softc *gfp, struct grf_colormap *cmap));
1.1.4.1     is int	et_putcmap __P((struct grf_softc *gfp, struct grf_colormap *cmap));
    1.1  veego #ifndef TSENGCONSOLE
1.1.4.1     is void	et_off __P((struct grf_softc *gp));
    1.1  veego #endif
1.1.4.1     is void	et_inittextmode __P((struct grf_softc *gp));
1.1.4.1     is int	et_ioctl __P((register struct grf_softc *gp, u_long cmd, void *data));
1.1.4.1     is int	et_getmousepos __P((struct grf_softc *gp, struct grf_position *data));
    1.1  veego void	et_writesprpos __P((volatile char *ba, short x, short y));
1.1.4.1     is int	et_setmousepos __P((struct grf_softc *gp, struct grf_position *data));
1.1.4.1     is static int et_setspriteinfo __P((struct grf_softc *gp,
1.1.4.1     is     struct grf_spriteinfo *data));
1.1.4.1     is int	et_getspriteinfo __P((struct grf_softc *gp,
1.1.4.1     is     struct grf_spriteinfo *data));
1.1.4.1     is static int et_getspritemax __P((struct grf_softc *gp,
1.1.4.1     is     struct grf_position *data));
1.1.4.1     is int	et_setmonitor __P((struct grf_softc *gp, struct grfvideo_mode *gv));
1.1.4.1     is int	et_blank __P((struct grf_softc *gp, int *on));
1.1.4.1     is static int et_getControllerType __P((struct grf_softc *gp));
1.1.4.1     is static int et_getDACType __P((struct grf_softc *gp));
    1.1  veego
    1.1  veego int	grfetmatch __P((struct device *, void *, void *));
    1.1  veego void	grfetattach __P((struct device *, struct device *, void *));
    1.1  veego int	grfetprint __P((void *, char *));
    1.1  veego void	et_memset __P((unsigned char *d, unsigned char c, int l));
    1.1  veego
1.1.4.1     is /*
1.1.4.1     is  * Graphics display definitions.
    1.1  veego  * These are filled by 'grfconfig' using GRFIOCSETMON.
    1.1  veego  */
    1.1  veego #define monitor_def_max 8
    1.1  veego static struct grfvideo_mode monitor_def[8] = {
    1.1  veego 	{0}, {0}, {0}, {0}, {0}, {0}, {0}, {0}
    1.1  veego };
    1.1  veego static struct grfvideo_mode *monitor_current = &monitor_def[0];
    1.1  veego
    1.1  veego /* Console display definition.
    1.1  veego  *   Default hardcoded text mode.  This grf_et is set up to
    1.1  veego  *   use one text mode only, and this is it.  You may use
    1.1  veego  *   grfconfig to change the mode after boot.
    1.1  veego  */
    1.1  veego /* Console font */
    1.1  veego #ifdef KFONT_8X11
    1.1  veego #define TSENGFONT kernel_font_8x11
    1.1  veego #define TSENGFONTY 11
    1.1  veego #else
    1.1  veego #define TSENGFONT kernel_font_8x8
    1.1  veego #define TSENGFONTY 8
    1.1  veego #endif
    1.1  veego extern unsigned char TSENGFONT[];
    1.1  veego
    1.1  veego struct grfettext_mode etconsole_mode = {
    1.1  veego 	{255, "", 25000000, 640, 480, 4, 640/8, 784/8, 680/8, 768/8, 800/8,
    1.1  veego 	 481, 521, 491, 493, 525},
    1.1  veego 	8, TSENGFONTY, 640 / 8, 480 / TSENGFONTY, TSENGFONT, 32, 255
    1.1  veego };
    1.1  veego
    1.1  veego /* Console colors */
    1.1  veego unsigned char etconscolors[3][3] = {	/* background, foreground, hilite */
    1.1  veego 	{0, 0x40, 0x50}, {152, 152, 152}, {255, 255, 255}
    1.1  veego };
    1.1  veego
    1.1  veego int ettype = 0;		/* oMniBus, Domino or Merlin */
    1.1  veego int etctype = 0;	/* ET4000 or ETW32 */
    1.1  veego int etdtype = 0;	/* Type of DAC (see grf_etregs.h) */
    1.1  veego
    1.1  veego char etcmap_shift = 0;	/* 6 or 8 bit cmap entries */
    1.1  veego unsigned char pass_toggle;	/* passthru status tracker */
    1.1  veego
    1.1  veego unsigned char Merlin_switch = 0;
    1.1  veego
1.1.4.1     is /*
1.1.4.1     is  * Because all Tseng-boards have 2 configdev entries, one for
    1.1  veego  * framebuffer mem and the other for regs, we have to hold onto
    1.1  veego  * the pointers globally until we match on both.  This and 'ettype'
    1.1  veego  * are the primary obsticles to multiple board support, but if you
    1.1  veego  * have multiple boards you have bigger problems than grf_et.
    1.1  veego  */
    1.1  veego static void *et_fbaddr = 0;	/* framebuffer */
    1.1  veego static void *et_regaddr = 0;	/* registers */
    1.1  veego static int et_fbsize;		/* framebuffer size */
    1.1  veego
    1.1  veego /* current sprite info, if you add support for multiple boards
    1.1  veego  * make this an array or something
    1.1  veego  */
    1.1  veego struct grf_spriteinfo et_cursprite;
    1.1  veego
    1.1  veego /* sprite bitmaps in kernel stack, you'll need to arrayize these too if
    1.1  veego  * you add multiple board support
    1.1  veego  */
    1.1  veego static unsigned char et_imageptr[8 * 64], et_maskptr[8 * 64];
    1.1  veego static unsigned char et_sprred[2], et_sprgreen[2], et_sprblue[2];
    1.1  veego
    1.1  veego /* standard driver stuff */
    1.1  veego struct cfattach grfet_ca = {
    1.1  veego 	sizeof(struct grf_softc), grfetmatch, grfetattach
    1.1  veego };
    1.1  veego
    1.1  veego struct cfdriver grfet_cd = {
    1.1  veego 	NULL, "grfet", DV_DULL, NULL, 0
    1.1  veego };
    1.1  veego
1.1.4.1     is static struct cfdata *cfdata;
    1.1  veego
    1.1  veego int
    1.1  veego grfetmatch(pdp, match, auxp)
    1.1  veego 	struct device *pdp;
    1.1  veego 	void *match, *auxp;
    1.1  veego {
    1.1  veego #ifdef TSENGCONSOLE
    1.1  veego 	struct cfdata *cfp = match;
    1.1  veego #endif
    1.1  veego 	struct zbus_args *zap;
    1.1  veego 	static int regprod, fbprod;
    1.1  veego
    1.1  veego 	zap = auxp;
    1.1  veego
    1.1  veego #ifndef TSENGCONSOLE
    1.1  veego 	if (amiga_realconfig == 0)
    1.1  veego 		return (0);
    1.1  veego #endif
    1.1  veego
    1.1  veego 	/* Grab the first board we encounter as the preferred one.  This will
    1.1  veego 	 * allow one board to work in a multiple Tseng board system, but not
    1.1  veego 	 * multiple boards at the same time.  */
    1.1  veego 	if (ettype == 0) {
    1.1  veego 		switch (zap->manid) {
    1.1  veego 		    case OMNIBUS:
    1.1  veego 			if (zap->prodid != 0)
    1.1  veego 				return (0);
    1.1  veego 			regprod = 0;
    1.1  veego 			fbprod = 0;
    1.1  veego 			break;
    1.1  veego 		    case DOMINO:
    1.1  veego 			if (zap->prodid != 2 && zap->prodid != 1)
    1.1  veego 				return (0);
    1.1  veego 			regprod = 2;
    1.1  veego 			fbprod = 1;
    1.1  veego 			break;
    1.1  veego 		    case MERLIN:
    1.1  veego 			if (zap->prodid != 3 && zap->prodid != 4)
    1.1  veego 				return (0);
    1.1  veego 			regprod = 4;
    1.1  veego 			fbprod = 3;
    1.1  veego 			break;
    1.1  veego 		    default:
    1.1  veego 			return (0);
    1.1  veego 		}
    1.1  veego 		ettype = zap->manid;
    1.1  veego 	} else {
    1.1  veego 		if (ettype != zap->manid) {
    1.1  veego 			return (0);
    1.1  veego 		}
    1.1  veego 	}
    1.1  veego
    1.1  veego 	/* Configure either registers or framebuffer in any order */
    1.1  veego 	/* as said before, oMniBus does not support ProdID */
    1.1  veego 	if (ettype == OMNIBUS) {
1.1.4.1     is 		if (zap->size == 64*1024) {
    1.1  veego 			/* register area */
1.1.4.1     is 			et_regaddr=zap->va;
    1.1  veego 		} else {
    1.1  veego 			/* memory area */
1.1.4.1     is 			et_fbaddr=zap->va;
1.1.4.1     is 			et_fbsize=zap->size;
    1.1  veego 		}
    1.1  veego 	} else {
    1.1  veego 		if (zap->prodid == regprod) {
    1.1  veego 			et_regaddr = zap->va;
    1.1  veego 		} else {
    1.1  veego 			if (zap->prodid == fbprod) {
    1.1  veego 				et_fbaddr = zap->va;
    1.1  veego 				et_fbsize = zap->size;
    1.1  veego 			} else {
    1.1  veego 				return (0);
    1.1  veego 			}
    1.1  veego 		}
    1.1  veego 	}
    1.1  veego
    1.1  veego #ifdef TSENGCONSOLE
    1.1  veego 	if (amiga_realconfig == 0) {
    1.1  veego 		cfdata = cfp;
    1.1  veego 	}
    1.1  veego #endif
    1.1  veego
    1.1  veego 	return (1);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego void
    1.1  veego grfetattach(pdp, dp, auxp)
    1.1  veego 	struct device *pdp, *dp;
    1.1  veego 	void   *auxp;
    1.1  veego {
    1.1  veego 	static struct grf_softc congrf;
    1.1  veego 	struct zbus_args *zap;
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	static char attachflag = 0;
    1.1  veego
    1.1  veego 	zap = auxp;
    1.1  veego
    1.1  veego 	printf("\n");
    1.1  veego
    1.1  veego 	/* make sure both halves have matched */
    1.1  veego 	if (!et_regaddr || !et_fbaddr)
    1.1  veego 		return;
    1.1  veego
    1.1  veego 	/* do all that messy console/grf stuff */
    1.1  veego 	if (dp == NULL)
    1.1  veego 		gp = &congrf;
    1.1  veego 	else
    1.1  veego 		gp = (struct grf_softc *) dp;
    1.1  veego
    1.1  veego 	if (dp != NULL && congrf.g_regkva != 0) {
    1.1  veego 		/*
    1.1  veego 		 * inited earlier, just copy (not device struct)
    1.1  veego 		 */
    1.1  veego 		bcopy(&congrf.g_display, &gp->g_display,
    1.1  veego 		    (char *) &gp[1] - (char *) &gp->g_display);
    1.1  veego 	} else {
    1.1  veego 		gp->g_regkva = (volatile caddr_t) et_regaddr;
    1.1  veego 		gp->g_fbkva = (volatile caddr_t) et_fbaddr;
    1.1  veego
    1.1  veego 		gp->g_unit = GRF_ET4000_UNIT;
    1.1  veego 		gp->g_mode = et_mode;
    1.1  veego 		gp->g_conpri = grfet_cnprobe();
    1.1  veego 		gp->g_flags = GF_ALIVE;
    1.1  veego
    1.1  veego 		/* wakeup the board */
    1.1  veego 		et_boardinit(gp);
    1.1  veego
    1.1  veego #ifdef TSENGCONSOLE
    1.1  veego 		grfet_iteinit(gp);
    1.1  veego 		(void) et_load_mon(gp, &etconsole_mode);
    1.1  veego #endif
    1.1  veego 	}
    1.1  veego
    1.1  veego 	/*
    1.1  veego 	 * attach grf (once)
    1.1  veego 	 */
    1.1  veego 	if (amiga_config_found(cfdata, &gp->g_device, gp, grfetprint)) {
    1.1  veego 		attachflag = 1;
    1.1  veego 		printf("grfet: %dMB ", et_fbsize / 0x100000);
    1.1  veego 		switch (ettype) {
    1.1  veego 		    case OMNIBUS:
    1.1  veego 			printf("oMniBus");
    1.1  veego 			break;
    1.1  veego 		    case DOMINO:
    1.1  veego 			printf("Domino");
    1.1  veego 			break;
    1.1  veego 		    case MERLIN:
    1.1  veego 			printf("Merlin");
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 		printf(" with ");
    1.1  veego 		switch (etctype) {
    1.1  veego 		    case ET4000:
    1.1  veego 			printf("Tseng ET4000");
    1.1  veego 			break;
    1.1  veego 		    case ETW32:
    1.1  veego 			printf("Tseng ETW32");
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 		printf(" and ");
    1.1  veego 		switch (etdtype) {
    1.1  veego 		    case SIERRA11483:
    1.1  veego 			printf("Sierra SC11483 DAC");
    1.1  veego 			break;
    1.1  veego 		    case SIERRA15025:
    1.1  veego 			printf("Sierra SC15025 DAC");
    1.1  veego 			break;
    1.1  veego 		    case MUSICDAC:
    1.1  veego 			printf("MUSIC DAC");
    1.1  veego 			break;
    1.1  veego 		    case MERLINDAC:
    1.1  veego 			printf("BrookTree DAC");
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 		printf(" being used\n");
    1.1  veego 	} else {
    1.1  veego 		if (!attachflag)
    1.1  veego 			printf("grfet unattached!!\n");
    1.1  veego 	}
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego grfetprint(auxp, pnp)
    1.1  veego 	void   *auxp;
    1.1  veego 	char   *pnp;
    1.1  veego {
    1.1  veego 	if (pnp)
    1.1  veego 		printf("ite at %s: ", pnp);
    1.1  veego 	return (UNCONF);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego void
    1.1  veego et_boardinit(gp)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego {
    1.1  veego 	unsigned char *ba = gp->g_regkva;
    1.1  veego 	int     x;
    1.1  veego
    1.1  veego 	/* wakeup board and flip passthru OFF */
    1.1  veego
    1.1  veego 	RegWakeup(ba);
    1.1  veego 	RegOnpass(ba);
    1.1  veego
    1.1  veego 	if (ettype == MERLIN) {
    1.1  veego 	  /* Merlin needs some special initialisations */
    1.1  veego 	  vgaw(ba, MERLIN_SWITCH_REG, 0);
    1.1  veego 	  delay(20000);
    1.1  veego 	  vgaw(ba, MERLIN_SWITCH_REG, 8);
    1.1  veego 	  delay(20000);
    1.1  veego 	  vgaw(ba, MERLIN_SWITCH_REG, 0);
    1.1  veego 	  delay(20000);
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_DATA, 1);
1.1.4.1     is
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_INDEX, 0x00);
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_SPRITE,  0xff);
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_INDEX, 0x01);
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_SPRITE,  0x0f);
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_INDEX, 0x02);
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_SPRITE,  0x42);
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_INDEX, 0x03);
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_SPRITE,  0x00);
    1.1  veego
    1.1  veego 	  vgaw(ba, MERLIN_VDAC_DATA, 0);
    1.1  veego 	}
    1.1  veego
1.1.4.1     is
    1.1  veego 	/* setup initial unchanging parameters */
    1.1  veego
    1.1  veego 	vgaw(ba, GREG_HERCULESCOMPAT, 0x03);
    1.1  veego 	vgaw(ba, GREG_DISPMODECONTROL, 0xa0);
    1.1  veego 	vgaw(ba, GREG_MISC_OUTPUT_W, 0x63);
    1.1  veego
    1.1  veego 	WSeq(ba, SEQ_ID_RESET, 0x03);
    1.1  veego 	WSeq(ba, SEQ_ID_CLOCKING_MODE, 0x21);	/* 8 dot, Display off */
    1.1  veego 	WSeq(ba, SEQ_ID_MAP_MASK, 0x0f);
    1.1  veego 	WSeq(ba, SEQ_ID_CHAR_MAP_SELECT, 0x00);
    1.1  veego 	WSeq(ba, SEQ_ID_MEMORY_MODE, 0x0e);
    1.1  veego /*	WSeq(ba, SEQ_ID_TS_STATE_CONTROL, 0x00);	*/
    1.1  veego 	WSeq(ba, SEQ_ID_AUXILIARY_MODE, 0xf4);
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_PRESET_ROW_SCAN, 0x00);
    1.1  veego 	WCrt(ba, CRT_ID_CURSOR_START, 0x00);
    1.1  veego 	WCrt(ba, CRT_ID_CURSOR_END, 0x08);
    1.1  veego 	WCrt(ba, CRT_ID_START_ADDR_HIGH, 0x00);
    1.1  veego 	WCrt(ba, CRT_ID_START_ADDR_LOW, 0x00);
    1.1  veego 	WCrt(ba, CRT_ID_CURSOR_LOC_HIGH, 0x00);
    1.1  veego 	WCrt(ba, CRT_ID_CURSOR_LOC_LOW, 0x00);
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_UNDERLINE_LOC, 0x07);
    1.1  veego 	WCrt(ba, CRT_ID_MODE_CONTROL, 0xa3);	/* c3 */
    1.1  veego 	WCrt(ba, CRT_ID_LINE_COMPARE, 0xff);	/* ff */
    1.1  veego /* ET4000 special */
    1.1  veego 	WCrt(ba, CRT_ID_RASCAS_CONFIG, 0x28);
    1.1  veego 	WCrt(ba, CTR_ID_EXT_START, 0x00);
    1.1  veego 	WCrt(ba, CRT_ID_6845_COMPAT, 0x08);
    1.1  veego 	WCrt(ba, CRT_ID_VIDEO_CONFIG1, 0xd3);
1.1.4.1     is 	WCrt(ba, CRT_ID_VIDEO_CONFIG2, 0x0f);	/* assume ZorroII first */
1.1.4.1     is
1.1.4.1     is 	if (iszthreepa(ba)) {
1.1.4.1     is 		if (((vgar(ba, GREG_FEATURE_CONTROL_R) & 12) |
1.1.4.1     is 		    (vgar(ba, GREG_STATUS0_R) & 0x60)) == 0x24 )
1.1.4.1     is 			WCrt(ba, CRT_ID_VIDEO_CONFIG2, 0x07);	/* ZorroIII */
1.1.4.1     is 	}
1.1.4.1     is
    1.1  veego 	WCrt(ba, CRT_ID_HOR_OVERFLOW, 0x00);
    1.1  veego
    1.1  veego 	WGfx(ba, GCT_ID_SET_RESET, 0x00);
    1.1  veego 	WGfx(ba, GCT_ID_ENABLE_SET_RESET, 0x00);
    1.1  veego 	WGfx(ba, GCT_ID_COLOR_COMPARE, 0x00);
    1.1  veego 	WGfx(ba, GCT_ID_DATA_ROTATE, 0x00);
    1.1  veego 	WGfx(ba, GCT_ID_READ_MAP_SELECT, 0x00);
    1.1  veego 	WGfx(ba, GCT_ID_GRAPHICS_MODE, 0x00);
    1.1  veego 	WGfx(ba, GCT_ID_MISC, 0x01);
    1.1  veego 	WGfx(ba, GCT_ID_COLOR_XCARE, 0x0f);
    1.1  veego 	WGfx(ba, GCT_ID_BITMASK, 0xff);
    1.1  veego
    1.1  veego 	vgaw(ba, GREG_SEGMENTSELECT, 0x00);
    1.1  veego
    1.1  veego 	for (x = 0; x < 0x10; x++)
    1.1  veego 		WAttr(ba, x, x);
    1.1  veego 	WAttr(ba, ACT_ID_ATTR_MODE_CNTL, 0x01);
    1.1  veego 	WAttr(ba, ACT_ID_OVERSCAN_COLOR, 0x00);
    1.1  veego 	WAttr(ba, ACT_ID_COLOR_PLANE_ENA, 0x0f);
    1.1  veego 	WAttr(ba, ACT_ID_HOR_PEL_PANNING, 0x00);
    1.1  veego 	WAttr(ba, ACT_ID_COLOR_SELECT, 0x00);
    1.1  veego 	WAttr(ba, ACT_ID_MISCELLANEOUS, 0x00);
    1.1  veego
    1.1  veego 	vgaw(ba, VDAC_MASK, 0xff);
    1.1  veego 	delay(200000);
    1.1  veego 	vgaw(ba, GREG_MISC_OUTPUT_W, 0xe3);	/* c3 */
    1.1  veego
    1.1  veego 	/* colors initially set to greyscale */
    1.1  veego
    1.1  veego 	switch(ettype) {
    1.1  veego 	    case MERLIN:
    1.1  veego 		vgaw(ba, MERLIN_VDAC_INDEX, 0);
    1.1  veego 		for (x = 255; x >= 0; x--) {
    1.1  veego 		    vgaw(ba, MERLIN_VDAC_COLORS, x);
    1.1  veego 		    vgaw(ba, MERLIN_VDAC_COLORS, x);
    1.1  veego 		    vgaw(ba, MERLIN_VDAC_COLORS, x);
    1.1  veego 		}
    1.1  veego 		break;
    1.1  veego 	    default:
    1.1  veego 		vgaw(ba, VDAC_ADDRESS_W, 0);
    1.1  veego 		for (x = 255; x >= 0; x--) {
    1.1  veego 		    vgaw(ba, VDAC_DATA, x);
    1.1  veego 		    vgaw(ba, VDAC_DATA, x);
    1.1  veego 		    vgaw(ba, VDAC_DATA, x);
    1.1  veego 		}
    1.1  veego 		break;
    1.1  veego 	}
    1.1  veego 	/* set sprite bitmap pointers */
    1.1  veego 	/* should work like that */
    1.1  veego 	et_cursprite.image = et_imageptr;
    1.1  veego 	et_cursprite.mask = et_maskptr;
    1.1  veego 	et_cursprite.cmap.red = et_sprred;
    1.1  veego 	et_cursprite.cmap.green = et_sprgreen;
    1.1  veego 	et_cursprite.cmap.blue = et_sprblue;
    1.1  veego
    1.1  veego 	/* card spezific initialisations */
    1.1  veego 	switch(ettype) {
    1.1  veego 	    case OMNIBUS:
1.1.4.1     is 		etctype=et_getControllerType(gp);
1.1.4.1     is 		etdtype=et_getDACType(gp);
    1.1  veego 		break;
    1.1  veego 	    case MERLIN:
1.1.4.1     is 		etctype=ETW32;
1.1.4.1     is 		etdtype=MERLINDAC;
    1.1  veego 	break;
    1.1  veego 	    case DOMINO:
1.1.4.1     is 		etctype=ET4000;
1.1.4.1     is 		etdtype=SIERRA11483;
    1.1  veego 		break;
    1.1  veego 	}
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_getvmode(gp, vm)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	struct grfvideo_mode *vm;
    1.1  veego {
    1.1  veego 	struct grfvideo_mode *gv;
    1.1  veego
    1.1  veego #ifdef TSENGCONSOLE
    1.1  veego 	/* Handle grabbing console mode */
    1.1  veego 	if (vm->mode_num == 255) {
    1.1  veego 		bcopy(&etconsole_mode, vm, sizeof(struct grfvideo_mode));
    1.1  veego 		/* XXX so grfconfig can tell us the correct text dimensions. */
    1.1  veego 		vm->depth = etconsole_mode.fy;
    1.1  veego 	} else
    1.1  veego #endif
    1.1  veego         {
    1.1  veego                 if (vm->mode_num == 0)
    1.1  veego                         vm->mode_num = (monitor_current - monitor_def) + 1;
    1.1  veego                 if (vm->mode_num < 1 || vm->mode_num > monitor_def_max)
    1.1  veego                         return (EINVAL);
    1.1  veego                 gv = monitor_def + (vm->mode_num - 1);
    1.1  veego                 if (gv->mode_num == 0)
    1.1  veego                         return (EINVAL);
    1.1  veego
    1.1  veego                 bcopy(gv, vm, sizeof(struct grfvideo_mode));
    1.1  veego         }
    1.1  veego
    1.1  veego         /* adjust internal values to pixel values */
    1.1  veego
    1.1  veego         vm->hblank_start *= 8;
    1.1  veego         vm->hblank_stop *= 8;
    1.1  veego         vm->hsync_start *= 8;
    1.1  veego         vm->hsync_stop *= 8;
    1.1  veego         vm->htotal *= 8;
    1.1  veego
    1.1  veego 	return (0);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_setvmode(gp, mode)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	unsigned mode;
    1.1  veego {
    1.1  veego 	if (!mode || (mode > monitor_def_max) ||
    1.1  veego 	    monitor_def[mode - 1].mode_num == 0)
    1.1  veego 		return (EINVAL);
    1.1  veego
    1.1  veego 	monitor_current = monitor_def + (mode - 1);
    1.1  veego
    1.1  veego 	return (0);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego #ifndef TSENGCONSOLE
    1.1  veego void
    1.1  veego et_off(gp)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego {
    1.1  veego 	char   *ba = gp->g_regkva;
    1.1  veego
    1.1  veego 	RegOnpass(ba);
    1.1  veego 	WSeq(ba, SEQ_ID_CLOCKING_MODE, 0x21);
    1.1  veego }
    1.1  veego #endif
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_blank(gp, on)
    1.1  veego         struct grf_softc *gp;
    1.1  veego         int *on;
    1.1  veego {
1.1.4.2     is         WSeq(gp->g_regkva, SEQ_ID_CLOCKING_MODE, *on ? 0x01 : 0x21);
    1.1  veego         return(0);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego /*
    1.1  veego  * Change the mode of the display.
    1.1  veego  * Return a UNIX error number or 0 for success.
    1.1  veego  */
    1.1  veego int
    1.1  veego et_mode(gp, cmd, arg, a2, a3)
    1.1  veego 	register struct grf_softc *gp;
    1.1  veego 	u_long cmd;
    1.1  veego 	void *arg;
    1.1  veego 	u_long a2;
    1.1  veego 	int a3;
    1.1  veego {
    1.1  veego 	int     error;
    1.1  veego
    1.1  veego 	switch (cmd) {
    1.1  veego 	    case GM_GRFON:
    1.1  veego 		error = et_load_mon(gp,
    1.1  veego 		    (struct grfettext_mode *) monitor_current) ? 0 : EINVAL;
    1.1  veego 		return (error);
    1.1  veego
    1.1  veego 	    case GM_GRFOFF:
    1.1  veego #ifndef TSENGCONSOLE
    1.1  veego 		et_off(gp);
    1.1  veego #else
    1.1  veego 		et_load_mon(gp, &etconsole_mode);
    1.1  veego #endif
    1.1  veego 		return (0);
    1.1  veego
    1.1  veego 	    case GM_GRFCONFIG:
    1.1  veego 		return (0);
    1.1  veego
    1.1  veego 	    case GM_GRFGETVMODE:
    1.1  veego 		return (et_getvmode(gp, (struct grfvideo_mode *) arg));
    1.1  veego
    1.1  veego 	    case GM_GRFSETVMODE:
    1.1  veego 		error = et_setvmode(gp, *(unsigned *) arg);
    1.1  veego 		if (!error && (gp->g_flags & GF_GRFON))
    1.1  veego 			et_load_mon(gp,
    1.1  veego 			    (struct grfettext_mode *) monitor_current);
    1.1  veego 		return (error);
    1.1  veego
    1.1  veego 	    case GM_GRFGETNUMVM:
    1.1  veego 		*(int *) arg = monitor_def_max;
    1.1  veego 		return (0);
    1.1  veego
    1.1  veego 	    case GM_GRFIOCTL:
    1.1  veego 		return (et_ioctl(gp, a2, arg));
    1.1  veego
    1.1  veego 	    default:
    1.1  veego 		break;
    1.1  veego 	}
    1.1  veego
    1.1  veego 	return (EINVAL);
    1.1  veego }
    1.1  veego
    1.1  veego int
    1.1  veego et_ioctl(gp, cmd, data)
    1.1  veego 	register struct grf_softc *gp;
    1.1  veego 	u_long cmd;
    1.1  veego 	void   *data;
    1.1  veego {
    1.1  veego 	switch (cmd) {
    1.1  veego 	    case GRFIOCGSPRITEPOS:
    1.1  veego 		return (et_getmousepos(gp, (struct grf_position *) data));
    1.1  veego
    1.1  veego 	    case GRFIOCSSPRITEPOS:
    1.1  veego 		return (et_setmousepos(gp, (struct grf_position *) data));
    1.1  veego
    1.1  veego 	    case GRFIOCSSPRITEINF:
    1.1  veego 		return (et_setspriteinfo(gp, (struct grf_spriteinfo *) data));
    1.1  veego
    1.1  veego 	    case GRFIOCGSPRITEINF:
    1.1  veego 		return (et_getspriteinfo(gp, (struct grf_spriteinfo *) data));
    1.1  veego
    1.1  veego 	    case GRFIOCGSPRITEMAX:
    1.1  veego 		return (et_getspritemax(gp, (struct grf_position *) data));
    1.1  veego
    1.1  veego 	    case GRFIOCGETCMAP:
    1.1  veego 		return (et_getcmap(gp, (struct grf_colormap *) data));
    1.1  veego
    1.1  veego 	    case GRFIOCPUTCMAP:
    1.1  veego 		return (et_putcmap(gp, (struct grf_colormap *) data));
    1.1  veego
    1.1  veego 	    case GRFIOCBITBLT:
    1.1  veego 		break;
    1.1  veego
    1.1  veego 	    case GRFTOGGLE:
    1.1  veego 		return (et_toggle(gp, 0));
    1.1  veego
    1.1  veego 	    case GRFIOCSETMON:
    1.1  veego 		return (et_setmonitor(gp, (struct grfvideo_mode *) data));
    1.1  veego
    1.1  veego             case GRFIOCBLANK:
    1.1  veego 		return (et_blank(gp, (int *)data));
    1.1  veego 	}
    1.1  veego 	return (EINVAL);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_getmousepos(gp, data)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	struct grf_position *data;
    1.1  veego {
    1.1  veego 	data->x = et_cursprite.pos.x;
    1.1  veego 	data->y = et_cursprite.pos.y;
    1.1  veego 	return (0);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego void
    1.1  veego et_writesprpos(ba, x, y)
    1.1  veego 	volatile char *ba;
    1.1  veego 	short   x;
    1.1  veego 	short   y;
    1.1  veego {
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_setmousepos(gp, data)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	struct grf_position *data;
    1.1  veego {
    1.1  veego 	volatile char *ba = gp->g_regkva;
    1.1  veego 	short rx, ry, prx, pry;
    1.1  veego
    1.1  veego 	/* no movement */
    1.1  veego 	if (et_cursprite.pos.x == data->x && et_cursprite.pos.y == data->y)
    1.1  veego 		return (0);
    1.1  veego
    1.1  veego         /* current and previous real coordinates */
    1.1  veego 	rx = data->x - et_cursprite.hot.x;
    1.1  veego 	ry = data->y - et_cursprite.hot.y;
    1.1  veego 	prx = et_cursprite.pos.x - et_cursprite.hot.x;
    1.1  veego 	pry = et_cursprite.pos.y - et_cursprite.hot.y;
    1.1  veego
    1.1  veego         /* if we are/were on an edge, create (un)shifted bitmap --
    1.1  veego          * ripped out optimization (not extremely worthwhile,
    1.1  veego          * and kind of buggy anyhow).
    1.1  veego          */
    1.1  veego
    1.1  veego         /* do movement, save position */
    1.1  veego         et_writesprpos(ba, rx < 0 ? 0 : rx, ry < 0 ? 0 : ry);
    1.1  veego 	et_cursprite.pos.x = data->x;
    1.1  veego 	et_cursprite.pos.y = data->y;
    1.1  veego
    1.1  veego 	return (0);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_getspriteinfo(gp, data)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	struct grf_spriteinfo *data;
    1.1  veego {
    1.1  veego
    1.1  veego 	return(EINVAL);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego static int
    1.1  veego et_setspriteinfo(gp, data)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	struct grf_spriteinfo *data;
    1.1  veego {
    1.1  veego
    1.1  veego 	return(EINVAL);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego static int
    1.1  veego et_getspritemax(gp, data)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	struct grf_position *data;
    1.1  veego {
    1.1  veego
    1.1  veego 	return(EINVAL);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_setmonitor(gp, gv)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	struct grfvideo_mode *gv;
    1.1  veego {
    1.1  veego 	struct grfvideo_mode *md;
    1.1  veego
    1.1  veego         if (!et_mondefok(gv))
    1.1  veego                 return(EINVAL);
    1.1  veego
    1.1  veego #ifdef TSENGCONSOLE
    1.1  veego 	/* handle interactive setting of console mode */
    1.1  veego 	if (gv->mode_num == 255) {
    1.1  veego 		bcopy(gv, &etconsole_mode.gv, sizeof(struct grfvideo_mode));
    1.1  veego                 etconsole_mode.gv.hblank_start /= 8;
    1.1  veego                 etconsole_mode.gv.hblank_stop /= 8;
    1.1  veego                 etconsole_mode.gv.hsync_start /= 8;
    1.1  veego                 etconsole_mode.gv.hsync_stop /= 8;
    1.1  veego                 etconsole_mode.gv.htotal /= 8;
    1.1  veego 		etconsole_mode.rows = gv->disp_height / etconsole_mode.fy;
    1.1  veego 		etconsole_mode.cols = gv->disp_width / etconsole_mode.fx;
    1.1  veego 		if (!(gp->g_flags & GF_GRFON))
    1.1  veego 			et_load_mon(gp, &etconsole_mode);
    1.1  veego 		ite_reinit(gp->g_itedev);
    1.1  veego 		return (0);
    1.1  veego 	}
    1.1  veego #endif
    1.1  veego
    1.1  veego 	md = monitor_def + (gv->mode_num - 1);
    1.1  veego 	bcopy(gv, md, sizeof(struct grfvideo_mode));
    1.1  veego
    1.1  veego         /* adjust pixel oriented values to internal rep. */
    1.1  veego
    1.1  veego         md->hblank_start /= 8;
    1.1  veego         md->hblank_stop /= 8;
    1.1  veego         md->hsync_start /= 8;
    1.1  veego         md->hsync_stop /= 8;
    1.1  veego         md->htotal /= 8;
    1.1  veego
    1.1  veego 	return (0);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_getcmap(gfp, cmap)
    1.1  veego 	struct grf_softc *gfp;
    1.1  veego 	struct grf_colormap *cmap;
    1.1  veego {
    1.1  veego 	volatile unsigned char *ba;
    1.1  veego 	u_char  red[256], green[256], blue[256], *rp, *gp, *bp;
    1.1  veego 	short   x;
    1.1  veego 	int     error;
    1.1  veego
    1.1  veego 	if (cmap->count == 0 || cmap->index >= 256)
    1.1  veego 		return 0;
    1.1  veego
    1.1  veego 	if (cmap->index + cmap->count > 256)
    1.1  veego 		cmap->count = 256 - cmap->index;
    1.1  veego
    1.1  veego 	ba = gfp->g_regkva;
    1.1  veego 	/* first read colors out of the chip, then copyout to userspace */
    1.1  veego 	x = cmap->count - 1;
    1.1  veego
    1.1  veego 	rp = red + cmap->index;
    1.1  veego 	gp = green + cmap->index;
    1.1  veego 	bp = blue + cmap->index;
    1.1  veego
    1.1  veego 	switch(ettype) {
    1.1  veego 	    case MERLIN:
    1.1  veego 		vgaw(ba, MERLIN_VDAC_INDEX, cmap->index);
    1.1  veego 		do {
    1.1  veego 			*rp++ = vgar(ba, MERLIN_VDAC_COLORS);
    1.1  veego 			*gp++ = vgar(ba, MERLIN_VDAC_COLORS);
    1.1  veego 			*bp++ = vgar(ba, MERLIN_VDAC_COLORS);
    1.1  veego 		} while (x-- > 0);
    1.1  veego 		break;
    1.1  veego 	    default:
    1.1  veego 		vgaw(ba, VDAC_ADDRESS_W, cmap->index);
    1.1  veego 		do {
    1.1  veego 			*rp++ = vgar(ba, VDAC_DATA) << etcmap_shift;
    1.1  veego 			*gp++ = vgar(ba, VDAC_DATA) << etcmap_shift;
    1.1  veego 			*bp++ = vgar(ba, VDAC_DATA) << etcmap_shift;
    1.1  veego 		} while (x-- > 0);
    1.1  veego 		break;
    1.1  veego 	}
    1.1  veego
1.1.4.1     is 	error = copyout(red + cmap->index, cmap->red, cmap->count);
1.1.4.1     is 	if (!error)
1.1.4.1     is 		error = copyout(green + cmap->index, cmap->green, cmap->count);
1.1.4.1     is 	if (!error)
1.1.4.1     is 		error = copyout(blue + cmap->index, cmap->blue, cmap->count);
    1.1  veego
    1.1  veego 	return (error);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_putcmap(gfp, cmap)
    1.1  veego 	struct grf_softc *gfp;
    1.1  veego 	struct grf_colormap *cmap;
    1.1  veego {
    1.1  veego 	volatile unsigned char *ba;
    1.1  veego 	u_char  red[256], green[256], blue[256], *rp, *gp, *bp;
    1.1  veego 	short   x;
    1.1  veego 	int     error;
    1.1  veego
    1.1  veego 	if (cmap->count == 0 || cmap->index >= 256)
    1.1  veego 		return (0);
    1.1  veego
    1.1  veego 	if (cmap->index + cmap->count > 256)
    1.1  veego 		cmap->count = 256 - cmap->index;
    1.1  veego
    1.1  veego 	/* first copy the colors into kernelspace */
1.1.4.1     is 	if ((error = copyin(cmap->red, red + cmap->index, cmap->count)))
1.1.4.1     is 		return (error);
    1.1  veego
1.1.4.1     is 	if ((error = copyin(cmap->green, green + cmap->index, cmap->count)))
1.1.4.1     is 		return (error);
1.1.4.1     is
1.1.4.1     is 	if ((error = copyin(cmap->blue, blue + cmap->index, cmap->count)))
    1.1  veego 		return (error);
1.1.4.1     is
1.1.4.1     is 	ba = gfp->g_regkva;
1.1.4.1     is 	x = cmap->count - 1;
1.1.4.1     is
1.1.4.1     is 	rp = red + cmap->index;
1.1.4.1     is 	gp = green + cmap->index;
1.1.4.1     is 	bp = blue + cmap->index;
1.1.4.1     is
1.1.4.1     is 	switch(ettype){
1.1.4.1     is 	case MERLIN:
1.1.4.1     is 		vgaw(ba, MERLIN_VDAC_INDEX, cmap->index);
1.1.4.1     is 		do {
1.1.4.1     is 			vgaw(ba, MERLIN_VDAC_COLORS, *rp++);
1.1.4.1     is 			vgaw(ba, MERLIN_VDAC_COLORS, *gp++);
1.1.4.1     is 			vgaw(ba, MERLIN_VDAC_COLORS, *bp++);
1.1.4.1     is 		} while (x-- > 0);
1.1.4.1     is 		break;
1.1.4.1     is 	default:
1.1.4.1     is 		vgaw(ba, VDAC_ADDRESS_W, cmap->index);
1.1.4.1     is 		do {
1.1.4.1     is 			vgaw(ba, VDAC_DATA, *rp++ >> etcmap_shift);
1.1.4.1     is 			vgaw(ba, VDAC_DATA, *gp++ >> etcmap_shift);
1.1.4.1     is 			vgaw(ba, VDAC_DATA, *bp++ >> etcmap_shift);
1.1.4.1     is 		} while (x-- > 0);
1.1.4.1     is 		break;
1.1.4.1     is 	}
1.1.4.1     is
1.1.4.1     is 	return (0);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_toggle(gp, wopp)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	unsigned short wopp;	/* don't need that one yet, ill */
    1.1  veego {
    1.1  veego 	volatile unsigned char *ba;
    1.1  veego
    1.1  veego 	ba = gp->g_regkva;
    1.1  veego
    1.1  veego 	if (pass_toggle) {
    1.1  veego 		RegOffpass(ba);
    1.1  veego 	} else {
    1.1  veego 		RegOnpass(ba);
    1.1  veego 	}
    1.1  veego 	return (0);
    1.1  veego }
    1.1  veego
    1.1  veego #define ET_NUMCLOCKS 32
    1.1  veego
    1.1  veego static u_char et_clocks[ET_NUMCLOCKS] = {
    1.1  veego 	0, 1, 6, 2, 3, 7, 4, 5,
    1.1  veego 	0, 1, 6, 2, 3, 7, 4, 5,
    1.1  veego 	0, 1, 6, 2, 3, 7, 4, 5,
    1.1  veego 	0, 1, 6, 2, 3, 7, 4, 5
    1.1  veego };
    1.1  veego
    1.1  veego static u_char et_clockdividers[ET_NUMCLOCKS] = {
    1.1  veego 	3, 3, 3, 3, 3, 3, 3, 3,
    1.1  veego 	2, 2, 2, 2, 2, 2, 2, 2,
    1.1  veego 	1, 1, 1, 1, 1, 1, 1, 1,
    1.1  veego 	0, 0, 0, 0, 0, 0, 0, 0
    1.1  veego };
    1.1  veego
    1.1  veego static u_int et_clockfreqs[ET_NUMCLOCKS] = {
    1.1  veego 	  6293750,  7080500,  7875000,  8125000,
    1.1  veego 	  9000000,  9375000, 10000000, 11225000,
    1.1  veego 	 12587500, 14161000, 15750000, 16250000,
    1.1  veego 	 18000000, 18750000, 20000000, 22450000,
    1.1  veego 	 25175000, 28322000, 31500000, 32500000,
    1.1  veego 	 36000000, 37500000, 40000000, 44900000,
    1.1  veego 	 50350000, 56644000, 63000000, 65000000,
    1.1  veego 	 72000000, 75000000, 80000000, 89800000
    1.1  veego };
    1.1  veego
    1.1  veego
    1.1  veego static void
    1.1  veego et_CompFQ(fq, num, denom)
    1.1  veego 	u_int   fq;
    1.1  veego 	u_char *num;
    1.1  veego 	u_char *denom;
    1.1  veego {
    1.1  veego 	int i;
    1.1  veego
    1.1  veego 	for (i=0; i < ET_NUMCLOCKS;) {
    1.1  veego 		if (fq <= et_clockfreqs[i++]) {
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 	}
    1.1  veego
    1.1  veego 	*num = et_clocks[--i];
    1.1  veego 	*denom = et_clockdividers[i];
    1.1  veego
    1.1  veego 	return;
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_mondefok(gv)
    1.1  veego 	struct grfvideo_mode *gv;
    1.1  veego {
    1.1  veego
    1.1  veego 	if (gv->mode_num < 1 || gv->mode_num > monitor_def_max)
    1.1  veego                 if (gv->mode_num != 255 || gv->depth != 4)
    1.1  veego                         return(0);
    1.1  veego
    1.1  veego 	switch (gv->depth) {
    1.1  veego 	    case 4:
    1.1  veego                 if (gv->mode_num != 255)
    1.1  veego                         return(0);
    1.1  veego 	    case 1:
    1.1  veego 	    case 8:
    1.1  veego 	    case 15:
    1.1  veego 	    case 16:
    1.1  veego 	    case 24:
    1.1  veego                 break;
    1.1  veego 	    default:
    1.1  veego 		return (0);
    1.1  veego 	}
    1.1  veego         return (1);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego int
    1.1  veego et_load_mon(gp, md)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego 	struct grfettext_mode *md;
    1.1  veego {
    1.1  veego 	struct grfvideo_mode *gv;
    1.1  veego 	struct grfinfo *gi;
    1.1  veego 	volatile unsigned char *ba;
    1.1  veego 	unsigned char num0, denom0;
    1.1  veego 	unsigned short HT, HDE, HBS, HBE, HSS, HSE, VDE, VBS, VBE, VSS,
    1.1  veego 	        VSE, VT;
    1.1  veego 	char    LACE, DBLSCAN, TEXT;
    1.1  veego 	unsigned char seq;
    1.1  veego 	int     uplim, lowlim;
    1.1  veego
    1.1  veego 	/* identity */
    1.1  veego 	gv = &md->gv;
    1.1  veego 	TEXT = (gv->depth == 4);
    1.1  veego
    1.1  veego 	if (!et_mondefok(gv)) {
    1.1  veego 		printf("mondef not ok\n");
    1.1  veego 		return (0);
    1.1  veego 	}
    1.1  veego 	ba = gp->g_regkva;
    1.1  veego
    1.1  veego 	/* provide all needed information in grf device-independant locations */
    1.1  veego 	gp->g_data = (caddr_t) gv;
    1.1  veego 	gi = &gp->g_display;
    1.1  veego 	gi->gd_regaddr = (caddr_t) ztwopa(ba);
    1.1  veego 	gi->gd_regsize = 64 * 1024;
    1.1  veego 	gi->gd_fbaddr = (caddr_t) kvtop(gp->g_fbkva);
    1.1  veego 	gi->gd_fbsize = et_fbsize;
    1.1  veego 	gi->gd_colors = 1 << gv->depth;
    1.1  veego 	gi->gd_planes = gv->depth;
    1.1  veego 	gi->gd_fbwidth = gv->disp_width;
    1.1  veego 	gi->gd_fbheight = gv->disp_height;
    1.1  veego 	gi->gd_fbx = 0;
    1.1  veego 	gi->gd_fby = 0;
    1.1  veego 	if (TEXT) {
    1.1  veego 		gi->gd_dwidth = md->fx * md->cols;
    1.1  veego 		gi->gd_dheight = md->fy * md->rows;
    1.1  veego 	} else {
    1.1  veego 		gi->gd_dwidth = gv->disp_width;
    1.1  veego 		gi->gd_dheight = gv->disp_height;
    1.1  veego 	}
    1.1  veego 	gi->gd_dx = 0;
    1.1  veego 	gi->gd_dy = 0;
    1.1  veego
    1.1  veego 	/* get display mode parameters */
    1.1  veego
    1.1  veego 	HBS = gv->hblank_start;
    1.1  veego 	HBE = gv->hblank_stop;
    1.1  veego 	HSS = gv->hsync_start;
    1.1  veego 	HSE = gv->hsync_stop;
    1.1  veego 	HT  = gv->htotal;
    1.1  veego 	VBS = gv->vblank_start;
    1.1  veego 	VSS = gv->vsync_start;
    1.1  veego 	VSE = gv->vsync_stop;
    1.1  veego 	VBE = gv->vblank_stop;
    1.1  veego 	VT  = gv->vtotal;
    1.1  veego
    1.1  veego 	if (TEXT)
    1.1  veego 		HDE = ((gv->disp_width + md->fx - 1) / md->fx) - 1;
    1.1  veego 	else
    1.1  veego 		HDE = (gv->disp_width + 3) / 8 - 1;	/* HBS; */
    1.1  veego 	VDE = gv->disp_height - 1;
    1.1  veego
    1.1  veego 	/* figure out whether lace or dblscan is needed */
    1.1  veego
    1.1  veego 	uplim = gv->disp_height + (gv->disp_height / 4);
    1.1  veego 	lowlim = gv->disp_height - (gv->disp_height / 4);
    1.1  veego 	LACE = (((VT * 2) > lowlim) && ((VT * 2) < uplim)) ? 1 : 0;
    1.1  veego 	DBLSCAN = (((VT / 2) > lowlim) && ((VT / 2) < uplim)) ? 1 : 0;
    1.1  veego
    1.1  veego 	/* adjustments */
    1.1  veego
    1.1  veego 	if (LACE)
    1.1  veego 		VDE /= 2;
    1.1  veego
    1.1  veego 	WSeq(ba, SEQ_ID_MEMORY_MODE, (TEXT || (gv->depth == 1)) ? 0x06 : 0x0e);
    1.1  veego
    1.1  veego 	WGfx(ba, GCT_ID_READ_MAP_SELECT, 0x00);
    1.1  veego 	WSeq(ba, SEQ_ID_MAP_MASK, (gv->depth == 1) ? 0x01 : 0xff);
    1.1  veego 	WSeq(ba, SEQ_ID_CHAR_MAP_SELECT, 0x00);
    1.1  veego
    1.1  veego 	/* Set clock */
    1.1  veego
    1.1  veego 	et_CompFQ( gv->pixel_clock, &num0, &denom0);
    1.1  veego
    1.1  veego 	vgaw(ba, GREG_MISC_OUTPUT_W, 0xe3 | ((num0 & 3) << 2));
    1.1  veego 	WCrt(ba, CRT_ID_6845_COMPAT, (num0 & 4) ? 0x0a : 0x08);
    1.1  veego 	seq=RSeq(ba, SEQ_ID_CLOCKING_MODE);
    1.1  veego 	switch(denom0) {
    1.1  veego 	    case 0:
    1.1  veego 		WSeq(ba, SEQ_ID_AUXILIARY_MODE, 0xb4);
    1.1  veego 		WSeq(ba, SEQ_ID_CLOCKING_MODE, seq & 0xf7);
    1.1  veego  		break;
    1.1  veego 	    case 1:
    1.1  veego 		WSeq(ba, SEQ_ID_AUXILIARY_MODE, 0xf4);
    1.1  veego 		WSeq(ba, SEQ_ID_CLOCKING_MODE, seq & 0xf7);
    1.1  veego 		break;
    1.1  veego 	    case 2:
    1.1  veego 		WSeq(ba, SEQ_ID_AUXILIARY_MODE, 0xf5);
    1.1  veego 		WSeq(ba, SEQ_ID_CLOCKING_MODE, seq & 0xf7);
    1.1  veego 		break;
    1.1  veego 	    case 3:
    1.1  veego 		WSeq(ba, SEQ_ID_AUXILIARY_MODE, 0xf5);
    1.1  veego 		WSeq(ba, SEQ_ID_CLOCKING_MODE, seq | 0x08);
    1.1  veego 		break;
    1.1  veego 	}
    1.1  veego 	/* load display parameters into board */
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_HOR_TOTAL, HT);
    1.1  veego 	WCrt(ba, CRT_ID_HOR_DISP_ENA_END, ((HDE >= HBS) ? HBS - 1 : HDE));
    1.1  veego 	WCrt(ba, CRT_ID_START_HOR_BLANK, HBS);
    1.1  veego 	WCrt(ba, CRT_ID_END_HOR_BLANK, (HBE & 0x1f) | 0x80);	/* | 0x80? */
    1.1  veego 	WCrt(ba, CRT_ID_START_HOR_RETR, HSS);
    1.1  veego 	WCrt(ba, CRT_ID_END_HOR_RETR,
    1.1  veego 	    (HSE & 0x1f) |
    1.1  veego 	    ((HBE & 0x20) ? 0x80 : 0x00));
    1.1  veego 	WCrt(ba, CRT_ID_VER_TOTAL, VT);
    1.1  veego 	WCrt(ba, CRT_ID_OVERFLOW,
    1.1  veego 	    0x10 |
    1.1  veego 	    ((VT  & 0x100) ? 0x01 : 0x00) |
    1.1  veego 	    ((VDE & 0x100) ? 0x02 : 0x00) |
    1.1  veego 	    ((VSS & 0x100) ? 0x04 : 0x00) |
    1.1  veego 	    ((VBS & 0x100) ? 0x08 : 0x00) |
    1.1  veego 	    ((VT  & 0x200) ? 0x20 : 0x00) |
    1.1  veego 	    ((VDE & 0x200) ? 0x40 : 0x00) |
    1.1  veego 	    ((VSS & 0x200) ? 0x80 : 0x00));
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_MAX_ROW_ADDRESS,
    1.1  veego 	    0x40 |		/* TEXT ? 0x00 ??? */
    1.1  veego 	    (DBLSCAN ? 0x80 : 0x00) |
    1.1  veego 	    ((VBS & 0x200) ? 0x20 : 0x00) |
    1.1  veego 	    (TEXT ? ((md->fy - 1) & 0x1f) : 0x00));
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_MODE_CONTROL,
    1.1  veego 	    ((TEXT || (gv->depth == 1)) ? 0xc3 : 0xab));
    1.1  veego
    1.1  veego 	/* text cursor */
    1.1  veego
    1.1  veego 	if (TEXT) {
    1.1  veego #if ET_ULCURSOR
    1.1  veego 		WCrt(ba, CRT_ID_CURSOR_START, (md->fy & 0x1f) - 2);
    1.1  veego 		WCrt(ba, CRT_ID_CURSOR_END, (md->fy & 0x1f) - 1);
    1.1  veego #else
    1.1  veego 		WCrt(ba, CRT_ID_CURSOR_START, 0x00);
    1.1  veego 		WCrt(ba, CRT_ID_CURSOR_END, md->fy & 0x1f);
    1.1  veego #endif
    1.1  veego 		WCrt(ba, CRT_ID_CURSOR_LOC_HIGH, 0x00);
    1.1  veego 		WCrt(ba, CRT_ID_CURSOR_LOC_LOW, 0x00);
    1.1  veego 	}
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_UNDERLINE_LOC, ((md->fy - 1) & 0x1f)
    1.1  veego 		| ((TEXT || (gv->depth == 1)) ? 0x00 : 0x60));
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_START_ADDR_HIGH, 0x00);
    1.1  veego 	WCrt(ba, CRT_ID_START_ADDR_LOW, 0x00);
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_START_VER_RETR, VSS);
    1.1  veego 	WCrt(ba, CRT_ID_END_VER_RETR, (VSE & 0x0f) | 0x30);
    1.1  veego 	WCrt(ba, CRT_ID_VER_DISP_ENA_END, VDE);
    1.1  veego 	WCrt(ba, CRT_ID_START_VER_BLANK, VBS);
    1.1  veego 	WCrt(ba, CRT_ID_END_VER_BLANK, VBE);
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_LINE_COMPARE, 0xff);
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_OVERFLOW_HIGH,
    1.1  veego 		((VBS & 0x400) ? 0x01 : 0x00) |
    1.1  veego 		((VT  & 0x400) ? 0x02 : 0x00) |
    1.1  veego 		((VDE & 0x400) ? 0x04 : 0x00) |
    1.1  veego 		((VSS & 0x400) ? 0x08 : 0x00) |
    1.1  veego 		0x10 |
    1.1  veego 		(LACE ? 0x80 : 0x00));
    1.1  veego
    1.1  veego         WCrt(ba, CRT_ID_HOR_OVERFLOW,
    1.1  veego                 ((HT  & 0x100) ? 0x01 : 0x00) |
    1.1  veego                 ((HBS & 0x100) ? 0x04 : 0x00) |
    1.1  veego                 ((HSS & 0x100) ? 0x10 : 0x00)
    1.1  veego         );
    1.1  veego
    1.1  veego 	/* depth dependent stuff */
    1.1  veego
    1.1  veego 	WGfx(ba, GCT_ID_GRAPHICS_MODE,
    1.1  veego 	    ((TEXT || (gv->depth == 1)) ? 0x00 : 0x40));
    1.1  veego 	WGfx(ba, GCT_ID_MISC, (TEXT ? 0x04 : 0x01));
    1.1  veego
    1.1  veego 	vgaw(ba, VDAC_MASK, 0xff);
    1.1  veego 	vgar(ba, VDAC_MASK);
    1.1  veego 	vgar(ba, VDAC_MASK);
    1.1  veego 	vgar(ba, VDAC_MASK);
    1.1  veego 	vgar(ba, VDAC_MASK);
    1.1  veego 	switch (gv->depth) {
    1.1  veego 	    case 1:
    1.1  veego 	    case 4:	/* text */
    1.1  veego 		switch(etdtype) {
    1.1  veego 		    case SIERRA11483:
    1.1  veego 		    case SIERRA15025:
    1.1  veego 		    case MUSICDAC:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0);
    1.1  veego 			break;
    1.1  veego 		    case MERLINDAC:
    1.1  veego 			setMerlinDACmode(ba, 0);
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 		HDE = gv->disp_width / 16;
    1.1  veego 		break;
    1.1  veego 	    case 8:
    1.1  veego 		switch(etdtype) {
    1.1  veego 		    case SIERRA11483:
    1.1  veego 		    case SIERRA15025:
    1.1  veego 		    case MUSICDAC:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0);
    1.1  veego 			break;
    1.1  veego 		    case MERLINDAC:
    1.1  veego 			setMerlinDACmode(ba, 0);
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 		HDE = gv->disp_width / 8;
    1.1  veego 		break;
    1.1  veego 	    case 15:
    1.1  veego 		switch(etdtype) {
    1.1  veego 		    case SIERRA11483:
    1.1  veego 		    case SIERRA15025:
    1.1  veego 		    case MUSICDAC:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0xa0);
    1.1  veego 			break;
    1.1  veego 		    case MERLINDAC:
    1.1  veego 			setMerlinDACmode(ba, 0xa0);
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 		HDE = gv->disp_width / 4;
    1.1  veego 		break;
    1.1  veego 	    case 16:
    1.1  veego 		switch(etdtype) {
    1.1  veego 		    case SIERRA11483:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0);	/* illegal mode! */
    1.1  veego 			break;
    1.1  veego 		    case SIERRA15025:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0xe0);
    1.1  veego 			break;
    1.1  veego 		    case MUSICDAC:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0xc0);
    1.1  veego 			break;
    1.1  veego 		    case MERLINDAC:
    1.1  veego 			setMerlinDACmode(ba, 0xe0);
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 		HDE = gv->disp_width / 4;
    1.1  veego 		break;
    1.1  veego 	    case 24:
    1.1  veego 		switch(etdtype) {
    1.1  veego 		    case SIERRA11483:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0);	/* illegal mode! */
    1.1  veego 			break;
    1.1  veego 		    case SIERRA15025:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0xe1);
    1.1  veego 			break;
    1.1  veego 		    case MUSICDAC:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0xe0);
    1.1  veego 			break;
    1.1  veego 		    case MERLINDAC:
    1.1  veego 			setMerlinDACmode(ba, 0xf0);
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 		HDE = (gv->disp_width / 8) * 3;
    1.1  veego 		break;
    1.1  veego 	    case 32:
    1.1  veego 		switch(etdtype) {
    1.1  veego 		    case SIERRA11483:
    1.1  veego 		    case MUSICDAC:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0);	/* illegal mode! */
    1.1  veego 			break;
    1.1  veego 		    case SIERRA15025:
    1.1  veego 			vgaw(ba, VDAC_MASK, 0x61);
    1.1  veego 			break;
    1.1  veego 		    case MERLINDAC:
    1.1  veego 			setMerlinDACmode(ba, 0xb0);
    1.1  veego 			break;
    1.1  veego 		}
    1.1  veego 		HDE = gv->disp_width / 2;
    1.1  veego 		break;
    1.1  veego 	}
    1.1  veego 	WAttr(ba, ACT_ID_ATTR_MODE_CNTL, (TEXT ? 0x0a : 0x01));
    1.1  veego 	WAttr(ba, 0x20 | ACT_ID_COLOR_PLANE_ENA,
    1.1  veego 	    (gv->depth == 1) ? 0x01 : 0x0f);
    1.1  veego
    1.1  veego 	WCrt(ba, CRT_ID_OFFSET, HDE);
    1.1  veego
    1.1  veego 	/* text initialization */
    1.1  veego 	if (TEXT) {
    1.1  veego 		et_inittextmode(gp);
    1.1  veego 	}
    1.1  veego
    1.1  veego 	WSeq(ba, SEQ_ID_CLOCKING_MODE, 0x01);
    1.1  veego
    1.1  veego 	/* Pass-through */
    1.1  veego 	RegOffpass(ba);
    1.1  veego
    1.1  veego 	return (1);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego void
    1.1  veego et_inittextmode(gp)
    1.1  veego 	struct grf_softc *gp;
    1.1  veego {
    1.1  veego 	struct grfettext_mode *tm = (struct grfettext_mode *) gp->g_data;
    1.1  veego 	volatile unsigned char *ba = gp->g_regkva;
    1.1  veego 	unsigned char *fb = gp->g_fbkva;
    1.1  veego 	unsigned char *c, *f, y;
    1.1  veego 	unsigned short z;
    1.1  veego
    1.1  veego
1.1.4.1     is 	/*
1.1.4.1     is 	 * load text font into beginning of display memory. Each character
1.1.4.1     is 	 * cell is 32 bytes long (enough for 4 planes)
1.1.4.1     is 	 */
    1.1  veego
    1.1  veego 	SetTextPlane(ba, 0x02);
    1.1  veego         et_memset(fb, 0, 256 * 32);
    1.1  veego 	c = (unsigned char *) (fb) + (32 * tm->fdstart);
    1.1  veego 	f = tm->fdata;
    1.1  veego 	for (z = tm->fdstart; z <= tm->fdend; z++, c += (32 - tm->fy))
    1.1  veego 		for (y = 0; y < tm->fy; y++)
    1.1  veego 			*c++ = *f++;
    1.1  veego
    1.1  veego 	/* clear out text/attr planes (three screens worth) */
    1.1  veego
    1.1  veego 	SetTextPlane(ba, 0x01);
    1.1  veego 	et_memset(fb, 0x07, tm->cols * tm->rows * 3);
    1.1  veego 	SetTextPlane(ba, 0x00);
    1.1  veego 	et_memset(fb, 0x20, tm->cols * tm->rows * 3);
    1.1  veego
    1.1  veego 	/* print out a little init msg */
    1.1  veego
    1.1  veego 	c = (unsigned char *) (fb) + (tm->cols - 16);
    1.1  veego 	strcpy(c, "TSENG");
    1.1  veego 	c[6] = 0x20;
    1.1  veego
    1.1  veego 	/* set colors (B&W) */
    1.1  veego
    1.1  veego 	switch(ettype) {
    1.1  veego 	    case MERLIN:
    1.1  veego 		vgaw(ba, MERLIN_VDAC_INDEX, 0);
    1.1  veego 		for (z = 0; z < 256; z++) {
    1.1  veego 			y = (z & 1) ? ((z > 7) ? 2 : 1) : 0;
    1.1  veego
    1.1  veego 			vgaw(ba, MERLIN_VDAC_COLORS, etconscolors[y][0]);
    1.1  veego 			vgaw(ba, MERLIN_VDAC_COLORS, etconscolors[y][1]);
    1.1  veego 			vgaw(ba, MERLIN_VDAC_COLORS, etconscolors[y][2]);
    1.1  veego 		}
    1.1  veego 		break;
    1.1  veego 	    default:
    1.1  veego 		vgaw(ba, VDAC_ADDRESS_W, 0);
    1.1  veego 		for (z = 0; z < 256; z++) {
    1.1  veego 			y = (z & 1) ? ((z > 7) ? 2 : 1) : 0;
    1.1  veego
    1.1  veego 			vgaw(ba, VDAC_DATA, etconscolors[y][0] >> etcmap_shift);
    1.1  veego 			vgaw(ba, VDAC_DATA, etconscolors[y][1] >> etcmap_shift);
    1.1  veego 			vgaw(ba, VDAC_DATA, etconscolors[y][2] >> etcmap_shift);
    1.1  veego 		}
    1.1  veego 		break;
    1.1  veego 	}
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego void
    1.1  veego et_memset(d, c, l)
    1.1  veego 	unsigned char *d;
    1.1  veego 	unsigned char c;
    1.1  veego 	int     l;
    1.1  veego {
    1.1  veego 	for (; l > 0; l--)
    1.1  veego 		*d++ = c;
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego static int
    1.1  veego et_getControllerType(gp)
    1.1  veego 	struct grf_softc * gp;
    1.1  veego {
    1.1  veego 	unsigned char *ba = gp->g_regkva; /* register base */
    1.1  veego 	unsigned char *mem = gp->g_fbkva; /* memory base */
    1.1  veego 	unsigned char *mmu = mem + MMU_APERTURE0; /* MMU aperture 0 base */
    1.1  veego
    1.1  veego 	*mem = 0;
    1.1  veego
    1.1  veego 	/* make ACL visible */
    1.1  veego 	WCrt(ba, CRT_ID_VIDEO_CONFIG1, 0xfb);
    1.1  veego 	WIma(ba, IMA_PORTCONTROL, 0x01);
    1.1  veego
    1.1  veego 	*((unsigned long *)mmu) = 0;
    1.1  veego 	*(mem + 0x13) = 0x38;
    1.1  veego
    1.1  veego 	*mmu = 0xff;
    1.1  veego
    1.1  veego 	/* hide ACL */
    1.1  veego 	WIma(ba, IMA_PORTCONTROL, 0x00);
    1.1  veego 	WCrt(ba, CRT_ID_VIDEO_CONFIG1, 0xd3);
    1.1  veego
    1.1  veego 	return((*mem == 0xff) ? ETW32 : ET4000);
    1.1  veego }
    1.1  veego
    1.1  veego
    1.1  veego static int
    1.1  veego et_getDACType(gp)
    1.1  veego 	struct grf_softc * gp;
    1.1  veego {
    1.1  veego 	unsigned char *ba = gp->g_regkva;
    1.1  veego 	union {
    1.1  veego 		int  tt;
    1.1  veego 		char cc[4];
    1.1  veego 	} check;
    1.1  veego
    1.1  veego 	/* check for Sierra SC 15025 */
    1.1  veego
    1.1  veego   if(vgar(ba, HDR)); if(vgar(ba, HDR)); if(vgar(ba, HDR)); if(vgar(ba, HDR));
    1.1  veego   vgaw(ba, VDAC_COMMAND, 0x10); /* set ERPF */
    1.1  veego
    1.1  veego   vgaw(ba, VDAC_XINDEX, 9);
    1.1  veego   check.cc[0]=vgar(ba, VDAC_XDATA);
    1.1  veego   vgaw(ba, VDAC_XINDEX, 10);
    1.1  veego   check.cc[1]=vgar(ba, VDAC_XDATA);
    1.1  veego   vgaw(ba, VDAC_XINDEX, 11);
    1.1  veego   check.cc[2]=vgar(ba, VDAC_XDATA);
    1.1  veego   vgaw(ba, VDAC_XINDEX, 12);
    1.1  veego   check.cc[3]=vgar(ba, VDAC_XDATA);
    1.1  veego
    1.1  veego   if(vgar(ba, HDR)); if(vgar(ba, HDR)); if(vgar(ba, HDR)); if(vgar(ba, HDR));
    1.1  veego   vgaw(ba, VDAC_COMMAND, 0x00); /* clear ERPF */
    1.1  veego
    1.1  veego   if(check.tt == 0x533ab141){
    1.1  veego     if(vgar(ba, HDR)); if(vgar(ba, HDR)); if(vgar(ba, HDR)); if(vgar(ba, HDR));
    1.1  veego     vgaw(ba, VDAC_COMMAND, 0x10); /* set ERPF */
    1.1  veego
    1.1  veego     /* switch to 8 bits per color */
    1.1  veego     vgaw(ba, VDAC_XINDEX, 8);
    1.1  veego     vgaw(ba, VDAC_XDATA, 1);
    1.1  veego     /* do not shift color values */
    1.1  veego     etcmap_shift = 0;
    1.1  veego
    1.1  veego     if(vgar(ba, HDR)); if(vgar(ba, HDR)); if(vgar(ba, HDR)); if(vgar(ba, HDR));
    1.1  veego     vgaw(ba, VDAC_COMMAND, 0x00); /* clear ERPF */
    1.1  veego
    1.1  veego     vgaw(ba, VDAC_MASK, 0xff);
    1.1  veego     return(SIERRA15025);
    1.1  veego   }
    1.1  veego
    1.1  veego   /* check for MUSIC DAC */
    1.1  veego
1.1.4.1     is   if(vgar(ba, HDR));	/* We MUST do 4 HW reads to switch into command mode */
1.1.4.1     is   if(vgar(ba, HDR));
1.1.4.1     is   if(vgar(ba, HDR));
1.1.4.1     is   if(vgar(ba, HDR));
1.1.4.1     is
    1.1  veego   vgaw(ba, VDAC_COMMAND, 0x02); /* set some strange MUSIC mode (???) */
    1.1  veego
    1.1  veego   vgaw(ba, VDAC_XINDEX, 0x01);
    1.1  veego   if(vgar(ba, VDAC_XDATA) == 0x01){
    1.1  veego     /* shift color values by 2 */
    1.1  veego     etcmap_shift = 2;
    1.1  veego
    1.1  veego     vgaw(ba, VDAC_MASK, 0xff);
    1.1  veego     return(MUSICDAC);
    1.1  veego   }
    1.1  veego
1.1.4.1     is 	/*
1.1.4.1     is 	 * nothing else found, so let us pretend it is a stupid
1.1.4.1     is 	 * Sierra SC 11483
1.1.4.1     is 	 */
1.1.4.1     is
    1.1  veego 	/* shift color values by 2 */
    1.1  veego 	etcmap_shift = 2;
    1.1  veego
    1.1  veego 	vgaw(ba, VDAC_MASK, 0xff);
    1.1  veego 	return(SIERRA11483);
    1.1  veego }
    1.1  veego
    1.1  veego #endif /* NGRFET */