atari/dev/grfabs_fal.c

1.19      dsl /*	$NetBSD: grfabs_fal.c,v 1.19 2009/03/14 14:45:56 dsl Exp $	*/
 1.1      leo
 1.1      leo /*
 1.2      leo  * Copyright (c) 1995 Thomas Gerner.
 1.1      leo  * Copyright (c) 1995 Leo Weppelman.
 1.1      leo  * All rights reserved.
 1.1      leo  *
 1.1      leo  * Redistribution and use in source and binary forms, with or without
 1.1      leo  * modification, are permitted provided that the following conditions
 1.1      leo  * are met:
 1.1      leo  * 1. Redistributions of source code must retain the above copyright
 1.1      leo  *    notice, this list of conditions and the following disclaimer.
 1.1      leo  * 2. Redistributions in binary form must reproduce the above copyright
 1.1      leo  *    notice, this list of conditions and the following disclaimer in the
 1.1      leo  *    documentation and/or other materials provided with the distribution.
 1.1      leo  * 3. All advertising materials mentioning features or use of this software
 1.1      leo  *    must display the following acknowledgement:
 1.1      leo  *      This product includes software developed by Leo Weppelman.
 1.1      leo  * 4. The name of the author may not be used to endorse or promote products
 1.1      leo  *    derived from this software without specific prior written permission
 1.1      leo  *
 1.1      leo  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 1.1      leo  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.1      leo  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.1      leo  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.1      leo  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 1.1      leo  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 1.1      leo  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 1.1      leo  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 1.1      leo  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
 1.1      leo  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 1.1      leo  */
1.17    lukem
1.17    lukem #include <sys/cdefs.h>
1.19      dsl __KERNEL_RCSID(0, "$NetBSD: grfabs_fal.c,v 1.19 2009/03/14 14:45:56 dsl Exp $");
 1.1      leo
 1.1      leo #ifdef FALCON_VIDEO
 1.1      leo /*
 1.1      leo  *  atari abstract graphics driver: Falcon-interface
 1.1      leo  */
 1.1      leo #include <sys/param.h>
 1.1      leo #include <sys/queue.h>
 1.1      leo #include <sys/malloc.h>
 1.1      leo #include <sys/device.h>
 1.4      leo #include <sys/systm.h>
 1.1      leo
1.16  thorpej #include <uvm/uvm_extern.h>
1.16  thorpej
 1.1      leo #include <machine/iomap.h>
 1.1      leo #include <machine/video.h>
 1.1      leo #include <machine/mfp.h>
 1.1      leo #include <atari/atari/device.h>
 1.4      leo #include <atari/atari/stalloc.h>
 1.1      leo #include <atari/dev/grfabs_reg.h>
 1.6      leo #include <atari/dev/grfabs_fal.h>
 1.1      leo
 1.1      leo /*
 1.1      leo  * Function decls
 1.1      leo  */
1.19      dsl static void       init_view(view_t *, bmap_t *, dmode_t *, box_t *);
1.19      dsl static bmap_t	  *alloc_bitmap(u_long, u_long, u_char);
1.19      dsl static colormap_t *alloc_colormap(dmode_t *);
1.19      dsl static void 	  free_bitmap(bmap_t *);
1.19      dsl static void	  falcon_display_view(view_t *);
1.19      dsl static view_t	  *falcon_alloc_view(dmode_t *, dimen_t *, u_char);
1.19      dsl static void	  falcon_free_view(view_t *);
1.19      dsl static void	  falcon_remove_view(view_t *);
1.19      dsl static void	  falcon_save_view(view_t *);
1.19      dsl static int	  falcon_use_colormap(view_t *, colormap_t *);
1.19      dsl static void	  falcon_detect(dmode_t *);
1.19      dsl static struct videl *falcon_getreg(u_short);
 1.1      leo
 1.1      leo /*
 1.1      leo  * Our function switch table
 1.1      leo  */
 1.1      leo struct grfabs_sw fal_vid_sw = {
 1.1      leo 	falcon_display_view,
 1.1      leo 	falcon_alloc_view,
 1.1      leo 	falcon_free_view,
 1.1      leo 	falcon_remove_view,
 1.7      leo 	falcon_save_view,
 1.1      leo 	falcon_use_colormap
 1.1      leo };
 1.1      leo
 1.6      leo struct falcon_hwregs {
 1.6      leo 	u_short		fal_mode;	/* falcon mode		  */
 1.6      leo 	struct videl	*fal_regs;	/* videl register values  */
 1.6      leo };
 1.6      leo #define vm_mode(dm)	(((struct falcon_hwregs*)(dm->data))->fal_mode)
 1.6      leo #define vm_regs(dm)	(((struct falcon_hwregs*)(dm->data))->fal_regs)
 1.6      leo
 1.6      leo /*
 1.6      leo  * Note that the order of this table *must* match the order of
 1.6      leo  * the table below!
 1.6      leo  */
 1.6      leo static struct falcon_hwregs fal_hwregs[] = {
 1.6      leo 	{ RES_FALAUTO    },
 1.6      leo 	{ RES_FAL_STHIGH },
 1.6      leo 	{ RES_FAL_STMID  },
 1.6      leo 	{ RES_FAL_STLOW  },
 1.6      leo 	{ RES_FAL_TTLOW  },
 1.6      leo 	{ RES_VGA2       },
 1.6      leo 	{ RES_VGA4       },
 1.6      leo 	{ RES_VGA16      },
 1.6      leo 	{ RES_VGA256     },
 1.6      leo 	{ RES_DIRECT     }
 1.6      leo };
 1.6      leo
 1.6      leo
 1.1      leo static dmode_t vid_modes[] = {
 1.6      leo     { {NULL,NULL}, "falauto", {   0,  0 },  0, NULL, &fal_vid_sw},
 1.6      leo     { {NULL,NULL}, "sthigh",  { 640,400 },  1, NULL, &fal_vid_sw},
 1.6      leo     { {NULL,NULL}, "stmid",   { 640,200 },  2, NULL, &fal_vid_sw},
 1.6      leo     { {NULL,NULL}, "stlow",   { 320,200 },  4, NULL, &fal_vid_sw},
 1.6      leo     { {NULL,NULL}, "ttlow",   { 320,480 },  8, NULL, &fal_vid_sw},
 1.6      leo     { {NULL,NULL}, "vga2",    { 640,480 },  1, NULL, &fal_vid_sw},
 1.6      leo     { {NULL,NULL}, "vga4",    { 640,480 },  2, NULL, &fal_vid_sw},
 1.6      leo     { {NULL,NULL}, "vga16",   { 640,480 },  4, NULL, &fal_vid_sw},
 1.6      leo     { {NULL,NULL}, "vga256",  { 640,480 },  8, NULL, &fal_vid_sw},
 1.6      leo     { {NULL,NULL}, "highcol", { 320,200 }, 16, NULL, &fal_vid_sw},
 1.3      leo     { {NULL,NULL},  NULL,  }
 1.1      leo };
 1.1      leo
 1.1      leo /*
 1.2      leo  * The following table contains timing values for the various video modes.
 1.3      leo  * I have only a multisync display, therefore I can not say if this values
 1.3      leo  * are useful at other displays.
 1.2      leo  * Use other video modes at YOUR OWN RISK.
 1.2      leo  * THERE IS NO WARRENTY ABOUT THIS VALUES TO WORK WITH A PARTICULAR
 1.3      leo  * DISPLAY. -- Thomas
 1.2      leo  */
 1.2      leo static struct videl videlinit[] = {
 1.3      leo 	{ RES_FALAUTO,		    /* autodedect			    */
 1.2      leo 	0x0, 0x0, 0x0,   0x0, 0x0,   0x0,  0x0,  0x0,  0x0,   0x0,  0x0,  0x0,
 1.2      leo 	0x0, 0x0,   0x0,   0x0,  0x0,  0x0,   0x0,   0x0,   0x0 },
 1.2      leo
 1.3      leo 	{ FAL_VGA | RES_FAL_STHIGH, /* sthigh, 640x400, 2 colors	    */
 1.2      leo 	0x2, 0x0, 0x28,  0x0, 0x400, 0xc6, 0x8d, 0x15, 0x273, 0x50, 0x96, 0x0,
 1.2      leo 	0x0, 0x419, 0x3af, 0x8f, 0x8f, 0x3af, 0x415, 0x186, 0x8 },
 1.2      leo
 1.3      leo #if 0 /* not yet */
 1.3      leo 	{ FAL_SM | RES_FAL_STHIGH,  /* sthigh, 640x400, 2 colors	    */
 1.3      leo 	0x0, 0x0, 0x28,  0x2, 0x0,   0x1a, 0x0,  0x0,  0x20f, 0xc,  0x14, 0x0,
 1.3      leo 	0x0, 0x3e9, 0x0,   0x0,  0x43, 0x363, 0x3e7, 0x80,  0x8 },
 1.3      leo #endif
 1.3      leo
 1.3      leo 	{ FAL_VGA | RES_FAL_STMID,  /* stmid, 640x200, 4 colors		    */
 1.2      leo 	0x2, 0x0, 0x50,  0x1, 0x0,   0x17, 0x12, 0x1,  0x20e, 0xd,  0x11, 0x0,
 1.2      leo 	0x0, 0x419, 0x3af, 0x8f, 0x8f, 0x3af, 0x415, 0x186, 0x9 },
 1.2      leo
 1.3      leo 	{ FAL_VGA | RES_FAL_STLOW,  /* stlow, 320x200, 16 colors	    */
 1.2      leo 	0x2, 0x0, 0x50,  0x0, 0x0,   0x17, 0x12, 0x1,  0x20e, 0xd,  0x11, 0x0,
 1.2      leo 	0x0, 0x419, 0x3af, 0x8f, 0x8f, 0x3af, 0x415, 0x186, 0x5 },
 1.2      leo
 1.3      leo 	{ FAL_VGA | RES_FAL_TTLOW,  /* ttlow, 320x480, 256 colors	    */
 1.2      leo 	0x2, 0x0, 0xa0,  0x0, 0x10,  0xc6, 0x8d, 0x15, 0x29a, 0x7b, 0x96, 0x0,
 1.2      leo 	0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x4 },
 1.2      leo
 1.3      leo 	{ FAL_VGA | RES_VGA2,	    /* vga, 640x480, 2 colors		    */
 1.2      leo 	0x2, 0x0, 0x28,  0x0, 0x400, 0xc6, 0x8d, 0x15, 0x273, 0x50, 0x96, 0x0,
 1.2      leo 	0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x8 },
 1.2      leo
 1.3      leo 	{ FAL_VGA | RES_VGA4,	    /* vga, 640x480, 4 colors		    */
 1.2      leo 	0x2, 0x0, 0x50,  0x1, 0x0,   0x17, 0x12, 0x1,  0x20e, 0xd,  0x11, 0x0,
 1.2      leo 	0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x8 },
 1.2      leo
 1.3      leo 	{ FAL_VGA | RES_VGA16,	    /* vga, 640x480, 16 colors		    */
 1.2      leo 	0x2, 0x0, 0xa0,  0x1, 0x0,   0xc6, 0x8d, 0x15, 0x2a3, 0x7c, 0x96, 0x0,
 1.2      leo 	0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x8 },
 1.2      leo
 1.3      leo 	{ FAL_VGA | RES_VGA256,	    /* vga, 640x480, 256 colors		    */
 1.2      leo 	0x2, 0x0, 0x140, 0x1, 0x10,  0xc6, 0x8d, 0x15, 0x2ab, 0x84, 0x96, 0x0,
 1.2      leo 	0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x8 },
 1.2      leo
 1.3      leo 	{ FAL_VGA | RES_DIRECT,	    /* direct video, 320x200, 65536 colors  */
 1.2      leo 	0x2, 0x0, 0x140, 0x0, 0x100, 0xc6, 0x8d, 0x15, 0x2ac, 0x91, 0x96, 0x0,
 1.2      leo 	0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x4 },
 1.2      leo
 1.3      leo 	{ 0xffff }		    /* end of list			    */
 1.2      leo };
 1.2      leo
 1.3      leo static u_short mon_type;
 1.2      leo /*
 1.1      leo  * XXX: called from ite console init routine.
1.14      wiz  * Initialize list of possible video modes.
 1.1      leo  */
 1.1      leo void
 1.1      leo falcon_probe_video(modelp)
 1.1      leo MODES	*modelp;
 1.1      leo {
 1.1      leo 	dmode_t	*dm;
 1.3      leo 	struct videl *vregs;
 1.1      leo 	int	i;
 1.1      leo
 1.5      leo 	mon_type = *(volatile unsigned char *)(AD_FAL_MON_TYPE);
 1.3      leo 	mon_type = (mon_type & 0xc0) << 2;
 1.3      leo
 1.3      leo 	/*
1.14      wiz 	 * get all possible modes
 1.1      leo 	 */
 1.1      leo
 1.1      leo 	for (i = 0; (dm = &vid_modes[i])->name != NULL; i++) {
 1.6      leo 		dm->data = (void *)&fal_hwregs[i];
 1.6      leo 		if (vm_mode(dm) == RES_FALAUTO) {
 1.6      leo 			vm_regs(dm) = falcon_getreg(RES_FALAUTO);
 1.2      leo 			falcon_detect(dm);
 1.2      leo 			LIST_INSERT_HEAD(modelp, dm, link);
 1.3      leo 		} else {
 1.6      leo 			vregs = falcon_getreg(vm_mode(dm) | mon_type);
 1.3      leo 			if (vregs) {
 1.6      leo 				vm_regs(dm) = vregs;
 1.3      leo 				LIST_INSERT_HEAD(modelp, dm, link);
 1.3      leo 			}
 1.3      leo 		}
 1.1      leo 	}
 1.1      leo
 1.1      leo 	/*
 1.1      leo 	 * This seems to prevent bordered screens.
 1.1      leo 	 */
 1.1      leo 	for (i=0; i < 16; i++)
 1.1      leo 		VIDEO->vd_fal_rgb[i] = CM_L2FAL(gra_def_color16[i]);
 1.1      leo }
 1.1      leo
 1.2      leo static struct videl *
 1.3      leo falcon_getreg(mode)
 1.3      leo u_short mode;
 1.2      leo {
 1.2      leo 	int i;
 1.2      leo 	struct videl *vregs;
 1.2      leo
 1.3      leo 	for (i = 0; (vregs = &videlinit[i])->video_mode != 0xffff; i++)
 1.3      leo 		if ((vregs->video_mode) == mode)
 1.2      leo 			return vregs;
 1.2      leo
 1.3      leo 	return NULL; /* mode not found */
 1.2      leo }
 1.2      leo
 1.1      leo static void
 1.2      leo falcon_detect(dm)
 1.1      leo dmode_t *dm;
 1.1      leo {
 1.1      leo 	u_short	falshift, stshift;
 1.6      leo 	struct videl *vregs = vm_regs(dm);
 1.1      leo
 1.2      leo 	/*
1.13    soren 	 * First get the videl register values
 1.2      leo 	 */
 1.2      leo
 1.2      leo 	vregs->vd_syncmode	= VIDEO->vd_sync;
 1.2      leo 	vregs->vd_line_wide	= VIDEO->vd_line_wide;
 1.2      leo 	vregs->vd_vert_wrap	= VIDEO->vd_vert_wrap;
 1.2      leo 	vregs->vd_st_res	= VIDEO->vd_st_res;
 1.2      leo 	vregs->vd_fal_res	= VIDEO->vd_fal_res;
 1.2      leo 	vregs->vd_h_hold_tim	= VIDEO->vd_h_hold_tim;
 1.2      leo 	vregs->vd_h_bord_beg	= VIDEO->vd_h_bord_beg;
 1.2      leo 	vregs->vd_h_bord_end	= VIDEO->vd_h_bord_end;
 1.2      leo 	vregs->vd_h_dis_beg	= VIDEO->vd_h_dis_beg;
 1.2      leo 	vregs->vd_h_dis_end	= VIDEO->vd_h_dis_end;
 1.2      leo 	vregs->vd_h_ss		= VIDEO->vd_h_ss;
 1.2      leo 	vregs->vd_h_fs		= VIDEO->vd_h_fs;
 1.2      leo 	vregs->vd_h_hh		= VIDEO->vd_h_hh;
 1.2      leo 	vregs->vd_v_freq_tim	= VIDEO->vd_v_freq_tim;
 1.2      leo 	vregs->vd_v_bord_beg	= VIDEO->vd_v_bord_beg;
 1.2      leo 	vregs->vd_v_bord_end	= VIDEO->vd_v_bord_end;
 1.2      leo 	vregs->vd_v_dis_beg	= VIDEO->vd_v_dis_beg;
 1.2      leo 	vregs->vd_v_dis_end	= VIDEO->vd_v_dis_end;
 1.2      leo 	vregs->vd_v_ss		= VIDEO->vd_v_ss;
 1.2      leo 	vregs->vd_fal_ctrl	= VIDEO->vd_fal_ctrl;
 1.2      leo 	vregs->vd_fal_mode	= VIDEO->vd_fal_mode;
 1.2      leo
 1.1      leo
 1.1      leo 	/*
 1.1      leo 	 * Calculate the depth of the screen
 1.1      leo 	 */
 1.1      leo
 1.2      leo 	falshift = vregs->vd_fal_res;
 1.2      leo 	stshift = vregs->vd_st_res;
 1.1      leo
 1.1      leo 	if (falshift & 0x400)		/* 2 color */
 1.1      leo 		dm->depth = 1;
 1.1      leo 	else if (falshift & 0x100)	/* high color, direct */
 1.1      leo 		dm->depth = 16;
 1.1      leo 	else if (falshift & 0x10)	/* 256 color */
 1.1      leo 		dm->depth = 8;
 1.1      leo 	else if (stshift == 0)		/* 16 color */
 1.1      leo 		dm->depth = 4;
 1.1      leo 	else if (stshift == 1)		/* 4 color */
 1.1      leo 		dm->depth = 2;
 1.1      leo 	else dm->depth = 1;		/* 2 color */
 1.1      leo
 1.1      leo 	/*
 1.1      leo 	 * Now calculate the screen hight
 1.1      leo 	 */
 1.1      leo
 1.2      leo 	dm->size.height = vregs->vd_v_dis_end - vregs->vd_v_dis_beg;
 1.2      leo 	if (!((vregs->vd_fal_mode & 0x2) >> 1)) /* if not interlaced */
 1.2      leo 		dm->size.height >>=1;
 1.2      leo 	if (vregs->vd_fal_mode & 0x1)		/* if doublescan */
 1.2      leo 		dm->size.height >>=1;
 1.1      leo
 1.1      leo 	/*
 1.1      leo 	 * And the width
 1.1      leo 	 */
 1.1      leo
 1.2      leo 	dm->size.width = vregs->vd_vert_wrap * 16 / dm->depth;
 1.2      leo
 1.1      leo }
 1.1      leo
 1.9      leo u_long	falcon_needs_vbl;
1.19      dsl void falcon_display_switch(void);
 1.9      leo
 1.1      leo static void
 1.1      leo falcon_display_view(v)
 1.1      leo view_t *v;
 1.1      leo {
 1.1      leo 	dmode_t	*dm = v->mode;
 1.9      leo 	bmap_t		*bm;
 1.9      leo 	struct videl	*vregs;
 1.9      leo 	static u_short last_mode = 0xffff;
 1.1      leo
 1.1      leo 	if (dm->current_view) {
 1.1      leo 		/*
 1.1      leo 		 * Mark current view for this mode as no longer displayed
 1.1      leo 		 */
 1.1      leo 		dm->current_view->flags &= ~VF_DISPLAY;
 1.1      leo 	}
 1.1      leo 	dm->current_view = v;
 1.1      leo 	v->flags |= VF_DISPLAY;
 1.9      leo 	vregs = vm_regs(v->mode);
 1.1      leo
 1.1      leo 	falcon_use_colormap(v, v->colormap);
 1.1      leo
 1.9      leo 	bm = v->bitmap;
 1.9      leo 	VIDEO->vd_ramh   = ((u_long)bm->hw_address >> 16) & 0xff;
 1.9      leo 	VIDEO->vd_ramm   = ((u_long)bm->hw_address >>  8) & 0xff;
 1.9      leo 	VIDEO->vd_raml   =  (u_long)bm->hw_address & 0xff;
 1.9      leo
 1.9      leo 	if (last_mode != vregs->video_mode) {
 1.9      leo 		last_mode = vregs->video_mode;
 1.9      leo
 1.9      leo 		if (dm->depth == 1) {
 1.9      leo 			/*
 1.9      leo 			 * Set the resolution registers to a mode, which guarantee
 1.9      leo 			 * no shifting when the register are written during vbl.
 1.9      leo 			 */
 1.9      leo 			VIDEO->vd_fal_res = 0;
 1.9      leo 			VIDEO->vd_st_res = 0;
 1.9      leo 		}
 1.9      leo
 1.9      leo 		/*
 1.9      leo 		 * Arrange for them to be activated
 1.9      leo 		 * at the second vbl interrupt.
 1.9      leo 		 */
 1.9      leo 		falcon_needs_vbl = (u_long)v;
 1.9      leo 	}
 1.9      leo }
 1.9      leo
 1.9      leo void
 1.9      leo falcon_display_switch()
 1.9      leo {
 1.9      leo 	view_t		*v;
 1.9      leo 	struct videl	*vregs;
 1.9      leo 	static int vbl_count = 1;
 1.9      leo
 1.9      leo 	if(vbl_count--) return;
 1.9      leo
 1.9      leo 	v = (view_t*)falcon_needs_vbl;
 1.3      leo
 1.9      leo 	vbl_count = 1;
 1.9      leo 	falcon_needs_vbl = 0;
 1.3      leo
 1.3      leo 	/*
 1.3      leo 	 * Write to videl registers only on VGA displays
 1.3      leo 	 * This is only a hack. Must be fixed soon. XXX -- Thomas
 1.3      leo 	 */
 1.3      leo 	if(mon_type != FAL_VGA) return;
 1.2      leo
 1.9      leo 	vregs = vm_regs(v->mode);
 1.9      leo
 1.9      leo 	VIDEO->vd_v_freq_tim    = vregs->vd_v_freq_tim;
 1.9      leo 	VIDEO->vd_v_ss          = vregs->vd_v_ss;
 1.9      leo 	VIDEO->vd_v_bord_beg    = vregs->vd_v_bord_beg;
 1.9      leo 	VIDEO->vd_v_bord_end    = vregs->vd_v_bord_end;
 1.9      leo 	VIDEO->vd_v_dis_beg     = vregs->vd_v_dis_beg;
 1.9      leo 	VIDEO->vd_v_dis_end     = vregs->vd_v_dis_end;
 1.9      leo 	VIDEO->vd_h_hold_tim    = vregs->vd_h_hold_tim;
 1.9      leo 	VIDEO->vd_h_ss          = vregs->vd_h_ss;
 1.9      leo 	VIDEO->vd_h_bord_beg    = vregs->vd_h_bord_beg;
 1.9      leo 	VIDEO->vd_h_bord_end    = vregs->vd_h_bord_end;
 1.9      leo 	VIDEO->vd_h_dis_beg     = vregs->vd_h_dis_beg;
 1.9      leo 	VIDEO->vd_h_dis_end     = vregs->vd_h_dis_end;
 1.2      leo #if 0 /* This seems not to be necessary -- Thomas */
 1.2      leo 	VIDEO->vd_h_fs		= vregs->vd_h_fs;
 1.2      leo 	VIDEO->vd_h_hh		= vregs->vd_h_hh;
 1.2      leo #endif
 1.2      leo 	VIDEO->vd_sync          = vregs->vd_syncmode;
 1.2      leo 	VIDEO->vd_fal_res       = 0;
 1.9      leo 	if (v->mode->depth == 2)
 1.2      leo 		VIDEO->vd_st_res        = vregs->vd_st_res;
 1.2      leo 	else {
 1.2      leo 		VIDEO->vd_st_res        = 0;
 1.2      leo 		VIDEO->vd_fal_res       = vregs->vd_fal_res;
 1.2      leo 	}
 1.2      leo 	VIDEO->vd_vert_wrap     = vregs->vd_vert_wrap;
 1.2      leo 	VIDEO->vd_line_wide     = vregs->vd_line_wide;
 1.2      leo 	VIDEO->vd_fal_ctrl      = vregs->vd_fal_ctrl;
 1.2      leo 	VIDEO->vd_fal_mode      = vregs->vd_fal_mode;
 1.1      leo }
 1.1      leo
 1.1      leo static void
 1.1      leo falcon_remove_view(v)
 1.1      leo view_t *v;
 1.1      leo {
 1.1      leo 	dmode_t *mode = v->mode;
 1.1      leo
 1.1      leo 	if (mode->current_view == v) {
 1.1      leo #if 0
 1.1      leo 		if (v->flags & VF_DISPLAY)
1.15   provos 			panic("Cannot shutdown display"); /* XXX */
 1.1      leo #endif
 1.1      leo 		mode->current_view = NULL;
 1.1      leo 	}
 1.1      leo 	v->flags &= ~VF_DISPLAY;
 1.1      leo }
 1.1      leo
 1.7      leo void
 1.7      leo falcon_save_view(v)
 1.7      leo view_t *v;
 1.7      leo {
 1.7      leo }
 1.7      leo
 1.1      leo static void
 1.1      leo falcon_free_view(v)
 1.1      leo view_t *v;
 1.1      leo {
 1.1      leo 	if (v) {
 1.1      leo 		falcon_remove_view(v);
 1.1      leo 		if (v->colormap != &gra_con_cmap)
 1.1      leo 			free(v->colormap, M_DEVBUF);
 1.1      leo 		free_bitmap(v->bitmap);
 1.1      leo 		if (v != &gra_con_view)
 1.1      leo 			free(v, M_DEVBUF);
 1.1      leo 	}
 1.1      leo }
 1.1      leo
 1.1      leo static int
 1.1      leo falcon_use_colormap(v, cm)
 1.1      leo view_t		*v;
 1.1      leo colormap_t	*cm;
 1.1      leo {
 1.1      leo 	dmode_t			*dm;
 1.1      leo 	volatile u_short	*creg;
 1.1      leo 	volatile u_long		*fcreg;
 1.1      leo 	u_long			*src;
 1.1      leo 	colormap_t		*vcm;
 1.1      leo 	u_long			*vcreg;
 1.1      leo 	u_short			ncreg;
1.11      leo 	int			last_streg;
 1.1      leo 	int			i;
 1.1      leo
 1.1      leo 	dm  = v->mode;
 1.1      leo 	vcm = v->colormap;
 1.1      leo
 1.1      leo 	/*
 1.1      leo 	 * I guess it seems reasonable to require the maps to be
 1.1      leo 	 * of the same type...
 1.1      leo 	 */
 1.1      leo 	if (cm->type != vcm->type)
 1.1      leo 		return (EINVAL);
 1.1      leo
 1.1      leo 	/*
 1.1      leo 	 * First get the colormap addresses an calculate
 1.1      leo 	 * howmany colors are in it.
 1.1      leo 	 */
 1.1      leo 	if (dm->depth == 16) /* direct color, no colormap;
 1.1      leo 				but also not (yet) supported */
 1.1      leo 		return(0);
 1.1      leo 	fcreg = &VIDEO->vd_fal_rgb[0];
 1.1      leo 	creg  = &VIDEO->vd_st_rgb[0];
 1.1      leo 	ncreg = 1 << dm->depth;
 1.1      leo
 1.1      leo 	/* If first entry specified beyond capabilities -> error */
 1.1      leo 	if (cm->first >= ncreg)
 1.1      leo 		return (EINVAL);
 1.1      leo
 1.1      leo 	/*
 1.1      leo 	 * A little tricky, the actual colormap pointer will be NULL
 1.1      leo 	 * when view is not displaying, valid otherwise.
 1.1      leo 	 */
1.11      leo 	if (v->flags & VF_DISPLAY) {
 1.1      leo 		creg = &creg[cm->first];
1.11      leo 		fcreg = &fcreg[cm->first];
1.11      leo 	} else {
1.11      leo 		creg = NULL;
1.11      leo 		fcreg = NULL;
1.11      leo 	}
 1.1      leo
 1.1      leo 	vcreg  = &vcm->entry[cm->first];
 1.1      leo 	ncreg -= cm->first;
1.11      leo 	last_streg = 16 - cm->first;
 1.1      leo 	if (cm->size > ncreg)
 1.1      leo 		return (EINVAL);
 1.1      leo 	ncreg = cm->size;
 1.1      leo
 1.1      leo 	for (i = 0, src = cm->entry; i < ncreg; i++, vcreg++) {
 1.1      leo 		*vcreg = *src++;
 1.1      leo
 1.1      leo 		/*
 1.1      leo 		 * If displaying, also update actual color register.
 1.1      leo 		 */
1.11      leo 		if (fcreg != NULL) {
 1.1      leo 			*fcreg++ = CM_L2FAL(*vcreg);
1.11      leo 			if (i < last_streg)
 1.1      leo 				*creg++ = CM_L2ST(*vcreg);
 1.1      leo 		}
 1.1      leo 	}
 1.1      leo 	return (0);
 1.1      leo }
 1.1      leo
 1.1      leo static view_t *
 1.1      leo falcon_alloc_view(mode, dim, depth)
 1.1      leo dmode_t	*mode;
 1.1      leo dimen_t	*dim;
 1.1      leo u_char   depth;
 1.1      leo {
 1.1      leo 	view_t *v;
 1.1      leo 	bmap_t *bm;
 1.1      leo
 1.1      leo 	if (!atari_realconfig)
 1.1      leo 		v = &gra_con_view;
 1.1      leo 	else v = malloc(sizeof(*v), M_DEVBUF, M_NOWAIT);
 1.1      leo 	if (v == NULL)
 1.1      leo 		return(NULL);
 1.1      leo
 1.1      leo 	bm = alloc_bitmap(mode->size.width, mode->size.height, mode->depth);
 1.1      leo 	if (bm) {
 1.1      leo 		box_t   box;
 1.1      leo
 1.1      leo 		v->colormap = alloc_colormap(mode);
 1.1      leo 		if (v->colormap) {
 1.1      leo 			INIT_BOX(&box,0,0,mode->size.width,mode->size.height);
 1.1      leo 			init_view(v, bm, mode, &box);
 1.1      leo 			return(v);
 1.1      leo 		}
 1.1      leo 		free_bitmap(bm);
 1.1      leo 	}
 1.1      leo 	if (v != &gra_con_view)
 1.1      leo 		free(v, M_DEVBUF);
 1.1      leo 	return (NULL);
 1.1      leo }
 1.1      leo
 1.1      leo static void
 1.1      leo init_view(v, bm, mode, dbox)
 1.1      leo view_t	*v;
 1.1      leo bmap_t	*bm;
 1.1      leo dmode_t	*mode;
 1.1      leo box_t	*dbox;
 1.1      leo {
 1.1      leo 	v->bitmap = bm;
 1.1      leo 	v->mode   = mode;
 1.1      leo 	v->flags  = 0;
 1.1      leo 	bcopy(dbox, &v->display, sizeof(box_t));
 1.1      leo }
 1.1      leo
 1.1      leo /* bitmap functions */
 1.1      leo
 1.1      leo static bmap_t *
 1.1      leo alloc_bitmap(width, height, depth)
 1.1      leo u_long	width, height;
 1.1      leo u_char	depth;
 1.1      leo {
 1.1      leo 	u_long  total_size, bm_size;
 1.1      leo 	void	*hw_address;
 1.1      leo 	bmap_t	*bm;
 1.1      leo
 1.1      leo 	/*
 1.1      leo 	 * Sigh, it seems for mapping to work we need the bitplane data to
 1.1      leo 	 *  1: be aligned on a page boundry.
 1.1      leo 	 *  2: be n pages large.
 1.1      leo 	 *
 1.1      leo 	 * why? because the user gets a page aligned address, if this is before
 1.1      leo 	 * your allocation, too bad.  Also it seems that the mapping routines
 1.1      leo 	 * do not watch to closely to the allowable length. so if you go over
 1.1      leo 	 * n pages by less than another page, the user gets to write all over
 1.1      leo 	 * the entire page. Since you did not allocate up to a page boundry
 1.1      leo 	 * (or more) the user writes into someone elses memory. -ch
 1.1      leo 	 */
1.10    veego 	bm_size    = m68k_round_page((width * height * depth) / NBBY);
1.16  thorpej 	total_size = bm_size + sizeof(bmap_t) + PAGE_SIZE;
 1.1      leo
 1.1      leo 	if ((bm = (bmap_t*)alloc_stmem(total_size, &hw_address)) == NULL)
 1.1      leo 		return(NULL);
 1.1      leo
 1.1      leo 	bm->plane         = (u_char*)bm + sizeof(bmap_t);
1.10    veego 	bm->plane         = (u_char*)m68k_round_page(bm->plane);
 1.1      leo 	bm->hw_address    = (u_char*)hw_address + sizeof(bmap_t);
1.10    veego 	bm->hw_address    = (u_char*)m68k_round_page(bm->hw_address);
 1.1      leo 	bm->bytes_per_row = (width * depth) / NBBY;
 1.1      leo 	bm->rows          = height;
 1.1      leo 	bm->depth         = depth;
 1.8      leo 	bm->phys_mappable = (depth * width * height) / NBBY;
1.12   thomas 	bm->regs          = NULL;
1.12   thomas 	bm->hw_regs       = NULL;
1.12   thomas 	bm->reg_size      = 0;
1.12   thomas 	bm->vga_address   = NULL;
1.12   thomas 	bm->vga_mappable  = 0;
1.12   thomas 	bm->lin_base      = 0;
1.12   thomas 	bm->vga_base      = 0;
 1.1      leo
 1.1      leo 	bzero(bm->plane, bm_size);
 1.1      leo 	return (bm);
 1.1      leo }
 1.1      leo
 1.1      leo static void
 1.1      leo free_bitmap(bm)
 1.1      leo bmap_t *bm;
 1.1      leo {
 1.1      leo 	if (bm)
 1.1      leo 		free_stmem(bm);
 1.1      leo }
 1.1      leo
 1.1      leo static colormap_t *
 1.1      leo alloc_colormap(dm)
 1.1      leo dmode_t		*dm;
 1.1      leo {
 1.1      leo 	int		nentries, i;
 1.1      leo 	colormap_t	*cm;
 1.1      leo 	u_char		type = CM_COLOR;
 1.1      leo
 1.1      leo 	if (dm->depth == 16) /* direct color, no colormap;
 1.1      leo 				not (yet) supported */
 1.1      leo 		nentries = 0;
 1.1      leo 	else
 1.1      leo 		nentries = 1 << dm->depth;
 1.1      leo
 1.1      leo 	if (!atari_realconfig) {
 1.1      leo 		cm = &gra_con_cmap;
 1.1      leo 		cm->entry = gra_con_colors;
 1.1      leo 	}
 1.1      leo 	else {
 1.1      leo 		int size;
 1.1      leo
 1.1      leo 		size = sizeof(*cm) + (nentries * sizeof(cm->entry[0]));
 1.1      leo 		cm   = malloc(size, M_DEVBUF, M_NOWAIT);
 1.1      leo 		if (cm == NULL)
 1.1      leo 			return(NULL);
 1.1      leo 		cm->entry = (long *)&cm[1];
 1.1      leo
 1.1      leo 	}
 1.1      leo
 1.1      leo 	if ((cm->type = type) == CM_COLOR)
 1.1      leo 		cm->red_mask = cm->green_mask = cm->blue_mask = 0x3f;
 1.1      leo
 1.1      leo 	cm->first = 0;
 1.1      leo 	cm->size  = nentries;
 1.1      leo
 1.1      leo 	for (i = 0; i < nentries; i++)
 1.1      leo 		cm->entry[i] = gra_def_color16[i % 16];
 1.1      leo 	return (cm);
 1.1      leo }
 1.1      leo #endif /* FALCON_VIDEO */