atari/dev/view.c

1.16.18.1    simonb /*	$NetBSD: view.c,v 1.16.18.1 2000/06/30 16:27:20 simonb Exp $	*/
      1.1       leo
      1.1       leo /*
      1.1       leo  * Copyright (c) 1994 Christian E. Hopps
      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 Christian E. Hopps.
      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  */
      1.1       leo
      1.1       leo /* The view major device is a placeholder device.  It serves
      1.1       leo  * simply to map the semantics of a graphics dipslay to
      1.1       leo  * the semantics of a character block device.  In other
      1.1       leo  * words the graphics system as currently built does not like to be
      1.1       leo  * refered to by open/close/ioctl.  This device serves as
      1.1       leo  * a interface to graphics. */
      1.1       leo
      1.1       leo #include <sys/param.h>
      1.7       leo #include <sys/systm.h>
      1.1       leo #include <sys/proc.h>
      1.1       leo #include <sys/ioctl.h>
      1.1       leo #include <sys/file.h>
      1.1       leo #include <sys/device.h>
      1.1       leo #include <sys/malloc.h>
      1.1       leo #include <sys/queue.h>
      1.8       leo #include <sys/conf.h>
     1.10       leo #include <sys/poll.h>
      1.1       leo #include <machine/cpu.h>
      1.1       leo #include <atari/dev/grfabs_reg.h>
      1.1       leo #include <atari/dev/viewioctl.h>
      1.1       leo #include <atari/dev/viewvar.h>
      1.1       leo #include "view.h"
      1.1       leo
      1.1       leo static void view_display __P((struct view_softc *));
      1.1       leo static void view_remove __P((struct view_softc *));
      1.2       leo static int  view_setsize __P((struct view_softc *, struct view_size *));
      1.2       leo static int  view_get_colormap __P((struct view_softc *, colormap_t *));
      1.2       leo static int  view_set_colormap __P((struct view_softc *, colormap_t *));
      1.1       leo
      1.1       leo struct view_softc views[NVIEW];
      1.1       leo static int view_inited;
      1.1       leo
      1.1       leo int view_default_x;
      1.1       leo int view_default_y;
      1.1       leo int view_default_width  = 640;
      1.1       leo int view_default_height = 400;
      1.1       leo int view_default_depth  = 1;
      1.1       leo
      1.1       leo /*
      1.1       leo  *  functions for probeing.
      1.1       leo  */
      1.8       leo void	viewattach __P((int));
      1.8       leo
      1.7       leo void
      1.1       leo viewattach(cnt)
      1.1       leo 	int cnt;
      1.1       leo {
      1.1       leo 	viewprobe();
     1.13  christos 	printf("%d view%s configured\n", NVIEW, NVIEW > 1 ? "s" : "");
      1.1       leo }
      1.1       leo
      1.1       leo /* this function is called early to set up a display. */
      1.7       leo int
      1.1       leo viewprobe()
      1.1       leo {
      1.1       leo     	int i;
      1.1       leo
      1.1       leo 	if(view_inited)
      1.1       leo 		return(1);
      1.1       leo
      1.1       leo 	view_inited = 1;
      1.1       leo
      1.1       leo 	for(i=0; i<NVIEW; i++) {
      1.1       leo 		views[i].view = NULL;
      1.1       leo 		views[i].flags = 0;
      1.1       leo 	}
      1.1       leo 	return(1);
      1.1       leo }
      1.1       leo
      1.1       leo
      1.1       leo /*
      1.1       leo  *  Internal functions.
      1.1       leo  */
      1.1       leo
      1.1       leo static void
      1.1       leo view_display (vu)
      1.1       leo 	struct view_softc *vu;
      1.1       leo {
      1.1       leo 	int s, i;
      1.1       leo
      1.1       leo 	if (vu == NULL)
      1.1       leo 		return;
      1.1       leo
      1.9       leo 	s = spltty();
      1.1       leo
      1.1       leo 	/*
      1.1       leo 	 * mark views that share this monitor as not displaying
      1.1       leo 	 */
      1.9       leo 	for (i = 0; i < NVIEW; i++) {
      1.9       leo 		if(views[i].flags & VUF_DISPLAY) {
      1.9       leo 			if (vu->view && (vu->view == views[i].view)) {
      1.9       leo 				splx(s);
      1.9       leo 				return;
      1.9       leo 			}
     1.11       leo 			if (views[i].view) {
     1.11       leo 				grf_save_view(views[i].view);
     1.11       leo 				views[i].view->flags &= ~VF_DISPLAY;
     1.11       leo 			}
      1.1       leo 			views[i].flags &= ~VUF_DISPLAY;
      1.9       leo 		}
      1.1       leo 	}
      1.1       leo
      1.1       leo 	vu->flags |= VUF_ADDED;
      1.1       leo 	if (vu->view) {
      1.1       leo 		vu->view->display.x = vu->size.x;
      1.1       leo 		vu->view->display.y = vu->size.y;
      1.1       leo
      1.1       leo 		grf_display_view(vu->view);
     1.11       leo 		vu->view->flags |= VF_DISPLAY;
      1.1       leo
      1.1       leo 		vu->size.x = vu->view->display.x;
      1.1       leo 		vu->size.y = vu->view->display.y;
      1.1       leo 		vu->flags |= VUF_DISPLAY;
      1.1       leo 	}
      1.1       leo 	splx(s);
      1.1       leo }
      1.1       leo
      1.1       leo /*
      1.1       leo  * remove a view from our added list if it is marked as displaying
      1.1       leo  * switch to a new display.
      1.1       leo  */
      1.1       leo static void
      1.1       leo view_remove(vu)
      1.1       leo 	struct view_softc *vu;
      1.1       leo {
      1.1       leo 	int i;
      1.1       leo
      1.1       leo 	if ((vu->flags & VUF_ADDED) == 0)
      1.1       leo 		return;
      1.1       leo
      1.1       leo 	vu->flags &= ~VUF_ADDED;
      1.1       leo 	if (vu->flags & VUF_DISPLAY) {
      1.1       leo 		for (i = 0; i < NVIEW; i++) {
      1.1       leo 			if((views[i].flags & VUF_ADDED) && &views[i] != vu) {
      1.1       leo 				view_display(&views[i]);
      1.1       leo 				break;
      1.1       leo 			}
      1.1       leo 		}
      1.1       leo 	}
      1.1       leo 	vu->flags &= ~VUF_DISPLAY;
      1.1       leo 	grf_remove_view(vu->view);
      1.1       leo }
      1.1       leo
      1.1       leo static int
      1.1       leo view_setsize(vu, vs)
      1.1       leo 	struct view_softc *vu;
      1.1       leo 	struct view_size *vs;
      1.1       leo {
      1.4       leo 	view_t	*new, *old;
      1.4       leo 	dmode_t	*dmode;
      1.1       leo 	dimen_t ns;
      1.4       leo 	int	co, cs;
      1.1       leo
      1.1       leo 	co = 0;
      1.1       leo 	cs = 0;
      1.1       leo 	if (vs->x != vu->size.x || vs->y != vu->size.y)
      1.1       leo 		co = 1;
      1.1       leo
      1.1       leo 	if (vs->width != vu->size.width || vs->height != vu->size.height ||
      1.1       leo 	    vs->depth != vu->size.depth)
      1.1       leo 		cs = 1;
      1.1       leo
      1.1       leo 	if (cs == 0 && co == 0)
      1.1       leo 		return(0);
      1.1       leo
      1.1       leo 	ns.width  = vs->width;
      1.1       leo 	ns.height = vs->height;
      1.1       leo
      1.4       leo 	if((dmode = grf_get_best_mode(&ns, vs->depth)) != NULL) {
      1.4       leo 		/*
      1.4       leo 		 * If we can't do better, leave it
      1.4       leo 		 */
      1.4       leo 		if(dmode == vu->view->mode)
      1.4       leo 			return(0);
      1.4       leo 	}
      1.4       leo 	new = grf_alloc_view(dmode, &ns, vs->depth);
      1.1       leo 	if (new == NULL)
      1.1       leo 		return(ENOMEM);
      1.1       leo
      1.1       leo 	old = vu->view;
      1.1       leo 	vu->view = new;
      1.1       leo 	vu->size.x = new->display.x;
      1.1       leo 	vu->size.y = new->display.y;
      1.1       leo 	vu->size.width = new->display.width;
      1.1       leo 	vu->size.height = new->display.height;
      1.1       leo 	vu->size.depth = new->bitmap->depth;
      1.1       leo
      1.1       leo 	/*
      1.1       leo 	 * we need a custom remove here to avoid letting
      1.1       leo 	 * another view display mark as not added or displayed
      1.1       leo 	 */
      1.1       leo 	if (vu->flags & VUF_DISPLAY) {
      1.1       leo 		vu->flags &= ~(VUF_ADDED|VUF_DISPLAY);
      1.1       leo 		view_display(vu);
      1.1       leo 	}
      1.1       leo 	grf_free_view(old);
      1.1       leo 	return(0);
      1.1       leo }
      1.1       leo
      1.2       leo static int
      1.2       leo view_get_colormap (vu, ucm)
      1.2       leo struct view_softc	*vu;
      1.2       leo colormap_t		*ucm;
      1.2       leo {
      1.2       leo 	int	error;
      1.2       leo 	long	*cme;
      1.2       leo 	long	*uep;
      1.2       leo
      1.2       leo 	if(ucm->size > MAX_CENTRIES)
      1.2       leo 		return(EINVAL);
      1.2       leo
      1.2       leo 	/* add one incase of zero, ick. */
      1.2       leo 	cme = malloc(sizeof(ucm->entry[0])*(ucm->size+1), M_IOCTLOPS,M_WAITOK);
      1.2       leo 	if (cme == NULL)
      1.2       leo 		return(ENOMEM);
      1.2       leo
      1.2       leo 	error      = 0;
      1.2       leo 	uep        = ucm->entry;
      1.2       leo 	ucm->entry = cme;	  /* set entry to out alloc. */
      1.2       leo 	if(vu->view == NULL || grf_get_colormap(vu->view, ucm))
      1.2       leo 		error = EINVAL;
      1.2       leo 	else error = copyout(cme, uep, sizeof(ucm->entry[0]) * ucm->size);
      1.2       leo 	ucm->entry = uep;	  /* set entry back to users. */
      1.2       leo 	free(cme, M_IOCTLOPS);
      1.2       leo 	return(error);
      1.2       leo }
      1.2       leo
      1.2       leo static int
      1.2       leo view_set_colormap(vu, ucm)
      1.2       leo struct view_softc	*vu;
      1.2       leo colormap_t		*ucm;
      1.2       leo {
      1.2       leo 	colormap_t	*cm;
      1.2       leo 	int		error = 0;
      1.2       leo
      1.2       leo 	if(ucm->size > MAX_CENTRIES)
      1.2       leo 		return(EINVAL);
      1.2       leo
      1.2       leo 	cm = malloc(sizeof(ucm->entry[0])*ucm->size + sizeof(*cm), M_IOCTLOPS,
      1.2       leo 								M_WAITOK);
      1.2       leo 	if(cm == NULL)
      1.2       leo 		return(ENOMEM);
      1.2       leo
      1.2       leo 	bcopy(ucm, cm, sizeof(colormap_t));
      1.2       leo 	cm->entry = (long *)&cm[1];		 /* table directly after. */
      1.2       leo 	if (((error =
      1.2       leo 	    copyin(ucm->entry,cm->entry,sizeof(ucm->entry[0])*ucm->size)) == 0)
      1.2       leo 	    && (vu->view == NULL || grf_use_colormap(vu->view, cm)))
      1.2       leo 		error = EINVAL;
      1.2       leo 	free(cm, M_IOCTLOPS);
      1.2       leo 	return(error);
      1.2       leo }
      1.2       leo
      1.1       leo /*
      1.1       leo  *  functions made available by conf.c
      1.1       leo  */
      1.1       leo
      1.1       leo /*ARGSUSED*/
      1.8       leo int
      1.8       leo viewopen(dev, flags, mode, p)
      1.8       leo dev_t		dev;
      1.8       leo int		flags;
      1.8       leo int		mode;
      1.8       leo struct proc	*p;
      1.1       leo {
      1.1       leo 	dimen_t			size;
      1.1       leo 	struct view_softc	*vu;
      1.1       leo
      1.1       leo 	vu = &views[minor(dev)];
      1.1       leo
      1.1       leo 	if(minor(dev) >= NVIEW)
      1.1       leo 		return(EXDEV);
      1.1       leo 	if(vu->flags & VUF_OPEN)
      1.1       leo 		return(EBUSY);
      1.1       leo
      1.1       leo 	vu->size.x = view_default_x;
      1.1       leo 	vu->size.y = view_default_y;
      1.1       leo 	size.width = vu->size.width = view_default_width;
      1.1       leo 	size.height = vu->size.height = view_default_height;
      1.1       leo 	vu->size.depth = view_default_depth;
      1.1       leo 	vu->view = grf_alloc_view(NULL, &size, vu->size.depth);
      1.1       leo 	if (vu->view == NULL)
      1.1       leo 		return(ENOMEM);
      1.1       leo
      1.1       leo 	vu->size.x = vu->view->display.x;
      1.1       leo 	vu->size.y = vu->view->display.y;
      1.1       leo 	vu->size.width = vu->view->display.width;
      1.1       leo 	vu->size.height = vu->view->display.height;
      1.1       leo 	vu->size.depth = vu->view->bitmap->depth;
      1.1       leo        	vu->flags |= VUF_OPEN;
      1.1       leo        	return(0);
      1.1       leo }
      1.1       leo
      1.1       leo /*ARGSUSED*/
      1.8       leo int
      1.8       leo viewclose (dev, flags, mode, p)
      1.8       leo 	dev_t		dev;
      1.8       leo 	int 		flags;
      1.8       leo 	int		mode;
      1.8       leo 	struct proc	*p;
      1.1       leo {
      1.1       leo 	struct view_softc *vu;
      1.1       leo
      1.1       leo 	vu = &views[minor(dev)];
      1.1       leo
      1.1       leo 	if ((vu->flags & VUF_OPEN) == 0)
      1.8       leo 		return (0); /* XXX not open? */
      1.1       leo 	view_remove (vu);
      1.1       leo 	grf_free_view (vu->view);
      1.1       leo 	vu->flags = 0;
      1.1       leo 	vu->view = NULL;
      1.8       leo 	return (0);
      1.1       leo }
      1.1       leo
      1.1       leo
      1.1       leo /*ARGSUSED*/
      1.1       leo int
      1.1       leo viewioctl (dev, cmd, data, flag, p)
      1.1       leo dev_t		dev;
      1.1       leo u_long		cmd;
      1.1       leo caddr_t		data;
      1.1       leo int		flag;
      1.1       leo struct proc	*p;
      1.1       leo {
      1.1       leo 	struct view_softc	*vu;
      1.1       leo 	bmap_t			*bm;
      1.1       leo 	int			error;
      1.1       leo
      1.1       leo 	vu = &views[minor(dev)];
      1.1       leo 	error = 0;
      1.1       leo
      1.1       leo 	switch (cmd) {
      1.1       leo 	case VIOCDISPLAY:
      1.1       leo 		view_display(vu);
      1.1       leo 		break;
      1.1       leo 	case VIOCREMOVE:
      1.1       leo 		view_remove(vu);
      1.1       leo 		break;
      1.1       leo 	case VIOCGSIZE:
      1.1       leo 		bcopy(&vu->size, data, sizeof (struct view_size));
      1.1       leo 		break;
      1.1       leo 	case VIOCSSIZE:
      1.1       leo 		error = view_setsize(vu, (struct view_size *)data);
      1.1       leo 		break;
      1.1       leo 	case VIOCGBMAP:
      1.1       leo 		bm = (bmap_t *)data;
      1.1       leo 		bcopy(vu->view->bitmap, bm, sizeof(bmap_t));
      1.8       leo 		if (p != NOPROC) {
      1.1       leo 			bm->plane      = NULL;
      1.1       leo 			bm->hw_address = NULL;
      1.9       leo 			bm->regs       = NULL;
      1.9       leo 			bm->hw_regs    = NULL;
      1.1       leo 		}
      1.1       leo 		break;
      1.1       leo 	case VIOCGCMAP:
      1.1       leo 		error = view_get_colormap(vu, (colormap_t *)data);
      1.1       leo 		break;
      1.1       leo 	case VIOCSCMAP:
      1.1       leo 		error = view_set_colormap(vu, (colormap_t *)data);
      1.1       leo 		break;
      1.1       leo 	default:
      1.1       leo 		error = EINVAL;
      1.1       leo 		break;
      1.1       leo 	}
      1.1       leo 	return(error);
      1.1       leo }
      1.1       leo
      1.1       leo /*ARGSUSED*/
1.16.18.1    simonb paddr_t
      1.3   mycroft viewmmap(dev, off, prot)
1.16.18.1    simonb 	dev_t	dev;
1.16.18.1    simonb 	off_t	off;
1.16.18.1    simonb 	int	prot;
      1.1       leo {
      1.1       leo 	struct view_softc	*vu;
      1.1       leo 	bmap_t			*bm;
      1.1       leo 	u_char			*bmd_start;
     1.16    thomas 	u_long			bmd_lin, bmd_vga;
      1.1       leo
      1.1       leo 	vu = &views[minor(dev)];
      1.1       leo 	bm = vu->view->bitmap;
      1.1       leo 	bmd_start = bm->hw_address;
     1.16    thomas 	bmd_lin = bm->lin_base;
     1.16    thomas 	bmd_vga = bm->vga_base;
     1.14       leo
     1.14       leo 	/*
     1.14       leo 	 * control registers
     1.14       leo 	 */
     1.14       leo 	if (off >= 0 && off < bm->reg_size)
1.16.18.1    simonb 		return(((paddr_t)bm->hw_regs + off) >> PGSHIFT);
      1.1       leo
     1.16    thomas 	/*
     1.16    thomas 	 * VGA memory
     1.16    thomas 	 */
     1.16    thomas 	if (off >= bmd_vga && off < (bmd_vga + bm->vga_mappable))
1.16.18.1    simonb 		return(((paddr_t)bm->vga_address - bmd_vga + off) >> PGSHIFT);
     1.16    thomas
     1.16    thomas 	/*
     1.16    thomas 	 * frame buffer
     1.16    thomas 	 */
     1.16    thomas 	if (off >= bmd_lin && off < (bmd_lin + bm->phys_mappable))
1.16.18.1    simonb 		return(((paddr_t)bmd_start - bmd_lin + off) >> PGSHIFT);
      1.1       leo
      1.1       leo 	return(-1);
      1.1       leo }
      1.1       leo
      1.1       leo /*ARGSUSED*/
      1.1       leo int
     1.10       leo viewpoll(dev, events, p)
      1.8       leo dev_t		dev;
     1.10       leo int		events;
      1.8       leo struct proc	*p;
      1.1       leo {
     1.10       leo 	int revents = 0;
     1.10       leo
     1.10       leo 	if (events & (POLLOUT | POLLWRNORM))
     1.10       leo 		revents |= events & (POLLOUT | POLLWRNORM);
     1.10       leo 	return (revents);
      1.5       leo }
      1.5       leo
      1.5       leo view_t	*
      1.5       leo viewview(dev)
      1.5       leo dev_t	dev;
      1.5       leo {
      1.5       leo 	return(views[minor(dev)].view);
      1.1       leo }