arm/iomd/vidc20config.c

1.26    bjh21 /*	$NetBSD: vidc20config.c,v 1.26 2006/08/19 13:34:15 bjh21 Exp $	*/
 1.1  reinoud
 1.1  reinoud /*
 1.1  reinoud  * Copyright (c) 2001 Reinoud Zandijk
 1.1  reinoud  * Copyright (c) 1996 Mark Brinicombe
 1.1  reinoud  * Copyright (c) 1996 Robert Black
 1.1  reinoud  * Copyright (c) 1994-1995 Melvyn Tang-Richardson
 1.1  reinoud  * Copyright (c) 1994-1995 RiscBSD kernel team
 1.1  reinoud  * All rights reserved.
 1.1  reinoud  *
 1.1  reinoud  * Redistribution and use in source and binary forms, with or without
 1.1  reinoud  * modification, are permitted provided that the following conditions
 1.1  reinoud  * are met:
 1.1  reinoud  * 1. Redistributions of source code must retain the above copyright
 1.1  reinoud  *    notice, this list of conditions and the following disclaimer.
 1.1  reinoud  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  reinoud  *    notice, this list of conditions and the following disclaimer in the
 1.1  reinoud  *    documentation and/or other materials provided with the distribution.
 1.1  reinoud  * 3. All advertising materials mentioning features or use of this software
 1.1  reinoud  *    must display the following acknowledgement:
 1.1  reinoud  *	This product includes software developed by the RiscBSD kernel team
 1.1  reinoud  * 4. The name of the company nor the name of the author may be used to
 1.1  reinoud  *    endorse or promote products derived from this software without specific
 1.1  reinoud  *    prior written permission.
 1.1  reinoud  *
 1.1  reinoud  * THIS SOFTWARE IS PROVIDED BY THE RISCBSD TEAM ``AS IS'' AND ANY EXPRESS
 1.1  reinoud  * OR IMPLIED  WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 1.1  reinoud  * WARRANTIES OF  MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 1.1  reinoud  * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE
 1.1  reinoud  * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1  reinoud  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1  reinoud  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1  reinoud  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1  reinoud  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1  reinoud  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 1.1  reinoud  * THE POSSIBILITY OF SUCH DAMAGE.
 1.1  reinoud  *
 1.1  reinoud  * NetBSD kernel project
 1.1  reinoud  *
 1.1  reinoud  * vidcvideo.c
 1.1  reinoud  *
 1.1  reinoud  * This file is the lower basis of the wscons driver for VIDC based ARM machines.
 1.1  reinoud  * It features the initialisation and all VIDC writing and keeps in internal state
 1.1  reinoud  * copy.
 1.1  reinoud  * Its currenly set up as a library file and not as a device; it could be named
 1.1  reinoud  * vidcvideo0 eventually.
 1.1  reinoud  */
 1.1  reinoud
 1.1  reinoud #include <sys/cdefs.h>
 1.7    bjh21
1.26    bjh21 __KERNEL_RCSID(0, "$NetBSD: vidc20config.c,v 1.26 2006/08/19 13:34:15 bjh21 Exp $");
 1.7    bjh21
 1.1  reinoud #include <sys/types.h>
 1.1  reinoud #include <sys/param.h>
 1.1  reinoud #include <arm/iomd/vidc.h>
 1.3  thorpej #include <arm/arm32/katelib.h>
 1.1  reinoud #include <machine/bootconfig.h>
 1.4  thorpej #include <machine/intr.h>
 1.1  reinoud
 1.1  reinoud #include <sys/systm.h>
 1.1  reinoud #include <sys/device.h>
 1.1  reinoud #include <uvm/uvm_extern.h>
 1.1  reinoud
 1.1  reinoud #include <arm/iomd/iomdreg.h>
 1.1  reinoud #include <arm/iomd/iomdvar.h>
 1.1  reinoud #include <arm/iomd/vidc20config.h>
 1.1  reinoud
 1.9  reinoud
 1.1  reinoud /*
 1.1  reinoud  * A structure containing ALL the information required to restore
 1.1  reinoud  * the VIDC20 to any given state.  ALL vidc transactions should
 1.1  reinoud  * go through these procedures, which record the vidc's state.
 1.1  reinoud  * it may be an idea to set the permissions of the vidc base address
 1.1  reinoud  * so we get a fault, so the fault routine can record the state but
 1.1  reinoud  * I guess that's not really necessary for the time being, since we
 1.1  reinoud  * can make the kernel more secure later on.  Also, it is possible
 1.1  reinoud  * to write a routine to allow 'reading' of the vidc registers.
 1.1  reinoud  */
 1.1  reinoud
 1.1  reinoud static struct vidc_state vidc_lookup = {
 1.1  reinoud 	{ 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,
 1.1  reinoud           0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,
 1.1  reinoud           0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,
 1.1  reinoud           0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,
 1.1  reinoud           0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,
 1.1  reinoud           0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,
 1.1  reinoud           0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,
 1.1  reinoud           0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0
 1.1  reinoud 	},
 1.1  reinoud
 1.1  reinoud 	VIDC_PALREG,
 1.1  reinoud 	VIDC_BCOL,
 1.1  reinoud 	VIDC_CP1 ,
 1.1  reinoud 	VIDC_CP2,
 1.1  reinoud 	VIDC_CP3,
 1.1  reinoud 	VIDC_HCR,
 1.1  reinoud 	VIDC_HSWR,
 1.1  reinoud 	VIDC_HBSR,
 1.1  reinoud 	VIDC_HDSR,
 1.1  reinoud 	VIDC_HDER,
 1.1  reinoud 	VIDC_HBER,
 1.1  reinoud 	VIDC_HCSR,
 1.1  reinoud 	VIDC_HIR,
 1.1  reinoud 	VIDC_VCR,
 1.1  reinoud 	VIDC_VSWR,
 1.1  reinoud 	VIDC_VBSR,
 1.1  reinoud 	VIDC_VDSR,
 1.1  reinoud 	VIDC_VDER,
 1.1  reinoud 	VIDC_VBER,
 1.1  reinoud 	VIDC_VCSR,
 1.1  reinoud 	VIDC_VCER,
 1.1  reinoud 	VIDC_EREG,
 1.1  reinoud 	VIDC_FSYNREG,
 1.1  reinoud 	VIDC_CONREG,
 1.1  reinoud 	VIDC_DCTL
 1.1  reinoud };
 1.1  reinoud
 1.1  reinoud struct vidc_state vidc_current[1];
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /*
 1.1  reinoud  * XXX global display variables XXX ... should be a structure
 1.1  reinoud  */
 1.1  reinoud static int cold_init = 0;		/* flags initialisation */
 1.1  reinoud extern videomemory_t videomemory;
 1.1  reinoud
1.25    bjh21 static struct vidc_mode vidc_currentmode;
 1.1  reinoud
 1.1  reinoud unsigned int dispstart;
 1.1  reinoud unsigned int dispsize;
 1.1  reinoud unsigned int dispbase;
 1.1  reinoud unsigned int dispend;
 1.1  reinoud unsigned int ptov;
 1.1  reinoud unsigned int vmem_base;
 1.1  reinoud unsigned int phys_base;
 1.1  reinoud unsigned int transfersize;
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /* cursor stuff */
 1.1  reinoud char *cursor_normal;
 1.1  reinoud char *cursor_transparent;
 1.9  reinoud int   p_cursor_normal;
 1.9  reinoud int   p_cursor_transparent;
 1.9  reinoud int   cursor_width;
 1.9  reinoud int   cursor_height;
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /*
 1.1  reinoud  * VIDC mode definitions
 1.1  reinoud  * generated from RISC OS mode definition file by an `awk' script
 1.1  reinoud  */
1.25    bjh21 extern const struct videomode vidc_videomode_list[];
1.25    bjh21 extern const int vidc_videomode_count;
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /*
 1.1  reinoud  * configuration printing
 1.1  reinoud  *
 1.1  reinoud  */
 1.1  reinoud
 1.1  reinoud void
 1.1  reinoud vidcvideo_printdetails(void)
 1.1  reinoud {
 1.1  reinoud         printf(": refclk=%dMHz %dKB %s ", (vidc_fref / 1000000),
 1.1  reinoud             videomemory.vidm_size / 1024,
 1.1  reinoud             (videomemory.vidm_type == VIDEOMEM_TYPE_VRAM) ? "VRAM" : "DRAM");
 1.1  reinoud }
 1.1  reinoud
 1.9  reinoud
 1.1  reinoud /*
 1.1  reinoud  * Common functions to directly access VIDC registers
 1.1  reinoud  */
 1.1  reinoud int
1.21    bjh21 vidcvideo_write(u_int reg, int value)
 1.1  reinoud {
 1.1  reinoud 	int counter;
 1.1  reinoud
 1.1  reinoud 	int *current;
 1.1  reinoud 	int *tab;
 1.1  reinoud
 1.1  reinoud 	tab 	= (int *)&vidc_lookup;
 1.1  reinoud 	current = (int *)vidc_current;
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud 	/*
 1.1  reinoud 	 * OK, the VIDC_PALETTE register is handled differently
 1.1  reinoud 	 * to the others on the VIDC, so take that into account here
 1.1  reinoud 	 */
1.21    bjh21 	if (reg == VIDC_PALREG) {
 1.1  reinoud 		vidc_current->palreg = 0;
 1.1  reinoud 		WriteWord(vidc_base, reg | value);
 1.1  reinoud 		return 0;
 1.1  reinoud 	}
 1.1  reinoud
1.21    bjh21 	if (reg == VIDC_PALETTE) {
 1.1  reinoud 		WriteWord(vidc_base, reg | value);
 1.1  reinoud 		vidc_current->palette[vidc_current->palreg] = value;
 1.1  reinoud 		vidc_current->palreg++;
 1.1  reinoud 		vidc_current->palreg = vidc_current->palreg & 0xff;
 1.1  reinoud 		return 0;
 1.1  reinoud 	}
 1.1  reinoud
 1.1  reinoud 	/*
 1.1  reinoud 	 * Undefine SAFER if you wish to speed things up (a little)
 1.1  reinoud 	 * although this means the function will assume things abou
 1.1  reinoud 	 * the structure of vidc_state. i.e. the first 256 words are
 1.1  reinoud 	 * the palette array
 1.1  reinoud 	 */
 1.1  reinoud
 1.1  reinoud #define SAFER
 1.1  reinoud
 1.1  reinoud #ifdef 	SAFER
 1.1  reinoud #define INITVALUE 0
 1.1  reinoud #else
 1.1  reinoud #define INITVALUE 256
 1.1  reinoud #endif
 1.1  reinoud
1.21    bjh21 	for (counter = INITVALUE;
1.21    bjh21 	     counter <= sizeof(struct vidc_state);
1.21    bjh21 	     counter++) {
1.21    bjh21 		if (reg == tab[counter]) {
 1.1  reinoud 			WriteWord ( vidc_base, reg | value );
 1.1  reinoud 			current[counter] = value;
 1.1  reinoud 			return 0;
 1.1  reinoud 		}
 1.1  reinoud 	}
 1.1  reinoud 	return -1;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud void
1.21    bjh21 vidcvideo_setpalette(struct vidc_state *vidc)
 1.1  reinoud {
 1.1  reinoud 	int counter = 0;
 1.1  reinoud
 1.1  reinoud 	vidcvideo_write(VIDC_PALREG, 0x00000000);
1.15  reinoud 	for (counter = 0; counter <= 255; counter++)
 1.1  reinoud 		vidcvideo_write(VIDC_PALETTE, vidc->palette[counter]);
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud void
1.21    bjh21 vidcvideo_setstate(struct vidc_state *vidc)
 1.1  reinoud {
 1.9  reinoud 	vidcvideo_write ( VIDC_PALREG,		vidc->palreg 	);
 1.1  reinoud 	vidcvideo_write ( VIDC_BCOL,		vidc->bcol	);
 1.1  reinoud 	vidcvideo_write ( VIDC_CP1,		vidc->cp1	);
 1.1  reinoud 	vidcvideo_write ( VIDC_CP2,		vidc->cp2	);
 1.1  reinoud 	vidcvideo_write ( VIDC_CP3,		vidc->cp3	);
 1.1  reinoud 	vidcvideo_write ( VIDC_HCR,		vidc->hcr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_HSWR,		vidc->hswr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_HBSR,		vidc->hbsr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_HDSR,		vidc->hdsr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_HDER,		vidc->hder	);
 1.1  reinoud 	vidcvideo_write ( VIDC_HBER,		vidc->hber	);
 1.1  reinoud 	vidcvideo_write ( VIDC_HCSR,		vidc->hcsr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_HIR,		vidc->hir	);
 1.1  reinoud 	vidcvideo_write ( VIDC_VCR,		vidc->vcr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_VSWR,		vidc->vswr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_VBSR,		vidc->vbsr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_VDSR,		vidc->vdsr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_VDER,		vidc->vder	);
 1.1  reinoud 	vidcvideo_write ( VIDC_VBER,		vidc->vber	);
 1.1  reinoud 	vidcvideo_write ( VIDC_VCSR,		vidc->vcsr	);
 1.1  reinoud 	vidcvideo_write ( VIDC_VCER,		vidc->vcer	);
 1.1  reinoud /*
 1.1  reinoud  * Right, dunno what to set these to yet, but let's keep RiscOS's
 1.1  reinoud  * ones for now, until the time is right to finish this code
 1.1  reinoud  */
 1.1  reinoud
 1.1  reinoud /*	vidcvideo_write ( VIDC_EREG,		vidc->ereg	);	*/
 1.1  reinoud /*	vidcvideo_write ( VIDC_FSYNREG,	vidc->fsynreg	);	*/
 1.1  reinoud /*	vidcvideo_write ( VIDC_CONREG,	vidc->conreg	);	*/
 1.1  reinoud /*	vidcvideo_write ( VIDC_DCTL,		vidc->dctl	);	*/
 1.1  reinoud
1.15  reinoud 	vidcvideo_setpalette(vidc);
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud void
1.21    bjh21 vidcvideo_getstate(struct vidc_state *vidc)
 1.1  reinoud {
1.21    bjh21
 1.1  reinoud 	*vidc = *vidc_current;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud void
1.21    bjh21 vidcvideo_getmode(struct vidc_mode *mode)
 1.1  reinoud {
1.21    bjh21
1.25    bjh21 	*mode = vidc_currentmode;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud static int
 1.1  reinoud vidcvideo_coldinit(void)
 1.1  reinoud {
1.26    bjh21 	struct videomode const *modes;
1.26    bjh21 	int count;
 1.1  reinoud 	int found;
1.23    bjh21 	int i;
1.24    bjh21 	unsigned framerate;
 1.1  reinoud
 1.1  reinoud 	/* Blank out the cursor */
 1.1  reinoud
 1.1  reinoud 	vidcvideo_write(VIDC_CP1, 0x0);
 1.1  reinoud 	vidcvideo_write(VIDC_CP2, 0x0);
 1.1  reinoud 	vidcvideo_write(VIDC_CP3, 0x0);
 1.1  reinoud
 1.1  reinoud 	dispbase = vmem_base = dispstart = videomemory.vidm_vbase;
 1.1  reinoud 	phys_base = videomemory.vidm_pbase;
 1.1  reinoud
 1.1  reinoud 	/* Nut - should be using videomemory.vidm_size - mark */
 1.1  reinoud 	if (videomemory.vidm_type == VIDEOMEM_TYPE_DRAM) {
 1.1  reinoud 		dispsize = videomemory.vidm_size;
 1.1  reinoud 		transfersize = 16;
 1.1  reinoud 	} else {
1.16  thorpej 		dispsize = bootconfig.vram[0].pages * PAGE_SIZE;
 1.1  reinoud 		transfersize = dispsize >> 10;
1.21    bjh21 	}
 1.1  reinoud
 1.1  reinoud 	ptov = dispbase - phys_base;
 1.1  reinoud
 1.1  reinoud 	dispend = dispstart+dispsize;
 1.1  reinoud
1.26    bjh21 	if (vidc_videomode_count > 0) {
1.26    bjh21 		modes = vidc_videomode_list;
1.26    bjh21 		count = vidc_videomode_count;
1.26    bjh21 	} else {
1.26    bjh21 		modes = videomode_list;
1.26    bjh21 		count = videomode_count;
1.26    bjh21 	}
1.26    bjh21
 1.1  reinoud 	/* try to find the current mode from the bootloader in my table */
1.26    bjh21 	vidc_currentmode.timings = modes[0];
 1.1  reinoud 	found = 0;
1.26    bjh21 	for (i = 0; i < count; i++) {
1.24    bjh21 		/*
1.24    bjh21 		 * We jump through a few hoops here to ensure that we
1.24    bjh21 		 * round roughly to the nearest integer without too
1.24    bjh21 		 * much danger of overflow.
1.24    bjh21 		 */
1.26    bjh21 		framerate = (modes[i].dot_clock * 1000 /
1.26    bjh21 		    modes[i].htotal * 2 / modes[i].vtotal + 1) / 2;
1.26    bjh21   		if (modes[i].hdisplay == bootconfig.width + 1
1.26    bjh21   		    && modes[i].vdisplay == bootconfig.height + 1
1.24    bjh21 		    && framerate == bootconfig.framerate) {
1.26    bjh21 			vidc_currentmode.timings = modes[i];
 1.1  reinoud 			found = 1;
 1.1  reinoud 		}
 1.1  reinoud 	}
 1.1  reinoud
 1.1  reinoud 	/* if not found choose first mode but dont be picky on the framerate */
 1.1  reinoud 	if (!found) {
1.26    bjh21 		for (i = 0; i < count; i++) {
1.26    bjh21 			if (modes[i].hdisplay == bootconfig.width + 1
1.26    bjh21  			    && modes[i].vdisplay == bootconfig.height + 1) {
1.26    bjh21  				vidc_currentmode.timings = modes[i];
 1.1  reinoud  				found = 1;
 1.1  reinoud  			}
 1.1  reinoud  		}
 1.1  reinoud 	}
 1.1  reinoud
1.25    bjh21 	vidc_currentmode.log2_bpp = bootconfig.log2_bpp;
 1.1  reinoud
 1.1  reinoud 	dispstart = dispbase;
 1.1  reinoud 	dispend = dispstart+dispsize;
 1.1  reinoud
 1.1  reinoud 	IOMD_WRITE_WORD(IOMD_VIDINIT, dispstart-ptov);
 1.1  reinoud 	IOMD_WRITE_WORD(IOMD_VIDSTART, dispstart-ptov);
 1.1  reinoud 	IOMD_WRITE_WORD(IOMD_VIDEND, (dispend-transfersize)-ptov);
 1.1  reinoud 	return 0;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /* simple function to abstract vidc variables ; returns virt start address of screen */
 1.1  reinoud /* XXX asumption that video memory is mapped in twice */
1.21    bjh21 void *vidcvideo_hwscroll(int bytes)
1.21    bjh21 {
1.21    bjh21
 1.1  reinoud 	dispstart += bytes;
 1.1  reinoud 	if (dispstart >= dispbase + dispsize) dispstart -= dispsize;
 1.1  reinoud 	if (dispstart <  dispbase)            dispstart += dispsize;
 1.1  reinoud 	dispend = dispstart+dispsize;
 1.1  reinoud
 1.1  reinoud 	/* return the start of the bit map of the screen (left top) */
1.21    bjh21 	return (void *)dispstart;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /* reset the HW scroll to be at the start for the benefit of f.e. X */
1.21    bjh21 void *vidcvideo_hwscroll_reset(void)
1.21    bjh21 {
1.21    bjh21 	void *cookie = (void *)dispstart;
 1.1  reinoud
 1.1  reinoud 	dispstart = dispbase;
 1.1  reinoud 	dispend = dispstart + dispsize;
 1.1  reinoud 	return cookie;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /* put HW scroll back to where it was */
1.21    bjh21 void *vidcvideo_hwscroll_back(void *cookie)
1.21    bjh21 {
1.21    bjh21
1.21    bjh21 	dispstart = (int)cookie;
 1.1  reinoud 	dispend = dispstart + dispsize;
 1.1  reinoud 	return cookie;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.9  reinoud /* this function is to be called perferably at vsync */
1.21    bjh21 void vidcvideo_progr_scroll(void)
1.21    bjh21 {
1.21    bjh21
 1.1  reinoud 	IOMD_WRITE_WORD(IOMD_VIDINIT, dispstart-ptov);
 1.1  reinoud 	IOMD_WRITE_WORD(IOMD_VIDSTART, dispstart-ptov);
 1.1  reinoud 	IOMD_WRITE_WORD(IOMD_VIDEND, (dispend-transfersize)-ptov);
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /*
 1.1  reinoud  * Select a new mode by reprogramming the VIDC chip
 1.1  reinoud  * XXX this part is known not to work for 32bpp
 1.1  reinoud  */
 1.1  reinoud
 1.1  reinoud struct vidc_mode newmode;
 1.1  reinoud
 1.1  reinoud static const int bpp_mask_table[] = {
 1.1  reinoud 	0,  /* 1bpp */
 1.1  reinoud 	1,  /* 2bpp */
 1.1  reinoud 	2,  /* 4bpp */
 1.1  reinoud 	3,  /* 8bpp */
 1.1  reinoud 	4,  /* 16bpp */
 1.1  reinoud 	6   /* 32bpp */
 1.1  reinoud };
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud void
 1.1  reinoud vidcvideo_setmode(struct vidc_mode *mode)
 1.1  reinoud {
1.23    bjh21 	struct videomode *vm;
 1.1  reinoud 	int bpp_mask;
 1.1  reinoud         int ereg;
 1.5    bjh21 	int best_r, best_v;
 1.5    bjh21 	int least_error;
 1.5    bjh21 	int r, v, f;
 1.1  reinoud
 1.1  reinoud 	/*
1.21    bjh21 	 * Find out what bit mask we need to or with the vidc20
1.21    bjh21 	 * control register in order to generate the desired number of
1.21    bjh21 	 * bits per pixel.  log_bpp is log base 2 of the number of
1.21    bjh21 	 * bits per pixel.
 1.1  reinoud 	 */
 1.1  reinoud
 1.1  reinoud 	bpp_mask = bpp_mask_table[mode->log2_bpp];
 1.1  reinoud
1.25    bjh21 	vidc_currentmode = *mode;
1.25    bjh21 	vm = &vidc_currentmode.timings;
 1.1  reinoud
 1.5    bjh21 	least_error = INT_MAX;
 1.5    bjh21 	best_r = 0; best_v = 0;
 1.5    bjh21
 1.5    bjh21 	for (v = 63; v > 0; v--) {
 1.5    bjh21 		for (r = 63; r > 0; r--) {
 1.5    bjh21 			f = ((v * vidc_fref) /1000) / r;
1.23    bjh21 			if (least_error >= abs(f - vm->dot_clock)) {
1.23    bjh21 				least_error =  abs(f - vm->dot_clock);
 1.5    bjh21 				best_r = r;
 1.5    bjh21 				best_v = v;
 1.1  reinoud 			}
 1.1  reinoud 		}
 1.5    bjh21 	}
 1.1  reinoud
 1.5    bjh21 	if (best_r > 63) best_r=63;
 1.5    bjh21 	if (best_v > 63) best_v=63;
 1.5    bjh21 	if (best_r < 1)  best_r= 1;
 1.5    bjh21 	if (best_v < 1)  best_v= 1;
 1.1  reinoud
 1.2  reinoud 	vidcvideo_write(VIDC_FSYNREG, (best_v-1)<<8 | (best_r-1)<<0);
 1.1  reinoud
1.23    bjh21 	/*
1.23    bjh21 	 * The translation from struct videomode to VIDC timings is made
1.23    bjh21 	 * fun by the fact that the VIDC counts from the start of the sync
1.23    bjh21 	 * pulse while struct videomode counts from the start of the display.
1.23    bjh21 	 */
1.23    bjh21 	vidcvideo_write(VIDC_HSWR, (vm->hsync_end - vm->hsync_start - 8) & ~1);
1.23    bjh21 	vidcvideo_write(VIDC_HBSR, (vm->htotal - vm->hsync_start - 12) & ~1);
1.23    bjh21 	vidcvideo_write(VIDC_HDSR, (vm->htotal - vm->hsync_start - 18) & ~1);
1.23    bjh21 	vidcvideo_write(VIDC_HDER,
1.23    bjh21 	    (vm->htotal - vm->hsync_start + vm->hdisplay - 18) & ~1);
1.23    bjh21 	vidcvideo_write(VIDC_HBER,
1.23    bjh21 	    (vm->htotal - vm->hsync_start + vm->hdisplay - 12) & ~1);
1.23    bjh21 	vidcvideo_write(VIDC_HCR, (vm->htotal - 8) & ~3);
1.23    bjh21
1.23    bjh21 	vidcvideo_write(VIDC_VSWR, vm->vsync_end - vm->vsync_start - 1);
1.23    bjh21 	vidcvideo_write(VIDC_VBSR, vm->vtotal - vm->vsync_start - 1);
1.23    bjh21 	vidcvideo_write(VIDC_VDSR, vm->vtotal - vm->vsync_start - 1);
1.23    bjh21 	vidcvideo_write(VIDC_VDER,
1.23    bjh21 	    vm->vtotal - vm->vsync_start + vm->vdisplay - 1);
1.23    bjh21 	vidcvideo_write(VIDC_VBER,
1.23    bjh21 	    vm->vtotal - vm->vsync_start + vm->vdisplay - 1);
1.23    bjh21 	/* XXX VIDC20 data sheet say to subtract 2 */
1.23    bjh21 	vidcvideo_write(VIDC_VCR, vm->vtotal - 1);
1.23    bjh21
1.23    bjh21 	IOMD_WRITE_WORD(IOMD_FSIZE, vm->vdisplay - 1);
 1.1  reinoud
 1.1  reinoud 	if (dispsize <= 1024*1024)
1.23    bjh21 		vidcvideo_write(VIDC_DCTL, vm->hdisplay>>2 | 1<<16 | 1<<12);
 1.1  reinoud 	else
1.23    bjh21 		vidcvideo_write(VIDC_DCTL, vm->hdisplay>>2 | 3<<16 | 1<<12);
 1.1  reinoud
 1.1  reinoud 	ereg = 1<<12;
1.23    bjh21 	if (vm->flags & VID_NHSYNC)
 1.1  reinoud 		ereg |= 1<<16;
1.23    bjh21 	if (vm->flags & VID_NVSYNC)
 1.1  reinoud 		ereg |= 1<<18;
 1.1  reinoud 	vidcvideo_write(VIDC_EREG, ereg);
 1.1  reinoud 	if (dispsize > 1024*1024) {
1.23    bjh21 		if (vm->hdisplay >= 800)
 1.1  reinoud  			vidcvideo_write(VIDC_CONREG, 7<<8 | bpp_mask<<5);
 1.1  reinoud 		else
 1.1  reinoud 			vidcvideo_write(VIDC_CONREG, 6<<8 | bpp_mask<<5);
 1.1  reinoud 	} else {
 1.1  reinoud 		vidcvideo_write(VIDC_CONREG, 7<<8 | bpp_mask<<5);
 1.1  reinoud 	}
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.7    bjh21 #if 0
 1.1  reinoud /* not used for now */
 1.1  reinoud void
 1.1  reinoud vidcvideo_set_display_base(base)
 1.1  reinoud 	u_int base;
 1.1  reinoud {
 1.1  reinoud 	dispstart = dispstart-dispbase + base;
 1.1  reinoud 	dispbase = vmem_base = base;
 1.1  reinoud 	dispend = base + dispsize;
 1.1  reinoud 	ptov = dispbase - phys_base;
 1.1  reinoud }
 1.7    bjh21 #endif
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /*
 1.1  reinoud  * Main initialisation routine for now
 1.1  reinoud  */
 1.1  reinoud
 1.1  reinoud static int cursor_init = 0;
 1.1  reinoud
 1.1  reinoud int
 1.1  reinoud vidcvideo_init(void)
 1.1  reinoud {
 1.1  reinoud 	vidcvideo_coldinit();
 1.1  reinoud 	if (cold_init && (cursor_init == 0))
 1.1  reinoud 		/*	vidcvideo_flash_go() */;
 1.1  reinoud
 1.1  reinoud 	/* setting a mode goes wrong in 32 bpp ... 8 and 16 seem OK */
1.25    bjh21 	vidcvideo_setmode(&vidc_currentmode);
 1.1  reinoud 	vidcvideo_blank(0);			/* display on */
 1.1  reinoud
1.12    bjh21 	vidcvideo_stdpalette();
 1.1  reinoud
 1.1  reinoud 	if (cold_init == 0) {
 1.1  reinoud 		vidcvideo_write(VIDC_CP1, 0x0);
 1.1  reinoud 		vidcvideo_write(VIDC_CP2, 0x0);
 1.1  reinoud 		vidcvideo_write(VIDC_CP3, 0x0);
1.21    bjh21 	} else
 1.1  reinoud 		vidcvideo_cursor_init(CURSOR_MAX_WIDTH, CURSOR_MAX_HEIGHT);
 1.1  reinoud
1.21    bjh21 	cold_init = 1;
 1.1  reinoud 	return 0;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud /* reinitialise the vidcvideo */
 1.1  reinoud void
 1.1  reinoud vidcvideo_reinit()
 1.1  reinoud {
1.21    bjh21
 1.1  reinoud 	vidcvideo_coldinit();
1.25    bjh21 	vidcvideo_setmode(&vidc_currentmode);
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud int
 1.1  reinoud vidcvideo_cursor_init(int width, int height)
 1.1  reinoud {
 1.1  reinoud 	static char *cursor_data = NULL;
 1.1  reinoud 	int counter;
 1.1  reinoud 	int line;
 1.1  reinoud 	paddr_t pa;
 1.1  reinoud
 1.1  reinoud 	cursor_width  = width;
 1.1  reinoud 	cursor_height = height;
 1.1  reinoud
 1.1  reinoud 	if (!cursor_data) {
 1.1  reinoud 		/* Allocate cursor memory first time round */
1.19     yamt 		cursor_data = (char *)uvm_km_alloc(kernel_map, PAGE_SIZE, 0,
1.19     yamt 		    UVM_KMF_WIRED | UVM_KMF_ZERO);
 1.1  reinoud 		if (!cursor_data)
1.14   provos 			panic("Cannot allocate memory for hardware cursor");
 1.1  reinoud 		(void) pmap_extract(pmap_kernel(), (vaddr_t)cursor_data, &pa);
 1.1  reinoud 		IOMD_WRITE_WORD(IOMD_CURSINIT, pa);
 1.1  reinoud 	}
 1.1  reinoud
 1.1  reinoud 	/* Blank the cursor while initialising it's sprite */
 1.1  reinoud
 1.1  reinoud 	vidcvideo_write ( VIDC_CP1, 0x0 );
 1.1  reinoud 	vidcvideo_write ( VIDC_CP2, 0x0 );
 1.1  reinoud 	vidcvideo_write ( VIDC_CP3, 0x0 );
 1.1  reinoud
 1.1  reinoud  	cursor_normal       = cursor_data;
 1.1  reinoud 	cursor_transparent  = cursor_data + (height * width);
 1.1  reinoud
 1.1  reinoud  	cursor_transparent += 32;					/* ALIGN */
 1.1  reinoud 	cursor_transparent = (char *)((int)cursor_transparent & (~31) );
 1.1  reinoud
1.21    bjh21 	for ( line = 0; line<height; ++line ) {
1.21    bjh21 		for ( counter=0; counter<width/4;counter++ )
1.21    bjh21 			cursor_normal[line * width + counter]=0x55;		/* why 0x55 ? */
1.21    bjh21 		for ( ; counter<8; counter++ )
1.21    bjh21 			cursor_normal[line * width + counter]=0;
 1.1  reinoud 	}
 1.1  reinoud
1.21    bjh21 	for ( line = 0; line<height; ++line ) {
1.21    bjh21 		for ( counter=0; counter<width/4;counter++ )
1.21    bjh21 			cursor_transparent[line * width + counter]=0x00;
1.21    bjh21 		for ( ; counter<8; counter++ )
1.21    bjh21 			cursor_transparent[line * width + counter]=0;
 1.1  reinoud 	}
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud 	(void) pmap_extract(pmap_kernel(), (vaddr_t)cursor_normal,
1.17     matt 	    (void *)&p_cursor_normal);
 1.1  reinoud 	(void) pmap_extract(pmap_kernel(), (vaddr_t)cursor_transparent,
1.17     matt 	    (void *)&p_cursor_transparent);
 1.1  reinoud
1.21    bjh21 	memset(cursor_normal, 0x55, width*height);		/* white? */
1.21    bjh21 	memset(cursor_transparent, 0x00, width*height);/* to see the diffence */
 1.1  reinoud
 1.1  reinoud 	/* Ok, now program the cursor; should be blank */
 1.1  reinoud 	vidcvideo_enablecursor(0);
 1.1  reinoud
 1.1  reinoud         return 0;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud void
1.21    bjh21 vidcvideo_updatecursor(int xcur, int ycur)
 1.1  reinoud {
1.25    bjh21 	int frontporch = vidc_currentmode.timings.htotal -
1.25    bjh21 	    vidc_currentmode.timings.hsync_start;
1.25    bjh21 	int topporch   =  vidc_currentmode.timings.vtotal -
1.25    bjh21 	    vidc_currentmode.timings.vsync_start;
 1.1  reinoud
 1.1  reinoud 	vidcvideo_write(VIDC_HCSR, frontporch -17 + xcur);
1.21    bjh21 	vidcvideo_write(VIDC_VCSR, topporch   -2  + (ycur+1)-2 + 3 -
1.21    bjh21 	    cursor_height);
 1.1  reinoud 	vidcvideo_write(VIDC_VCER, topporch   -2  + (ycur+3)+2 + 3 );
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud
 1.1  reinoud void
1.21    bjh21 vidcvideo_enablecursor(int on)
 1.1  reinoud {
1.21    bjh21
1.21    bjh21 	if (on)
 1.1  reinoud 		IOMD_WRITE_WORD(IOMD_CURSINIT,p_cursor_normal);
1.21    bjh21 	else
 1.1  reinoud 		IOMD_WRITE_WORD(IOMD_CURSINIT,p_cursor_transparent);
 1.1  reinoud 	vidcvideo_write ( VIDC_CP1, 0xffffff );		/* enable */
 1.1  reinoud }
 1.1  reinoud
1.11    bjh21
1.12    bjh21 void
1.12    bjh21 vidcvideo_stdpalette()
1.11    bjh21 {
1.12    bjh21 	int i;
1.11    bjh21
1.25    bjh21 	switch (vidc_currentmode.log2_bpp) {
1.12    bjh21 	case 0: /* 1 bpp */
1.12    bjh21 	case 1: /* 2 bpp */
1.12    bjh21 	case 2: /* 4 bpp */
1.12    bjh21 	case 3: /* 8 bpp */
1.12    bjh21 		vidcvideo_write(VIDC_PALREG, 0x00000000);
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(  0,   0,   0));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(255,   0,   0));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(  0, 255,   0));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(255, 255,   0));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(  0,   0, 255));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(255,   0, 255));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(  0, 255, 255));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(255, 255, 255));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(128, 128, 128));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(255, 128, 128));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(128, 255, 128));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(255, 255, 128));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(128, 128, 255));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(255, 128, 255));
1.12    bjh21 		vidcvideo_write(VIDC_PALETTE, VIDC_COL(255, 255, 255));
1.12    bjh21 		break;
1.12    bjh21 	case 4: /* 16 bpp */
1.12    bjh21 		/*
1.12    bjh21 		 * The use of the palette in 16-bit modes is quite
1.12    bjh21 		 * fun.  Comments in linux/drivers/video/acornfb.c
1.12    bjh21 		 * imply that it goes something like this:
1.12    bjh21 		 *
1.12    bjh21 		 * red   = LUT[pixel[7:0]].red
1.12    bjh21 		 * green = LUT[pixel[11:4]].green
1.12    bjh21 		 * blue  = LUT[pixel[15:8]].blue
1.12    bjh21 		 *
1.13    bjh21 		 * We use 6:5:5 R:G:B cos that's what Xarm32VIDC wants.
1.12    bjh21 		 */
1.13    bjh21 #define RBITS 6
1.13    bjh21 #define GBITS 5
1.13    bjh21 #define BBITS 5
1.12    bjh21 		vidcvideo_write(VIDC_PALREG, 0x00000000);
1.12    bjh21 		for (i = 0; i < 256; i++) {
1.13    bjh21 			int r, g, b;
1.12    bjh21
1.13    bjh21 			r = i & ((1 << RBITS) - 1);
1.13    bjh21 			g = (i >> (RBITS - 4)) & ((1 << GBITS) - 1);
1.13    bjh21 			b = (i >> (RBITS + GBITS - 8)) & ((1 << BBITS) - 1);
1.12    bjh21 			vidcvideo_write(VIDC_PALETTE,
1.13    bjh21 			    VIDC_COL(r << (8 - RBITS) | r >> (2 * RBITS - 8),
1.13    bjh21 				g << (8 - GBITS) | g >> (2 * GBITS - 8),
1.13    bjh21 				b << (8 - BBITS) | b >> (2 * BBITS - 8)));
1.12    bjh21 		}
1.12    bjh21 		break;
1.12    bjh21 	case 5: /* 32 bpp */
1.12    bjh21 		vidcvideo_write(VIDC_PALREG, 0x00000000);
1.12    bjh21 		for (i = 0; i < 256; i++)
1.12    bjh21 			vidcvideo_write(VIDC_PALETTE, VIDC_COL(i, i, i));
1.12    bjh21 		break;
1.12    bjh21 	}
1.11    bjh21 }
 1.1  reinoud
 1.1  reinoud int
1.21    bjh21 vidcvideo_blank(int video_off)
 1.1  reinoud {
 1.1  reinoud         int ereg;
 1.1  reinoud
 1.1  reinoud 	ereg = 1<<12;
1.25    bjh21 	if (vidc_currentmode.timings.flags & VID_NHSYNC)
 1.1  reinoud 		ereg |= 1<<16;
1.25    bjh21 	if (vidc_currentmode.timings.flags & VID_NVSYNC)
 1.1  reinoud 		ereg |= 1<<18;
 1.1  reinoud
1.21    bjh21 	if (!video_off)
 1.1  reinoud     		vidcvideo_write(VIDC_EREG, ereg);
1.21    bjh21 	else
 1.1  reinoud 		vidcvideo_write(VIDC_EREG, 0);
 1.1  reinoud 	return 0;
 1.1  reinoud }
 1.1  reinoud
 1.1  reinoud /* end of vidc20config.c */