dev/videomode/edid.c

1.9       jdc /* $NetBSD: edid.c,v 1.9 2011/04/09 18:18:28 jdc Exp $ */
1.1   gdamore
1.1   gdamore /*-
1.1   gdamore  * Copyright (c) 2006 Itronix Inc.
1.1   gdamore  * All rights reserved.
1.1   gdamore  *
1.1   gdamore  * Written by Garrett D'Amore for Itronix Inc.
1.1   gdamore  *
1.1   gdamore  * Redistribution and use in source and binary forms, with or without
1.1   gdamore  * modification, are permitted provided that the following conditions
1.1   gdamore  * are met:
1.1   gdamore  * 1. Redistributions of source code must retain the above copyright
1.1   gdamore  *    notice, this list of conditions and the following disclaimer.
1.1   gdamore  * 2. Redistributions in binary form must reproduce the above copyright
1.1   gdamore  *    notice, this list of conditions and the following disclaimer in the
1.1   gdamore  *    documentation and/or other materials provided with the distribution.
1.1   gdamore  * 3. The name of Itronix Inc. may not be used to endorse
1.1   gdamore  *    or promote products derived from this software without specific
1.1   gdamore  *    prior written permission.
1.1   gdamore  *
1.1   gdamore  * THIS SOFTWARE IS PROVIDED BY ITRONIX INC. ``AS IS'' AND ANY EXPRESS
1.1   gdamore  * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
1.1   gdamore  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1   gdamore  * ARE DISCLAIMED.  IN NO EVENT SHALL ITRONIX INC. BE LIABLE FOR ANY
1.1   gdamore  * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1   gdamore  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
1.1   gdamore  * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1   gdamore  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
1.1   gdamore  * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
1.1   gdamore  * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
1.1   gdamore  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1   gdamore  */
1.1   gdamore
1.1   gdamore #include <sys/cdefs.h>
1.9       jdc __KERNEL_RCSID(0, "$NetBSD: edid.c,v 1.9 2011/04/09 18:18:28 jdc Exp $");
1.1   gdamore
1.1   gdamore #include <sys/param.h>
1.1   gdamore #include <sys/systm.h>
1.1   gdamore #include <sys/device.h>
1.1   gdamore #include <sys/kernel.h>
1.1   gdamore #include <sys/malloc.h>
1.1   gdamore #include <dev/videomode/videomode.h>
1.1   gdamore #include <dev/videomode/ediddevs.h>
1.1   gdamore #include <dev/videomode/edidreg.h>
1.1   gdamore #include <dev/videomode/edidvar.h>
1.1   gdamore #include <dev/videomode/vesagtf.h>
1.1   gdamore
1.1   gdamore #define	EDIDVERBOSE	1
1.1   gdamore #define	DIVIDE(x,y)	(((x) + ((y) / 2)) / (y))
1.1   gdamore
1.7       jdc /* These are reversed established timing order */
1.1   gdamore static const char *_edid_modes[] =  {
1.3   gdamore 	"1280x1024x75",
1.3   gdamore 	"1024x768x75",
1.3   gdamore 	"1024x768x70",
1.3   gdamore 	"1024x768x60",
1.3   gdamore 	"1024x768x87i",
1.7       jdc 	"832x624x74",	/* rounding error, 74.55 Hz aka "832x624x75" */
1.3   gdamore 	"800x600x75",
1.3   gdamore 	"800x600x72",
1.3   gdamore 	"800x600x60",
1.3   gdamore 	"800x600x56",
1.3   gdamore 	"640x480x75",
1.3   gdamore 	"640x480x72",
1.3   gdamore 	"640x480x67",
1.3   gdamore 	"640x480x60",
1.7       jdc 	"720x400x87",	/* rounding error, 87.85 Hz aka "720x400x88" */
1.7       jdc 	"720x400x70",
1.1   gdamore };
1.1   gdamore
1.1   gdamore #ifdef	EDIDVERBOSE
1.1   gdamore struct edid_vendor {
1.1   gdamore 	const char	*vendor;
1.1   gdamore 	const char	*name;
1.1   gdamore };
1.1   gdamore
1.1   gdamore struct edid_product {
1.1   gdamore 	const char	*vendor;
1.1   gdamore 	uint16_t	product;
1.1   gdamore 	const char	*name;
1.1   gdamore };
1.1   gdamore
1.1   gdamore #include <dev/videomode/ediddevs_data.h>
1.1   gdamore #endif	/* EDIDVERBOSE */
1.1   gdamore
1.1   gdamore static const char *
1.1   gdamore edid_findvendor(const char *vendor)
1.1   gdamore {
1.1   gdamore #ifdef	EDIDVERBOSE
1.1   gdamore 	int	n;
1.1   gdamore
1.1   gdamore 	for (n = 0; n < edid_nvendors; n++)
1.1   gdamore 		if (memcmp(edid_vendors[n].vendor, vendor, 3) == 0)
1.1   gdamore 			return (edid_vendors[n].name);
1.1   gdamore #endif
1.1   gdamore 	return NULL;
1.1   gdamore }
1.1   gdamore
1.1   gdamore static const char *
1.1   gdamore edid_findproduct(const char *vendor, uint16_t product)
1.1   gdamore {
1.1   gdamore #ifdef	EDIDVERBOSE
1.1   gdamore 	int	n;
1.1   gdamore
1.6   tsutsui 	for (n = 0; n < edid_nproducts; n++)
1.1   gdamore 		if ((edid_products[n].product == product) &&
1.1   gdamore 		    (memcmp(edid_products[n].vendor, vendor, 3) == 0))
1.1   gdamore 			return (edid_products[n].name);
1.1   gdamore #endif	/* EDIDVERBOSE */
1.1   gdamore 	return NULL;
1.1   gdamore
1.1   gdamore }
1.1   gdamore
1.1   gdamore static void
1.1   gdamore edid_strchomp(char *ptr)
1.1   gdamore {
1.1   gdamore 	for (;;) {
1.1   gdamore 		switch (*ptr) {
1.1   gdamore 		case 0:
1.1   gdamore 			return;
1.1   gdamore 		case '\r':
1.1   gdamore 		case '\n':
1.1   gdamore 			*ptr = 0;
1.1   gdamore 			return;
1.1   gdamore 		}
1.1   gdamore 		ptr++;
1.1   gdamore 	}
1.1   gdamore }
1.1   gdamore
1.1   gdamore int
1.1   gdamore edid_is_valid(uint8_t *d)
1.1   gdamore {
1.1   gdamore 	int sum = 0, i;
1.1   gdamore 	uint8_t sig[8] = EDID_SIGNATURE;
1.1   gdamore
1.1   gdamore 	if (memcmp(d, sig, 8) != 0)
1.1   gdamore 		return EINVAL;
1.1   gdamore
1.1   gdamore 	for (i = 0; i < 128; i++)
1.1   gdamore 		sum += d[i];
1.1   gdamore 	if ((sum & 0xff) != 0)
1.1   gdamore 		return EINVAL;
1.1   gdamore
1.1   gdamore 	return 0;
1.1   gdamore }
1.1   gdamore
1.1   gdamore void
1.1   gdamore edid_print(struct edid_info *edid)
1.1   gdamore {
1.1   gdamore 	int	i;
1.1   gdamore
1.1   gdamore 	if (edid == NULL)
1.1   gdamore 		return;
1.1   gdamore 	printf("Vendor: [%s] %s\n", edid->edid_vendor, edid->edid_vendorname);
1.1   gdamore 	printf("Product: [%04X] %s\n", edid->edid_product,
1.1   gdamore 	    edid->edid_productname);
1.1   gdamore 	printf("Serial number: %s\n", edid->edid_serial);
1.1   gdamore 	printf("Manufactured %d Week %d\n",
1.1   gdamore 	    edid->edid_year, edid->edid_week);
1.1   gdamore 	printf("EDID Version %d.%d\n", edid->edid_version,
1.1   gdamore 	    edid->edid_revision);
1.1   gdamore 	printf("EDID Comment: %s\n", edid->edid_comment);
1.1   gdamore
1.1   gdamore 	printf("Video Input: %x\n", edid->edid_video_input);
1.1   gdamore 	if (edid->edid_video_input & EDID_VIDEO_INPUT_DIGITAL) {
1.1   gdamore 		printf("\tDigital");
1.1   gdamore 		if (edid->edid_video_input & EDID_VIDEO_INPUT_DFP1_COMPAT)
1.1   gdamore 			printf(" (DFP 1.x compatible)");
1.1   gdamore 		printf("\n");
1.1   gdamore 	} else {
1.1   gdamore 		printf("\tAnalog\n");
1.1   gdamore 		switch (EDID_VIDEO_INPUT_LEVEL(edid->edid_video_input)) {
1.1   gdamore 		case 0:
1.1   gdamore 			printf("\t-0.7, 0.3V\n");
1.1   gdamore 			break;
1.1   gdamore 		case 1:
1.1   gdamore 			printf("\t-0.714, 0.286V\n");
1.1   gdamore 			break;
1.1   gdamore 		case 2:
1.1   gdamore 			printf("\t-1.0, 0.4V\n");
1.1   gdamore 			break;
1.1   gdamore 		case 3:
1.1   gdamore 			printf("\t-0.7, 0.0V\n");
1.1   gdamore 			break;
1.1   gdamore 		}
1.1   gdamore 		if (edid->edid_video_input & EDID_VIDEO_INPUT_BLANK_TO_BLACK)
1.1   gdamore 			printf("\tBlank-to-black setup\n");
1.1   gdamore 		if (edid->edid_video_input & EDID_VIDEO_INPUT_SEPARATE_SYNCS)
1.1   gdamore 			printf("\tSeperate syncs\n");
1.1   gdamore 		if (edid->edid_video_input & EDID_VIDEO_INPUT_COMPOSITE_SYNC)
1.1   gdamore 			printf("\tComposite sync\n");
1.1   gdamore 		if (edid->edid_video_input & EDID_VIDEO_INPUT_SYNC_ON_GRN)
1.1   gdamore 			printf("\tSync on green\n");
1.1   gdamore 		if (edid->edid_video_input & EDID_VIDEO_INPUT_SERRATION)
1.1   gdamore 			printf("\tSerration vsync\n");
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	printf("Gamma: %d.%02d\n",
1.1   gdamore 	    edid->edid_gamma / 100, edid->edid_gamma % 100);
1.1   gdamore
1.1   gdamore 	printf("Max Size: %d cm x %d cm\n",
1.1   gdamore 	    edid->edid_max_hsize, edid->edid_max_vsize);
1.1   gdamore
1.1   gdamore 	printf("Features: %x\n", edid->edid_features);
1.1   gdamore 	if (edid->edid_features & EDID_FEATURES_STANDBY)
1.1   gdamore 		printf("\tDPMS standby\n");
1.1   gdamore 	if (edid->edid_features & EDID_FEATURES_SUSPEND)
1.1   gdamore 		printf("\tDPMS suspend\n");
1.1   gdamore 	if (edid->edid_features & EDID_FEATURES_ACTIVE_OFF)
1.1   gdamore 		printf("\tDPMS active-off\n");
1.1   gdamore 	switch (EDID_FEATURES_DISP_TYPE(edid->edid_features)) {
1.1   gdamore 	case EDID_FEATURES_DISP_TYPE_MONO:
1.1   gdamore 		printf("\tMonochrome\n");
1.1   gdamore 		break;
1.1   gdamore 	case EDID_FEATURES_DISP_TYPE_RGB:
1.1   gdamore 		printf("\tRGB\n");
1.1   gdamore 		break;
1.1   gdamore 	case EDID_FEATURES_DISP_TYPE_NON_RGB:
1.1   gdamore 		printf("\tMulticolor\n");
1.1   gdamore 		break;
1.1   gdamore 	case EDID_FEATURES_DISP_TYPE_UNDEFINED:
1.1   gdamore 		printf("\tUndefined monitor type\n");
1.1   gdamore 		break;
1.1   gdamore 	}
1.1   gdamore 	if (edid->edid_features & EDID_FEATURES_STD_COLOR)
1.1   gdamore 		printf("\tStandard color space\n");
1.1   gdamore 	if (edid->edid_features & EDID_FEATURES_PREFERRED_TIMING)
1.1   gdamore 		printf("\tPreferred timing\n");
1.1   gdamore 	if (edid->edid_features & EDID_FEATURES_DEFAULT_GTF)
1.1   gdamore 		printf("\tDefault GTF supported\n");
1.1   gdamore
1.1   gdamore 	printf("Chroma Info:\n");
1.1   gdamore 	printf("\tRed X: 0.%03d\n", edid->edid_chroma.ec_redx);
1.1   gdamore 	printf("\tRed Y: 0.%03d\n", edid->edid_chroma.ec_redy);
1.1   gdamore 	printf("\tGrn X: 0.%03d\n", edid->edid_chroma.ec_greenx);
1.1   gdamore 	printf("\tGrn Y: 0.%03d\n", edid->edid_chroma.ec_greeny);
1.1   gdamore 	printf("\tBlu X: 0.%03d\n", edid->edid_chroma.ec_bluex);
1.1   gdamore 	printf("\tBlu Y: 0.%03d\n", edid->edid_chroma.ec_bluey);
1.1   gdamore 	printf("\tWht X: 0.%03d\n", edid->edid_chroma.ec_whitex);
1.1   gdamore 	printf("\tWht Y: 0.%03d\n", edid->edid_chroma.ec_whitey);
1.1   gdamore
1.1   gdamore 	if (edid->edid_have_range) {
1.1   gdamore 		printf("Range:\n");
1.1   gdamore 		printf("\tHorizontal: %d - %d kHz\n",
1.1   gdamore 		    edid->edid_range.er_min_hfreq,
1.1   gdamore 		    edid->edid_range.er_max_hfreq);
1.1   gdamore 		printf("\tVertical: %d - %d Hz\n",
1.1   gdamore 		    edid->edid_range.er_min_vfreq,
1.1   gdamore 		    edid->edid_range.er_max_vfreq);
1.1   gdamore 		printf("\tMax Dot Clock: %d MHz\n",
1.1   gdamore 		    edid->edid_range.er_max_clock);
1.1   gdamore 		if (edid->edid_range.er_have_gtf2) {
1.1   gdamore 			printf("\tGTF2 hfreq: %d\n",
1.1   gdamore 			    edid->edid_range.er_gtf2_hfreq);
1.1   gdamore 			printf("\tGTF2 C: %d\n", edid->edid_range.er_gtf2_c);
1.1   gdamore 			printf("\tGTF2 M: %d\n", edid->edid_range.er_gtf2_m);
1.1   gdamore 			printf("\tGTF2 J: %d\n", edid->edid_range.er_gtf2_j);
1.1   gdamore 			printf("\tGTF2 K: %d\n", edid->edid_range.er_gtf2_k);
1.1   gdamore 		}
1.1   gdamore 	}
1.1   gdamore 	printf("Video modes:\n");
1.1   gdamore 	for (i = 0; i < edid->edid_nmodes; i++) {
1.8       jdc 		printf("\t%dx%d @ %dHz",
1.1   gdamore 		    edid->edid_modes[i].hdisplay,
1.1   gdamore 		    edid->edid_modes[i].vdisplay,
1.1   gdamore 		    DIVIDE(DIVIDE(edid->edid_modes[i].dot_clock * 1000,
1.1   gdamore 			       edid->edid_modes[i].htotal),
1.1   gdamore 			edid->edid_modes[i].vtotal));
1.8       jdc 		printf(" (%d %d %d %d %d %d %d",
1.8       jdc 		    edid->edid_modes[i].dot_clock,
1.8       jdc 		    edid->edid_modes[i].hsync_start,
1.8       jdc 		    edid->edid_modes[i].hsync_end,
1.8       jdc 		    edid->edid_modes[i].htotal,
1.8       jdc 		    edid->edid_modes[i].vsync_start,
1.8       jdc 		    edid->edid_modes[i].vsync_end,
1.8       jdc 		    edid->edid_modes[i].vtotal);
1.8       jdc 		printf(" %s%sH %s%sV)\n",
1.8       jdc 		    edid->edid_modes[i].flags & VID_PHSYNC ? "+" : "",
1.8       jdc 		    edid->edid_modes[i].flags & VID_NHSYNC ? "-" : "",
1.8       jdc 		    edid->edid_modes[i].flags & VID_PVSYNC ? "+" : "",
1.8       jdc 		    edid->edid_modes[i].flags & VID_NVSYNC ? "-" : "");
1.1   gdamore 	}
1.1   gdamore 	if (edid->edid_preferred_mode)
1.1   gdamore 		printf("Preferred mode: %dx%d @ %dHz\n",
1.1   gdamore 		    edid->edid_preferred_mode->hdisplay,
1.1   gdamore 		    edid->edid_preferred_mode->vdisplay,
1.1   gdamore 		    DIVIDE(DIVIDE(edid->edid_preferred_mode->dot_clock * 1000,
1.1   gdamore 			       edid->edid_preferred_mode->htotal),
1.1   gdamore 			edid->edid_preferred_mode->vtotal));
1.1   gdamore }
1.1   gdamore
1.1   gdamore static const struct videomode *
1.1   gdamore edid_mode_lookup_list(const char *name)
1.1   gdamore {
1.1   gdamore 	int	i;
1.1   gdamore
1.1   gdamore 	for (i = 0; i < videomode_count; i++)
1.1   gdamore 		if (strcmp(name, videomode_list[i].name) == 0)
1.1   gdamore 			return &videomode_list[i];
1.1   gdamore 	return NULL;
1.1   gdamore }
1.1   gdamore
1.9       jdc static struct videomode *
1.9       jdc edid_search_mode(struct edid_info *edid, const struct videomode *mode)
1.9       jdc {
1.9       jdc 	int	refresh, i;
1.9       jdc
1.9       jdc 	refresh = DIVIDE(DIVIDE(mode->dot_clock * 1000,
1.9       jdc 	    mode->htotal), mode->vtotal);
1.9       jdc 	for (i = 0; i < edid->edid_nmodes; i++) {
1.9       jdc 		if (mode->hdisplay == edid->edid_modes[i].hdisplay &&
1.9       jdc 		    mode->vdisplay == edid->edid_modes[i].vdisplay &&
1.9       jdc 		    refresh == DIVIDE(DIVIDE(
1.9       jdc 		    edid->edid_modes[i].dot_clock * 1000,
1.9       jdc 		    edid->edid_modes[i].htotal),
1.9       jdc 		    edid->edid_modes[i].vtotal)) {
1.9       jdc 			return &(edid->edid_modes[i]);
1.9       jdc 		}
1.9       jdc 	}
1.9       jdc 	return NULL;
1.9       jdc }
1.9       jdc
1.1   gdamore static int
1.1   gdamore edid_std_timing(uint8_t *data, struct videomode *vmp)
1.1   gdamore {
1.1   gdamore 	unsigned			x, y, f;
1.1   gdamore 	const struct videomode		*lookup;
1.1   gdamore 	char				name[80];
1.1   gdamore
1.1   gdamore 	if ((data[0] == 1 && data[1] == 1) ||
1.1   gdamore 	    (data[0] == 0 && data[1] == 0) ||
1.1   gdamore 	    (data[0] == 0x20 && data[1] == 0x20))
1.1   gdamore 		return 0;
1.1   gdamore
1.1   gdamore 	x = EDID_STD_TIMING_HRES(data);
1.1   gdamore 	switch (EDID_STD_TIMING_RATIO(data)) {
1.1   gdamore 	case EDID_STD_TIMING_RATIO_16_10:
1.1   gdamore 		y = x * 10 / 16;
1.1   gdamore 		break;
1.1   gdamore 	case EDID_STD_TIMING_RATIO_4_3:
1.1   gdamore 		y = x * 3 / 4;
1.1   gdamore 		break;
1.1   gdamore 	case EDID_STD_TIMING_RATIO_5_4:
1.1   gdamore 		y = x * 4 / 5;
1.1   gdamore 		break;
1.1   gdamore 	case EDID_STD_TIMING_RATIO_16_9:
1.1   gdamore 	default:
1.1   gdamore 		y = x * 9 / 16;
1.1   gdamore 		break;
1.1   gdamore 	}
1.1   gdamore 	f = EDID_STD_TIMING_VFREQ(data);
1.1   gdamore
1.1   gdamore 	/* first try to lookup the mode as a DMT timing */
1.1   gdamore 	snprintf(name, sizeof (name), "%dx%dx%d", x, y, f);
1.1   gdamore 	if ((lookup = edid_mode_lookup_list(name)) != NULL) {
1.1   gdamore 		*vmp = *lookup;
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	/* failing that, calculate it using gtf */
1.1   gdamore 	else {
1.1   gdamore 		/*
1.1   gdamore 		 * Hmm. I'm not using alternate GTF timings, which
1.1   gdamore 		 * could, in theory, be present.
1.1   gdamore 		 */
1.1   gdamore 		vesagtf_mode(x, y, f, vmp);
1.1   gdamore 	}
1.1   gdamore 	return 1;
1.1   gdamore }
1.1   gdamore
1.1   gdamore static int
1.1   gdamore edid_det_timing(uint8_t *data, struct videomode *vmp)
1.1   gdamore {
1.1   gdamore 	unsigned	hactive, hblank, hsyncwid, hsyncoff;
1.1   gdamore 	unsigned	vactive, vblank, vsyncwid, vsyncoff;
1.1   gdamore 	uint8_t		flags;
1.1   gdamore
1.1   gdamore 	flags = EDID_DET_TIMING_FLAGS(data);
1.1   gdamore
1.1   gdamore 	/* we don't support stereo modes (for now) */
1.1   gdamore 	if (flags & (EDID_DET_TIMING_FLAG_STEREO |
1.8       jdc 		EDID_DET_TIMING_FLAG_STEREO_MODE))
1.1   gdamore 		return 0;
1.1   gdamore
1.1   gdamore 	vmp->dot_clock = EDID_DET_TIMING_DOT_CLOCK(data) / 1000;
1.1   gdamore
1.1   gdamore 	hactive = EDID_DET_TIMING_HACTIVE(data);
1.1   gdamore 	hblank = EDID_DET_TIMING_HBLANK(data);
1.1   gdamore 	hsyncwid = EDID_DET_TIMING_HSYNC_WIDTH(data);
1.1   gdamore 	hsyncoff = EDID_DET_TIMING_HSYNC_OFFSET(data);
1.1   gdamore
1.1   gdamore 	vactive = EDID_DET_TIMING_VACTIVE(data);
1.1   gdamore 	vblank = EDID_DET_TIMING_VBLANK(data);
1.1   gdamore 	vsyncwid = EDID_DET_TIMING_VSYNC_WIDTH(data);
1.1   gdamore 	vsyncoff = EDID_DET_TIMING_VSYNC_OFFSET(data);
1.1   gdamore
1.9       jdc 	/* Borders are contained within the blank areas. */
1.1   gdamore
1.1   gdamore 	vmp->hdisplay = hactive;
1.1   gdamore 	vmp->htotal = hactive + hblank;
1.1   gdamore 	vmp->hsync_start = hactive + hsyncoff;
1.1   gdamore 	vmp->hsync_end = vmp->hsync_start + hsyncwid;
1.1   gdamore
1.1   gdamore 	vmp->vdisplay = vactive;
1.1   gdamore 	vmp->vtotal = vactive + vblank;
1.1   gdamore 	vmp->vsync_start = vactive + vsyncoff;
1.1   gdamore 	vmp->vsync_end = vmp->vsync_start + vsyncwid;
1.1   gdamore
1.1   gdamore 	vmp->flags = 0;
1.1   gdamore
1.1   gdamore 	if (flags & EDID_DET_TIMING_FLAG_INTERLACE)
1.1   gdamore 		vmp->flags |= VID_INTERLACE;
1.1   gdamore 	if (flags & EDID_DET_TIMING_FLAG_HSYNC_POSITIVE)
1.1   gdamore 		vmp->flags |= VID_PHSYNC;
1.1   gdamore 	else
1.1   gdamore 		vmp->flags |= VID_NHSYNC;
1.1   gdamore
1.1   gdamore 	if (flags & EDID_DET_TIMING_FLAG_VSYNC_POSITIVE)
1.1   gdamore 		vmp->flags |= VID_PVSYNC;
1.1   gdamore 	else
1.1   gdamore 		vmp->flags |= VID_NVSYNC;
1.1   gdamore
1.1   gdamore 	return 1;
1.1   gdamore }
1.1   gdamore
1.1   gdamore static void
1.1   gdamore edid_block(struct edid_info *edid, uint8_t *data)
1.1   gdamore {
1.1   gdamore 	int			i;
1.9       jdc 	struct videomode	mode, *exist_mode;
1.1   gdamore
1.1   gdamore 	if (EDID_BLOCK_IS_DET_TIMING(data)) {
1.1   gdamore 		if (edid_det_timing(data, &mode)) {
1.9       jdc 			/* Does this mode already exist? */
1.9       jdc 			exist_mode = edid_search_mode(edid, &mode);
1.9       jdc 			if (exist_mode != NULL) {
1.9       jdc 				memcpy(exist_mode, &mode,
1.9       jdc 				    sizeof(struct videomode));
1.9       jdc 				if (edid->edid_preferred_mode == NULL) {
1.9       jdc 					edid->edid_preferred_mode =
1.9       jdc 					    exist_mode;
1.9       jdc 				}
1.9       jdc 			} else {
1.9       jdc 				edid->edid_modes[edid->edid_nmodes] = mode;
1.9       jdc 				if (edid->edid_preferred_mode == NULL) {
1.9       jdc 					edid->edid_preferred_mode =
1.9       jdc 					    &edid->edid_modes[edid->edid_nmodes];
1.9       jdc 				}
1.9       jdc 				edid->edid_nmodes++;
1.1   gdamore 			}
1.1   gdamore 		}
1.1   gdamore 		return;
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	switch (EDID_BLOCK_TYPE(data)) {
1.1   gdamore 	case EDID_DESC_BLOCK_TYPE_SERIAL:
1.1   gdamore 		memcpy(edid->edid_serial,
1.1   gdamore 		    data + EDID_DESC_ASCII_DATA_OFFSET,
1.1   gdamore 		    EDID_DESC_ASCII_DATA_LEN);
1.1   gdamore 		edid->edid_serial[sizeof (edid->edid_serial) - 1] = 0;
1.1   gdamore 		break;
1.1   gdamore
1.1   gdamore 	case EDID_DESC_BLOCK_TYPE_ASCII:
1.1   gdamore 		memcpy(edid->edid_comment,
1.1   gdamore 		    data + EDID_DESC_ASCII_DATA_OFFSET,
1.1   gdamore 		    EDID_DESC_ASCII_DATA_LEN);
1.1   gdamore 		edid->edid_comment[sizeof (edid->edid_comment) - 1] = 0;
1.1   gdamore 		break;
1.1   gdamore
1.1   gdamore 	case EDID_DESC_BLOCK_TYPE_RANGE:
1.1   gdamore 		edid->edid_have_range = 1;
1.1   gdamore 		edid->edid_range.er_min_vfreq =
1.1   gdamore 		    EDID_DESC_RANGE_MIN_VFREQ(data);
1.1   gdamore 		edid->edid_range.er_max_vfreq =
1.1   gdamore 		    EDID_DESC_RANGE_MAX_VFREQ(data);
1.1   gdamore 		edid->edid_range.er_min_hfreq =
1.1   gdamore 		    EDID_DESC_RANGE_MIN_HFREQ(data);
1.1   gdamore 		edid->edid_range.er_max_hfreq =
1.1   gdamore 		    EDID_DESC_RANGE_MAX_HFREQ(data);
1.1   gdamore 		edid->edid_range.er_max_clock =
1.1   gdamore 		    EDID_DESC_RANGE_MAX_CLOCK(data);
1.1   gdamore 		if (EDID_DESC_RANGE_HAVE_GTF2(data)) {
1.1   gdamore 			edid->edid_range.er_have_gtf2 = 1;
1.1   gdamore 			edid->edid_range.er_gtf2_hfreq =
1.1   gdamore 			    EDID_DESC_RANGE_GTF2_HFREQ(data);
1.1   gdamore 			edid->edid_range.er_gtf2_c =
1.1   gdamore 			    EDID_DESC_RANGE_GTF2_C(data);
1.1   gdamore 			edid->edid_range.er_gtf2_m =
1.1   gdamore 			    EDID_DESC_RANGE_GTF2_M(data);
1.1   gdamore 			edid->edid_range.er_gtf2_j =
1.1   gdamore 			    EDID_DESC_RANGE_GTF2_J(data);
1.1   gdamore 			edid->edid_range.er_gtf2_k =
1.1   gdamore 			    EDID_DESC_RANGE_GTF2_K(data);
1.1   gdamore 		}
1.1   gdamore 		break;
1.1   gdamore
1.1   gdamore 	case EDID_DESC_BLOCK_TYPE_NAME:
1.1   gdamore 		/* copy the product name into place */
1.1   gdamore 		memcpy(edid->edid_productname,
1.1   gdamore 		    data + EDID_DESC_ASCII_DATA_OFFSET,
1.1   gdamore 		    EDID_DESC_ASCII_DATA_LEN);
1.1   gdamore 		break;
1.1   gdamore
1.1   gdamore 	case EDID_DESC_BLOCK_TYPE_STD_TIMING:
1.1   gdamore 		data += EDID_DESC_STD_TIMING_START;
1.1   gdamore 		for (i = 0; i < EDID_DESC_STD_TIMING_COUNT; i++) {
1.1   gdamore 			if (edid_std_timing(data, &mode)) {
1.9       jdc 				/* Does this mode already exist? */
1.9       jdc 				exist_mode = edid_search_mode(edid, &mode);
1.9       jdc 				if (exist_mode == NULL) {
1.9       jdc 					edid->edid_modes[edid->edid_nmodes] =
1.9       jdc 					    mode;
1.9       jdc 					edid->edid_nmodes++;
1.9       jdc 				}
1.1   gdamore 			}
1.1   gdamore 			data += 2;
1.1   gdamore 		}
1.1   gdamore 		break;
1.1   gdamore
1.1   gdamore 	case EDID_DESC_BLOCK_TYPE_COLOR_POINT:
1.1   gdamore 		/* XXX: not implemented yet */
1.1   gdamore 		break;
1.1   gdamore 	}
1.1   gdamore }
1.1   gdamore
1.1   gdamore /*
1.1   gdamore  * Gets EDID version in BCD, e.g. EDID v1.3  returned as 0x0103
1.1   gdamore  */
1.2   gdamore int
1.2   gdamore edid_parse(uint8_t *data, struct edid_info *edid)
1.1   gdamore {
1.1   gdamore 	uint16_t		manfid, estmodes;
1.1   gdamore 	const struct videomode	*vmp;
1.1   gdamore 	int			i;
1.1   gdamore 	const char		*name;
1.5  macallan 	int max_dotclock = 0;
1.5  macallan 	int mhz;
1.1   gdamore
1.1   gdamore 	if (edid_is_valid(data) != 0)
1.2   gdamore 		return -1;
1.1   gdamore
1.1   gdamore 	/* get product identification */
1.1   gdamore 	manfid = EDID_VENDOR_ID(data);
1.1   gdamore 	edid->edid_vendor[0] = EDID_MANFID_0(manfid);
1.1   gdamore 	edid->edid_vendor[1] = EDID_MANFID_1(manfid);
1.1   gdamore 	edid->edid_vendor[2] = EDID_MANFID_2(manfid);
1.1   gdamore 	edid->edid_vendor[3] = 0;	/* null terminate for convenience */
1.1   gdamore
1.1   gdamore 	edid->edid_product = data[EDID_OFFSET_PRODUCT_ID] +
1.1   gdamore 	    (data[EDID_OFFSET_PRODUCT_ID + 1] << 8);
1.1   gdamore
1.1   gdamore 	name = edid_findvendor(edid->edid_vendor);
1.1   gdamore 	if (name != NULL) {
1.1   gdamore 		snprintf(edid->edid_vendorname,
1.1   gdamore 		    sizeof (edid->edid_vendorname), "%s", name);
1.1   gdamore 	}
1.1   gdamore 	edid->edid_vendorname[sizeof (edid->edid_vendorname) - 1] = 0;
1.1   gdamore
1.1   gdamore 	name = edid_findproduct(edid->edid_vendor, edid->edid_product);
1.1   gdamore 	if (name != NULL) {
1.1   gdamore 		snprintf(edid->edid_productname,
1.1   gdamore 		    sizeof (edid->edid_productname), "%s", name);
1.1   gdamore 	}
1.1   gdamore 	edid->edid_productname[sizeof (edid->edid_productname) - 1] = 0;
1.1   gdamore
1.1   gdamore 	snprintf(edid->edid_serial, sizeof (edid->edid_serial), "%08x",
1.1   gdamore 	    EDID_SERIAL_NUMBER(data));
1.1   gdamore
1.1   gdamore 	edid->edid_week = EDID_WEEK(data);
1.1   gdamore 	edid->edid_year = EDID_YEAR(data);
1.1   gdamore
1.1   gdamore 	/* get edid revision */
1.1   gdamore 	edid->edid_version = EDID_VERSION(data);
1.1   gdamore 	edid->edid_revision = EDID_REVISION(data);
1.1   gdamore
1.1   gdamore 	edid->edid_video_input = EDID_VIDEO_INPUT(data);
1.1   gdamore 	edid->edid_max_hsize = EDID_MAX_HSIZE(data);
1.1   gdamore 	edid->edid_max_vsize = EDID_MAX_VSIZE(data);
1.1   gdamore
1.1   gdamore 	edid->edid_gamma = EDID_GAMMA(data);
1.1   gdamore 	edid->edid_features = EDID_FEATURES(data);
1.1   gdamore
1.1   gdamore 	edid->edid_chroma.ec_redx = EDID_CHROMA_REDX(data);
1.1   gdamore 	edid->edid_chroma.ec_redy = EDID_CHROMA_REDX(data);
1.1   gdamore 	edid->edid_chroma.ec_greenx = EDID_CHROMA_GREENX(data);
1.1   gdamore 	edid->edid_chroma.ec_greeny = EDID_CHROMA_GREENY(data);
1.1   gdamore 	edid->edid_chroma.ec_bluex = EDID_CHROMA_BLUEX(data);
1.1   gdamore 	edid->edid_chroma.ec_bluey = EDID_CHROMA_BLUEY(data);
1.1   gdamore 	edid->edid_chroma.ec_whitex = EDID_CHROMA_WHITEX(data);
1.1   gdamore 	edid->edid_chroma.ec_whitey = EDID_CHROMA_WHITEY(data);
1.1   gdamore
1.1   gdamore 	/* lookup established modes */
1.4  macallan 	edid->edid_nmodes = 0;
1.5  macallan 	edid->edid_preferred_mode = NULL;
1.1   gdamore 	estmodes = EDID_EST_TIMING(data);
1.7       jdc 	/* Iterate in esztablished timing order */
1.7       jdc 	for (i = 15; i >= 0; i--) {
1.1   gdamore 		if (estmodes & (1 << i)) {
1.1   gdamore 			vmp = edid_mode_lookup_list(_edid_modes[i]);
1.1   gdamore 			if (vmp != NULL) {
1.1   gdamore 				edid->edid_modes[edid->edid_nmodes] = *vmp;
1.1   gdamore 				edid->edid_nmodes++;
1.1   gdamore 			}
1.5  macallan #ifdef DIAGNOSTIC
1.5  macallan 			  else
1.5  macallan 				printf("no data for est. mode %s\n",
1.5  macallan 				    _edid_modes[i]);
1.5  macallan #endif
1.1   gdamore 		}
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	/* do standard timing section */
1.1   gdamore 	for (i = 0; i < EDID_STD_TIMING_COUNT; i++) {
1.9       jdc 		struct videomode	mode, *exist_mode;
1.1   gdamore 		if (edid_std_timing(data + EDID_OFFSET_STD_TIMING + i * 2,
1.1   gdamore 			&mode)) {
1.9       jdc 			/* Does this mode already exist? */
1.9       jdc 			exist_mode = edid_search_mode(edid, &mode);
1.9       jdc 			if (exist_mode == NULL) {
1.9       jdc 				edid->edid_modes[edid->edid_nmodes] = mode;
1.9       jdc 				edid->edid_nmodes++;
1.9       jdc 			}
1.1   gdamore 		}
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	/* do detailed timings and descriptors */
1.1   gdamore 	for (i = 0; i < EDID_BLOCK_COUNT; i++) {
1.1   gdamore 		edid_block(edid, data + EDID_OFFSET_DESC_BLOCK +
1.1   gdamore 		    i * EDID_BLOCK_SIZE);
1.1   gdamore 	}
1.1   gdamore
1.1   gdamore 	edid_strchomp(edid->edid_vendorname);
1.1   gdamore 	edid_strchomp(edid->edid_productname);
1.1   gdamore 	edid_strchomp(edid->edid_serial);
1.1   gdamore 	edid_strchomp(edid->edid_comment);
1.1   gdamore
1.5  macallan 	/*
1.5  macallan 	 * XXX
1.5  macallan 	 * some monitors lie about their maximum supported dot clock
1.5  macallan 	 * by claiming to support modes which need a higher dot clock
1.5  macallan 	 * than the stated maximum.
1.5  macallan 	 * For sanity's sake we bump it to the highest dot clock we find
1.5  macallan 	 * in the list of supported modes
1.5  macallan 	 */
1.5  macallan 	for (i = 0; i < edid->edid_nmodes; i++)
1.5  macallan 		if (edid->edid_modes[i].dot_clock > max_dotclock)
1.5  macallan 			max_dotclock = edid->edid_modes[i].dot_clock;
1.5  macallan
1.5  macallan 	aprint_verbose("max_dotclock according to supported modes: %d\n",
1.5  macallan 	    max_dotclock);
1.5  macallan
1.5  macallan 	mhz = (max_dotclock + 999) / 1000;
1.5  macallan
1.5  macallan 	if (edid->edid_have_range) {
1.5  macallan
1.5  macallan 		if (mhz > edid->edid_range.er_max_clock)
1.5  macallan 			edid->edid_range.er_max_clock = mhz;
1.5  macallan 	} else
1.5  macallan 		edid->edid_range.er_max_clock = mhz;
1.5  macallan
1.2   gdamore 	return 0;
1.1   gdamore }
1.1   gdamore