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Diffstat (limited to 'decoders/edid/edid.py')
| -rw-r--r-- | decoders/edid/edid.py | 474 |
1 files changed, 0 insertions, 474 deletions
diff --git a/decoders/edid/edid.py b/decoders/edid/edid.py deleted file mode 100644 index a03fe67..0000000 --- a/decoders/edid/edid.py +++ /dev/null @@ -1,474 +0,0 @@ -## -## This file is part of the sigrok project. -## -## Copyright (C) 2012 Bert Vermeulen <bert@biot.com> -## -## This program is free software; you can redistribute it and/or modify -## it under the terms of the GNU General Public License as published by -## the Free Software Foundation; either version 3 of the License, or -## (at your option) any later version. -## -## This program is distributed in the hope that it will be useful, -## but WITHOUT ANY WARRANTY; without even the implied warranty of -## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -## GNU General Public License for more details. -## -## You should have received a copy of the GNU General Public License -## along with this program; if not, see <http://www.gnu.org/licenses/>. -## - -# EDID protocol decoder - -# TODO: -# - EDID < 1.3 -# - add short annotations -# - Signal level standard field in basic display parameters block -# - Additional color point descriptors -# - Additional standard timing descriptors -# - Extensions - -import sigrokdecode as srd -import os - -EDID_HEADER = [0x00, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0x00] -OFF_VENDOR = 8 -OFF_VERSION = 18 -OFF_BASIC = 20 -OFF_CHROM = 25 -OFF_EST_TIMING = 35 -OFF_STD_TIMING = 38 -OFF_DET_TIMING = 54 -OFF_NUM_EXT = 126 -OFF_CHECKSUM = 127 - -# Pre-EDID established timing modes -est_modes = [ - '720x400@70Hz', - '720x400@88Hz', - '640x480@60Hz', - '640x480@67Hz', - '640x480@72Hz', - '640x480@75Hz', - '800x600@56Hz', - '800x600@60Hz', - '800x600@72Hz', - '800x600@75Hz', - '832x624@75Hz', - '1024x768@87Hz(i)', - '1024x768@60Hz', - '1024x768@70Hz', - '1024x768@75Hz', - '1280x1024@75Hz', - '1152x870@75Hz', -] - -# X:Y display aspect ratios, as used in standard timing modes -xy_ratio = [ - (16, 10), - (4, 3), - (5, 4), - (16, 9), -] - -# Annotation types -ANN_FIELDS = 0 -ANN_SECTIONS = 1 - -class Decoder(srd.Decoder): - api_version = 1 - id = 'edid' - name = 'EDID' - longname = 'Extended Display Identification Data' - desc = 'Data structure describing display device capabilities.' - license = 'gplv3+' - inputs = ['ddc2'] - outputs = ['edid'] - options = {} - annotations = [ - ['EDID fields', 'EDID structure fields'], - ['EDID sections', 'EDID structure sections'], - ] - - def __init__(self, **kwargs): - self.state = None - # Received data items, used as an index into samplenum/data - self.cnt = 0 - # Start/end sample numbers per data item - self.sn = [] - # Received data - self.cache = [] - - def start(self, metadata): - self.out_ann = self.add(srd.OUTPUT_ANN, 'edid') - - def report(self): - pass - - def decode(self, ss, es, data): - cmd, data = data - - # We only care about actual data bytes that are read (for now). - if cmd != 'DATA READ': - return - - self.cnt += 1 - self.sn.append([ss, es]) - self.cache.append(data) - # debug -# self.put(ss, es, self.out_ann, [0, ['%d: [%.2x]' % (self.cnt, data)]]) - - if self.state is None: - # Wait for the EDID header - if self.cnt >= OFF_VENDOR: - if self.cache[-8:] == EDID_HEADER: - # Throw away any garbage before the header - self.sn = self.sn[-8:] - self.cache = self.cache[-8:] - self.cnt = 8 - self.state = 'edid' - self.put(ss, es, self.out_ann, [0, ['EDID header']]) - elif self.state == 'edid': - if self.cnt == OFF_VERSION: - self.decode_vid(-10) - self.decode_pid(-8) - self.decode_serial(-6) - self.decode_mfrdate(-2) - elif self.cnt == OFF_BASIC: - version = 'EDID version: %d.%d' % (self.cache[-2], self.cache[-1]) - self.put(ss, es, self.out_ann, [0, [version]]) - elif self.cnt == OFF_CHROM: - self.decode_basicdisplay(-5) - elif self.cnt == OFF_EST_TIMING: - self.decode_chromaticity(-10) - elif self.cnt == OFF_STD_TIMING: - self.decode_est_timing(-3) - elif self.cnt == OFF_DET_TIMING: - self.decode_std_timing(-16) - elif self.cnt == OFF_NUM_EXT: - self.decode_descriptors(-72) - elif self.cnt == OFF_CHECKSUM: - self.put(ss, es, self.out_ann, - [0, ['Extensions present: %d' % self.cache[self.cnt-1]]]) - elif self.cnt == OFF_CHECKSUM+1: - checksum = 0 - for i in range(128): - checksum += self.cache[i] - if checksum % 256 == 0: - csstr = 'OK' - else: - csstr = 'WRONG!' - self.put(ss, es, self.out_ann, [0, ['Checksum: %d (%s)' % ( - self.cache[self.cnt-1], csstr)]]) - self.state = 'extensions' - elif self.state == 'extensions': - pass - - def ann_field(self, start, end, annotation): - self.put(self.sn[start][0], self.sn[end][1], - self.out_ann, [ANN_FIELDS, [annotation]]) - - def lookup_pnpid(self, pnpid): - pnpid_file = os.path.join(os.path.dirname(__file__), 'pnpids.txt') - if os.path.exists(pnpid_file): - for line in open(pnpid_file).readlines(): - if line.find(pnpid + ';') == 0: - return line[4:].strip() - return '' - - def decode_vid(self, offset): - pnpid = chr(64 + ((self.cache[offset] & 0x7c) >> 2)) - pnpid += chr(64 + (((self.cache[offset] & 0x03) << 3) - | ((self.cache[offset+1] & 0xe0) >> 5))) - pnpid += chr(64 + (self.cache[offset+1] & 0x1f)) - vendor = self.lookup_pnpid(pnpid) - if vendor: - pnpid += ' (%s)' % vendor - self.ann_field(offset, offset+1, pnpid) - - def decode_pid(self, offset): - pidstr = 'Product 0x%.2x%.2x' % (self.cache[offset+1], self.cache[offset]) - self.ann_field(offset, offset+1, pidstr) - - def decode_serial(self, offset): - serialnum = (self.cache[offset+3] << 24) \ - + (self.cache[offset+2] << 16) \ - + (self.cache[offset+1] << 8) \ - + self.cache[offset] - serialstr = '' - is_alnum = True - for i in range(4): - if not chr(self.cache[offset+3-i]).isalnum(): - is_alnum = False - break - serialstr += chr(self.cache[offset+3-i]) - serial = serialstr if is_alnum else str(serialnum) - self.ann_field(offset, offset+3, 'Serial ' + serial) - - def decode_mfrdate(self, offset): - datestr = '' - if self.cache[offset]: - datestr += 'week %d, ' % self.cache[offset] - datestr += str(1990 + self.cache[offset+1]) - if datestr: - self.ann_field(offset, offset+1, 'Manufactured ' + datestr) - - def decode_basicdisplay(self, offset): - # Video input definition - vid = self.cache[offset] - if vid & 0x80: - # Digital - self.ann_field(offset, offset, 'Video input: VESA DFP 1.') - else: - # Analog - sls = (vid & 60) >> 5 - self.ann_field(offset, offset, 'Signal level standard: %.2x' % sls) - if vid & 0x10: - self.ann_field(offset, offset, 'Blank-to-black setup expected') - syncs = '' - if vid & 0x08: - syncs += 'separate syncs, ' - if vid & 0x04: - syncs += 'composite syncs, ' - if vid & 0x02: - syncs += 'sync on green, ' - if vid & 0x01: - syncs += 'Vsync serration required, ' - if syncs: - self.ann_field(offset, offset, 'Supported syncs: %s' % syncs[:-2]) - # Max horizontal/vertical image size - if self.cache[offset+1] != 0 and self.cache[offset+2] != 0: - # Projectors have this set to 0 - sizestr = '%dx%dcm' % (self.cache[offset+1], self.cache[offset+2]) - self.ann_field(offset+1, offset+2, 'Physical size: ' + sizestr) - # Display transfer characteristic (gamma) - if self.cache[offset+3] != 0xff: - gamma = (self.cache[offset+3] + 100) / 100 - self.ann_field(offset+3, offset+3, 'Gamma: %1.2f' % gamma) - # Feature support - fs = self.cache[offset+4] - dpms = '' - if fs & 0x80: - dpms += 'standby, ' - if fs & 0x40: - dpms += 'suspend, ' - if fs & 0x20: - dpms += 'active off, ' - if dpms: - self.ann_field(offset+4, offset+4, 'DPMS support: %s' % dpms[:-2]) - dt = (fs & 0x18) >> 3 - dtstr = '' - if dt == 0: - dtstr = 'Monochrome' - elif dt == 1: - dtstr = 'RGB color' - elif dt == 2: - dtstr = 'non-RGB multicolor' - if dtstr: - self.ann_field(offset+4, offset+4, 'Display type: %s' % dtstr) - if fs & 0x04: - self.ann_field(offset+4, offset+4, 'Color space: standard sRGB') - # Save this for when we decode the first detailed timing descriptor - self.have_preferred_timing = (fs & 0x02) == 0x02 - if fs & 0x01: - gft = '' - else: - gft = 'not ' - self.ann_field(offset+4, offset+4, - 'Generalized timing formula: %ssupported' % gft) - - def convert_color(self, value): - # Convert from 10-bit packet format to float - outval = 0.0 - for i in range(10): - if value & 0x01: - outval += 2 ** -(10-i) - value >>= 1 - return outval - - def decode_chromaticity(self, offset): - redx = (self.cache[offset+2] << 2) + ((self.cache[offset] & 0xc0) >> 6) - redy = (self.cache[offset+3] << 2) + ((self.cache[offset] & 0x30) >> 4) - self.ann_field(offset, offset+9, 'Chromacity red: X %1.3f, Y %1.3f' % ( - self.convert_color(redx), self.convert_color(redy))) - - greenx = (self.cache[offset+4] << 2) + ((self.cache[offset] & 0x0c) >> 6) - greeny = (self.cache[offset+5] << 2) + ((self.cache[offset] & 0x03) >> 4) - self.ann_field(offset, offset+9, 'Chromacity green: X %1.3f, Y %1.3f' % ( - self.convert_color(greenx), self.convert_color(greeny))) - - bluex = (self.cache[offset+6] << 2) + ((self.cache[offset+1] & 0xc0) >> 6) - bluey = (self.cache[offset+7] << 2) + ((self.cache[offset+1] & 0x30) >> 4) - self.ann_field(offset, offset+9, 'Chromacity blue: X %1.3f, Y %1.3f' % ( - self.convert_color(bluex), self.convert_color(bluey))) - - whitex = (self.cache[offset+8] << 2) + ((self.cache[offset+1] & 0x0c) >> 6) - whitey = (self.cache[offset+9] << 2) + ((self.cache[offset+1] & 0x03) >> 4) - self.ann_field(offset, offset+9, 'Chromacity white: X %1.3f, Y %1.3f' % ( - self.convert_color(whitex), self.convert_color(whitey))) - - def decode_est_timing(self, offset): - # Pre-EDID modes - bitmap = (self.cache[offset] << 9) \ - + (self.cache[offset+1] << 1) \ - + ((self.cache[offset+2] & 0x80) >> 7) - modestr = '' - for i in range(17): - if bitmap & (1 << (16-i)): - modestr += est_modes[i] + ', ' - if modestr: - self.ann_field(offset, offset+2, - 'Supported establised modes: %s' % modestr[:-2]) - - def decode_std_timing(self, offset): - modestr = '' - for i in range(0, 16, 2): - if self.cache[offset+i] == 0x01 and self.cache[offset+i+1] == 0x01: - # Unused field - continue - x = (self.cache[offset+i] + 31) * 8 - ratio = (self.cache[offset+i+1] & 0xc0) >> 6 - ratio_x, ratio_y = xy_ratio[ratio] - y = x / ratio_x * ratio_y - refresh = (self.cache[offset+i+1] & 0x3f) + 60 - modestr += '%dx%d@%dHz, ' % (x, y, refresh) - if modestr: - self.ann_field(offset, offset+2, - 'Supported standard modes: %s' % modestr[:-2]) - - def decode_detailed_timing(self, offset): - if offset == -72 and self.have_preferred_timing: - # Only on first detailed timing descriptor - section = 'Preferred' - else: - section = 'Detailed' - section += ' timing descriptor' - self.put(self.sn[offset][0], self.sn[offset+18][1], - self.out_ann, [ANN_SECTIONS, [section]]) - - pixclock = float((self.cache[offset+1] << 8) + self.cache[offset]) / 100 - self.ann_field(offset, offset+1, 'Pixel clock: %.2f MHz' % pixclock) - - horiz_active = ((self.cache[offset+4] & 0xf0) << 4) + self.cache[offset+2] - self.ann_field(offset+2, offset+4, 'Horizontal active: %d' % horiz_active) - - horiz_blank = ((self.cache[offset+4] & 0x0f) << 8) + self.cache[offset+3] - self.ann_field(offset+3, offset+4, 'Horizontal blanking: %d' % horiz_blank) - - vert_active = ((self.cache[offset+7] & 0xf0) << 4) + self.cache[offset+5] - self.ann_field(offset+5, offset+7, 'Vertical active: %d' % vert_active) - - vert_blank = ((self.cache[offset+7] & 0x0f) << 8) + self.cache[offset+6] - self.ann_field(offset+6, offset+7, 'Vertical blanking: %d' % vert_blank) - - horiz_sync_off = ((self.cache[offset+11] & 0xc0) << 2) + self.cache[offset+8] - self.ann_field(offset+8, offset+11, 'Horizontal sync offset: %d' % horiz_sync_off) - - horiz_sync_pw = ((self.cache[offset+11] & 0x30) << 4) + self.cache[offset+9] - self.ann_field(offset+9, offset+11, 'Horizontal sync pulse width: %d' % horiz_sync_pw) - - vert_sync_off = ((self.cache[offset+11] & 0x0c) << 2) \ - + ((self.cache[offset+10] & 0xf0) >> 4) - self.ann_field(offset+10, offset+11, 'Vertical sync offset: %d' % vert_sync_off) - - vert_sync_pw = ((self.cache[offset+11] & 0x03) << 4) \ - + (self.cache[offset+10] & 0x0f) - self.ann_field(offset+10, offset+11, 'Vertical sync pulse width: %d' % vert_sync_pw) - - horiz_size = ((self.cache[offset+14] & 0xf0) << 4) + self.cache[offset+12] - vert_size = ((self.cache[offset+14] & 0x0f) << 8) + self.cache[offset+13] - self.ann_field(offset+12, offset+14, 'Physical size: %dx%dmm' % (horiz_size, vert_size)) - - horiz_border = self.cache[offset+15] - if horiz_border: - self.ann_field(offset+15, offset+15, 'Horizontal border: %d pixels' % horiz_border) - vert_border = self.cache[offset+16] - if vert_border: - self.ann_field(offset+16, offset+16, 'Vertical border: %d lines' % vert_border) - - features = 'Flags: ' - if self.cache[offset+17] & 0x80: - features += 'interlaced, ' - stereo = (self.cache[offset+17] & 0x60) >> 5 - if stereo: - if self.cache[offset+17] & 0x01: - features += '2-way interleaved stereo (' - features += ['right image on even lines', - 'left image on even lines', - 'side-by-side'][stereo-1] - features += '), ' - else: - features += 'field sequential stereo (' - features += ['right image on sync=1', 'left image on sync=1', - '4-way interleaved'][stereo-1] - features += '), ' - sync = (self.cache[offset+17] & 0x18) >> 3 - sync2 = (self.cache[offset+17] & 0x06) >> 1 - posneg = ['negative', 'positive'] - features += 'sync type ' - if sync == 0x00: - features += 'analog composite (serrate on RGB)' - elif sync == 0x01: - features += 'bipolar analog composite (serrate on RGB)' - elif sync == 0x02: - features += 'digital composite (serrate on composite polarity ' \ - + (posneg[sync2 & 0x01]) + ')' - elif sync == 0x03: - features += 'digital separate (' - features += 'Vsync polarity ' + (posneg[(sync2 & 0x02) >> 1]) - features += ', Hsync polarity ' + (posneg[sync2 & 0x01]) - features += ')' - features += ', ' - self.ann_field(offset+17, offset+17, features[:-2]) - - def decode_descriptor(self, offset): - tag = self.cache[offset+3] - if tag == 0xff: - # Monitor serial number - text = bytes(self.cache[offset+5:][:13]).decode(encoding='cp437', errors='replace') - self.ann_field(offset, offset+17, 'Serial number: %s' % text.strip()) - elif tag == 0xfe: - # Text - text = bytes(self.cache[offset+5:][:13]).decode(encoding='cp437', errors='replace') - self.ann_field(offset, offset+17, 'Info: %s' % text.strip()) - elif tag == 0xfc: - # Monitor name - text = bytes(self.cache[offset+5:][:13]).decode(encoding='cp437', errors='replace') - self.ann_field(offset, offset+17, 'Model name: %s' % text.strip()) - elif tag == 0xfd: - # Monitor range limits - self.put(self.sn[offset][0], self.sn[offset+17][1], self.out_ann, - [ANN_SECTIONS, ['Monitor range limits']]) - self.ann_field(offset+5, offset+5, 'Minimum vertical rate: %dHz' % - self.cache[offset+5]) - self.ann_field(offset+6, offset+6, 'Maximum vertical rate: %dHz' % - self.cache[offset+6]) - self.ann_field(offset+7, offset+7, 'Minimum horizontal rate: %dkHz' % - self.cache[offset+7]) - self.ann_field(offset+8, offset+8, 'Maximum horizontal rate: %dkHz' % - self.cache[offset+8]) - self.ann_field(offset+9, offset+9, 'Maximum pixel clock: %dMHz' % - (self.cache[offset+9] * 10)) - if self.cache[offset+10] == 0x02: - # Secondary GTF curve supported - self.ann_field(offset+10, offset+17, 'Secondary timing formula supported') - elif tag == 0xfb: - # Additional color point data - self.put(self.sn[offset][0], self.sn[offset+17][1], self.out_ann, - [ANN_SECTIONS, ['Additional color point data']]) - elif tag == 0xfa: - # Additional standard timing definitions - self.put(self.sn[offset][0], self.sn[offset+17][1], self.out_ann, - [ANN_SECTIONS, ['Additional standard timing definitions']]) - else: - self.put(self.sn[offset][0], self.sn[offset+17][1], self.out_ann, - [ANN_SECTIONS, ['Unknown descriptor']]) - - def decode_descriptors(self, offset): - # 4 consecutive 18-byte descriptor blocks - for i in range(offset, 0, 18): - if self.cache[i] != 0 and self.cache[i+1] != 0: - self.decode_detailed_timing(i) - else: - if self.cache[i+2] == 0 or self.cache[i+4] == 0: - self.decode_descriptor(i) - |