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//proc/self/root/usr/bin/ddcmon
#!/usr/bin/perl -w # # Copyright (C) 2004-2005 Jean Delvare <khali@linux-fr.org> # # Parts inspired from decode-edid.pl. # Copyright (C) 2003-2004 Jean Delvare <khali@linux-fr.org> # # Parts inspired from the ddcmon driver and sensors' print_ddcmon function. # Copyright (C) 1998-2004 The LM Sensors Group # # Parts inspired from the fbmon driver (Linux 2.6.10). # Copyright (C) 2002 James Simmons <jsimmons@users.sf.net> # # 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 2 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, write to the Free Software # Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. # # Version 1.0 2005-01-04 Jean Delvare <khali@linux-fr.org> # # This script is a replacement for the now deprecated ddcmon kernel driver. # Instead of having a dedicated driver, it is better to reuse the standard # eeprom driver and implement the EDID-specific code in user-space. # # EDID (Extended Display Identification Data) is a VESA standard which # allows storing (on manufacturer's side) and retrieving (on user's side) # of configuration information about displays, such as manufacturer, # serial number, physical dimensions and allowed horizontal and vertical # refresh rates. # # Syntax: ddcmon [bus [address]] # Address can be given in decimal or hexadecimal (with a 0x prefix). # If no address is given, default is 0x50. # Bus number must be given in decimal. If no bus number is given, # try them all. use strict; use Fcntl qw(:DEFAULT :seek); use vars qw(@standard_scales); @standard_scales = ([1, 1], [3, 4], [4, 5], [16, 9]); # Make sure the eeprom module is loaded. # For non-modular kernels, we can't help. if (-r '/proc/modules') { my $found = 0; open(MODULES, '/proc/modules'); while (!$found && defined ($_ = <MODULES>)) { $found++ if m/^eeprom\s+/; } close(MODULES); unless ($found) { print STDERR "This script requires the eeprom module to be loaded.\n"; exit 1; } } # Only used for sysfs sub rawread { my $filename = shift; my $length = shift; my $offset = shift || 0; my $bytes = ''; sysopen(FH, $filename, O_RDONLY) or die "Can't open $filename"; if ($offset) { sysseek(FH, $offset, SEEK_SET) or die "Can't seek in $filename"; } $offset = 0; while ($length) { my $r = sysread(FH, $bytes, $length, $offset); die "Can't read $filename" unless defined($r); die "Unexpected EOF in $filename" unless $r; $offset += $r; $length -= $r; } close(FH); return $bytes; } sub get_edid_sysfs { my ($bus, $addr) = @_; my @bytes = unpack("C*", rawread("/sys/bus/i2c/devices/$bus-00$addr/eeprom", 128)); return \@bytes; } sub get_edid_procfs { my ($bus, $addr) = @_; my @bytes; for (my $i = 0 ; $i < 0x80; $i += 0x10) { my $filename = sprintf("/proc/sys/dev/sensors/eeprom-i2c-\%s-\%s/\%02x", $bus, $addr, $i); open(EEDATA, $filename) or die "Can't read $filename"; push @bytes, split(/\s+/, <EEDATA>); close(EEDATA); } return \@bytes; } sub print_line { my $label = shift; my $pattern = shift; printf("\%-24s$pattern\n", $label.':', @_); } sub extract_byte { my ($bytes, $offset) = @_; return $bytes->[$offset]; } sub extract_word { my ($bytes, $offset) = @_; return ($bytes->[$offset] | ($bytes->[$offset+1] << 8)); } sub extract_manufacturer { my ($bytes, $offset) = @_; my $i = ($bytes->[$offset+1] | ($bytes->[$offset] << 8)); return sprintf('%c%c%c', (($i >> 10) & 0x1f) + ord('A') - 1, (($i >> 5) & 0x1f) + ord('A') - 1, ($i & 0x1f) + ord('A') - 1); } sub extract_sesquiword { my ($bytes, $offset) = @_; return ($bytes->[$offset] | ($bytes->[$offset+1] << 8) | ($bytes->[$offset+2] << 16)); } sub extract_dword { my ($bytes, $offset) = @_; return ($bytes->[$offset] | ($bytes->[$offset+1] << 8) | ($bytes->[$offset+2] << 16) | ($bytes->[$offset+3] << 24)); } sub extract_display_input { my ($bytes, $offset) = @_; my @voltage = ('0.700V/0.300V', '0.714V/0.286V', '1.000V/0.400V', '0.700V/0.000V'); return 'Digital' if ($bytes->[$offset] & 0x80); return 'Analog ('.$voltage[($bytes->[$offset] & 0x60) >> 5].')'; } sub extract_dpms { my ($bytes, $offset) = @_; my @supported; push @supported, 'Active Off' if ($bytes->[$offset] & 0x20); push @supported, 'Suspend' if ($bytes->[$offset] & 0x40); push @supported, 'Standby' if ($bytes->[$offset] & 0x80); return join(', ', @supported) if (@supported); return 'None supported'; } sub extract_color_mode { my ($bytes, $offset) = @_; my @mode = ('Monochrome', 'RGB Multicolor', 'Non-RGB Multicolor'); return $mode[($bytes->[$offset] >> 3) & 0x03]; } sub good_signature { my $bytes = shift; return $bytes->[0] == 0x00 && $bytes->[1] == 0xff && $bytes->[2] == 0xff && $bytes->[3] == 0xff && $bytes->[4] == 0xff && $bytes->[5] == 0xff && $bytes->[6] == 0xff && $bytes->[7] == 0x00; } sub verify_checksum { my $bytes = shift; my $cs; for (my $i = 0, $cs = 0; $i < 0x80; $i++) { $cs += $bytes->[$i]; } return (($cs & 0xff) == 0 ? 'OK' : 'Not OK'); } sub add_timing { my ($timings, $new) = @_; my $mode = sprintf('%ux%u@%u%s', $new->[0], $new->[1], $new->[2], defined ($new->[3]) && $new->[3] eq 'interlaced' ? 'i' : ''); $timings->{$mode} = $new; } sub add_standard_timing { my ($timings, $byte0, $byte1) = @_; # Unused slot return if ($byte0 == $byte1) && ($byte0 == 0x01 || $byte0 == 0x00 || $byte0 == 0x20); my $width = ($byte0 + 31) * 8; my $height = $width * $standard_scales[$byte1 >> 6]->[0] / $standard_scales[$byte1 >> 6]->[1]; my $refresh = 60 + ($byte1 & 0x3f); add_timing($timings, [$width, $height, $refresh]); } sub sort_timings { # First order by width return -1 if $a->[0] < $b->[0]; return 1 if $a->[0] > $b->[0]; # Second by height return -1 if $a->[1] < $b->[1]; return 1 if $a->[1] > $b->[1]; # Third by frequency # Interlaced modes count for half their frequency my $freq_a = $a->[2]; my $freq_b = $b->[2]; $freq_a /= 2 if defined $a->[3] && $a->[3] eq 'interlaced'; $freq_b /= 2 if defined $b->[3] && $b->[3] eq 'interlaced'; return -1 if $freq_a < $freq_b; return 1 if $freq_a > $freq_b; return 0; } sub print_timings { my ($bytes, $timings) = @_; # Established Timings my @established = ( [720, 400, 70], [720, 400, 88], [640, 480, 60], [640, 480, 67], [640, 480, 72], [640, 480, 75], [800, 600, 56], [800, 600, 60], [800, 600, 72], [800, 600, 75], [832, 624, 75], [1024, 768, 87, 'interlaced'], [1024, 768, 60], [1024, 768, 70], [1024, 768, 75], [1280, 1024, 75], undef, undef, undef, [1152, 870, 75], ); my $temp = extract_sesquiword($bytes, 0x23); for (my $i = 0; $i < 24; $i++) { next unless defined($established[$i]); add_timing($timings, $established[$i]) if ($temp & (1 << $i)); } # Standard Timings for (my $i = 0x26; $i < 0x36; $i += 2) { add_standard_timing($timings, $bytes->[$i], $bytes->[$i+1]); } foreach my $v (sort sort_timings values(%{$timings})) { print_line("Timing", '%ux%u @ %u Hz%s', $v->[0], $v->[1], $v->[2], defined($v->[3]) ? ' ('.$v->[3].')' : ''); } } sub extract_string { my ($bytes, $offset) = @_; my $string = ''; for (my $i = 5; $i < 18; $i++) { last if $bytes->[$offset+$i] == 0x0a || $bytes->[$offset+$i] == 0x00; $string .= chr($bytes->[$offset+$i]) if ($bytes->[$offset+$i] >= 32 && $bytes->[$offset+$i] < 127); } $string =~ s/\s+$//; return $string; } # Some blocks contain different information: # 0x00, 0x00, 0x00, 0xfa: Additional standard timings block # 0x00, 0x00, 0x00, 0xfc: Monitor block # 0x00, 0x00, 0x00, 0xfd: Limits block # 0x00, 0x00, 0x00, 0xfe: Ascii block # 0x00, 0x00, 0x00, 0xff: Serial block # Return a reference to a hash containing all information. sub extract_detailed_timings { my ($bytes) = @_; my %info = ('timings' => {}); for (my $offset = 0x36; $offset < 0x7e; $offset += 18) { if ($bytes->[$offset] == 0x00 && $bytes->[$offset+1] == 0x00 && $bytes->[$offset+2] == 0x00 && $bytes->[$offset+4] == 0x00) { if ($bytes->[$offset+3] == 0xfa) { for (my $i = $offset + 5; $i < $offset + 17; $i += 2) { add_standard_timing($info{'timings'}, $bytes->[$i], $bytes->[$i+1]); } } elsif ($bytes->[$offset+3] == 0xfc) { $info{'monitor'} .= extract_string($bytes, $offset); } elsif ($bytes->[$offset+3] == 0xfd) { $info{'limits'}{'vsync_min'} = $bytes->[$offset+5]; $info{'limits'}{'vsync_max'} = $bytes->[$offset+6]; $info{'limits'}{'hsync_min'} = $bytes->[$offset+7]; $info{'limits'}{'hsync_max'} = $bytes->[$offset+8]; $info{'limits'}{'clock_max'} = $bytes->[$offset+9]; } elsif ($bytes->[$offset+3] == 0xfe) { $info{'ascii'} .= extract_string($bytes, $offset); } elsif ($bytes->[$offset+3] == 0xff) { $info{'serial'} .= extract_string($bytes, $offset); } next; } # Detailed Timing my $width = $bytes->[$offset+2] + (($bytes->[$offset+4] & 0xf0) << 4); my $height = $bytes->[$offset+5] + (($bytes->[$offset+7] & 0xf0) << 4); my $clock = extract_word($bytes, $offset) * 10000; my $hblank = $bytes->[$offset+3] + (($bytes->[$offset+4] & 0x0f) << 8); my $vblank = $bytes->[$offset+6] + (($bytes->[$offset+7] & 0x0f) << 8); my $area = ($width + $hblank) * ($height + $vblank); next unless $area; # Should not happen, but... my $refresh = ($clock + $area / 2) / $area; # Proper rounding add_timing($info{'timings'}, [$width, $height, $refresh]); } return \%info; } sub print_edid { my ($bus, $address) = @_; my $bytes; if (-r "/sys/bus/i2c/devices/$bus-00$address/eeprom") { $bytes = get_edid_sysfs($bus, $address); } elsif (-r "/proc/sys/dev/sensors/eeprom-i2c-$bus-$address/00") { $bytes = get_edid_procfs($bus, $address); } return 1 unless defined $bytes; return 2 unless good_signature($bytes); print_line('Checksum', '%s', verify_checksum($bytes)); my $edid_version = extract_byte($bytes, 0x12); my $edid_revision = extract_byte($bytes, 0x13); print_line('EDID Version', '%u.%u', $edid_version, $edid_revision); if ($edid_version > 1 || $edid_revision > 2) { $standard_scales[0][0] = 16; $standard_scales[0][1] = 10; } else { $standard_scales[0][0] = 1; $standard_scales[0][1] = 1; } my $info = extract_detailed_timings($bytes); print_line('Manufacturer ID', '%s', extract_manufacturer($bytes, 0x08)); print_line('Model Number', '0x%04X', extract_word($bytes, 0x0A)); print_line('Model Name', '%s', $info->{'monitor'}) if defined $info->{'monitor'}; if ($info->{'serial'}) { print_line('Serial Number', '%s', $info->{'serial'}) } elsif ((my $temp = extract_dword($bytes, 0x0C))) { print_line('Serial Number', '%u', $temp) } print_line('Manufacture Time', '%u-W%02u', 1990 + extract_byte($bytes, 0x11), extract_byte($bytes, 0x10)); print_line('Display Input', '%s', extract_display_input($bytes, 0x14)); print_line('Monitor Size (cm)', '%ux%u', extract_byte($bytes, 0x15), extract_byte($bytes, 0x16)); print_line('Gamma Factor', '%.2f', 1 + extract_byte($bytes, 0x17) / 100.0); print_line('DPMS Modes', '%s', extract_dpms($bytes, 0x18)); print_line('Color Mode', '%s', extract_color_mode($bytes, 0x18)) if (($bytes->[0x18] & 0x18) != 0x18); print_line('Additional Info', '%s', $info->{'ascii'}) if $info->{'ascii'}; if (defined($info->{'limits'})) { print_line('Vertical Sync (Hz)', '%u-%u', $info->{'limits'}{'vsync_min'}, $info->{'limits'}{'vsync_max'}); print_line('Horizontal Sync (kHz)', '%u-%u', $info->{'limits'}{'hsync_min'}, $info->{'limits'}{'hsync_max'}); print_line('Max Pixel Clock (MHz)', '%u', $info->{'limits'}{'clock_max'} * 10) unless $info->{'limits'}{'clock_max'} == 0xff; } print_timings($bytes, $info->{'timings'}); print("\n"); return 0; } # Get the address. Default to 0x50 if not given. my $address; if (defined($ARGV[1])) { $address = $ARGV[1]; # Convert to decimal, whatever the value. $address = oct $address if $address =~ m/^0/; # Convert to an hexadecimal string. $address = sprintf '%02x', $address; } else { $address = '50'; } if (defined($ARGV[0])) { my $error = print_edid($ARGV[0], $address); if ($error == 1) { print STDERR "No EEPROM found at 0x$address on bus $ARGV[0].\n"; exit 1; } elsif ($error == 2) { print STDERR "EEPROM found at 0x$address on bus $ARGV[0], but is not an EDID EEPROM.\n"; exit 1; } } # If no bus is given, try them all. else { my $total = 0; for (my $i = 0; $i < 16; $i++) { $total++ unless print_edid($i, $address); } unless ($total) { print STDERR "No EDID EEPROM found.\n"; exit 1; } }