package Xconfig::xfreeX; # $Id$ use diagnostics; use strict; use Xconfig::parse; use common; use log; sub empty_config { my ($class) = @_; my $raw_X = Xconfig::parse::read_XF86Config_from_string(our $default_header); bless $raw_X, $class; } sub read { my ($class, $file) = @_; $file ||= ($::prefix || '') . (bless {}, $class)->config_file; my $raw_X = Xconfig::parse::read_XF86Config($file); bless $raw_X, $class; } sub write { my ($raw_X, $file) = @_; $file ||= ($::prefix || '') . $raw_X->config_file; rename $file, "$file.old"; Xconfig::parse::write_XF86Config($raw_X, $file); } my @monitor_fields = qw(VendorName ModelName HorizSync VertRefresh); sub get_monitors { my ($raw_X) = @_; my @raw_monitors = $raw_X->get_monitor_sections; map { raw_export_section($_, [ 'Identifier', @monitor_fields ]) } @raw_monitors; } sub set_monitors { my ($raw_X, @monitors) = @_; my @raw_monitors = $raw_X->new_monitor_sections(int @monitors); mapn { my ($raw_monitor, $monitor) = @_; raw_import_section($raw_monitor, $monitor, \@monitor_fields); } \@raw_monitors, \@monitors; } sub get_monitor { my ($raw_X) = @_; my @l = $raw_X->get_monitors; if (!@l) { $raw_X->new_monitor_sections(1); @l = $raw_X->get_monitors; } $l[0] } my @keyboard_fields = qw(XkbLayout XkbModel XkbDisable XkbOptions XkbCompat); sub get_keyboard { my ($raw_X) = @_; my $raw_kbd = $raw_X->get_keyboard_section; raw_export_section($raw_kbd, \@keyboard_fields); } sub set_keyboard { my ($raw_X, $kbd) = @_; my $raw_kbd = eval { $raw_X->get_keyboard_section } || $raw_X->new_keyboard_section; raw_import_section($raw_kbd, $kbd); $raw_X->set_Option('keyboard', $raw_kbd, keys %$kbd); } #- example: { Protocol => 'IMPS/2', Device => '/dev/psaux', Emulate3Buttons => undef, Emulate3Timeout => 50, ZAxisMapping => [ '4 5', '6 7' ] } my @mouse_fields = qw(Protocol Device ZAxisMapping Emulate3Buttons Emulate3Timeout); #-); sub get_mice { my ($raw_X) = @_; my @raw_mice = $raw_X->get_mouse_sections; map { raw_export_section($_, \@mouse_fields) } @raw_mice; } sub set_mice { my ($raw_X, @mice) = @_; my @raw_mice = $raw_X->new_mouse_sections(int @mice); mapn { my ($raw_mouse, $mouse) = @_; raw_import_section($raw_mouse, $mouse); $raw_X->set_Option('mouse', $raw_mouse, keys %$mouse); } \@raw_mice, \@mice; } sub get_devices { my ($raw_X) = @_; my @raw_devices = $raw_X->get_device_sections; map { my $raw_device = $_; my $device = raw_export_section($raw_device, [ 'Identifier', $raw_X->get_device_section_fields ]); $device->{Options} = raw_export_section($raw_device, [ grep { (deref_array($raw_device->{$_}))[0]->{Option} } keys %$raw_device ]); $device; } @raw_devices; } sub set_devices { my ($raw_X, @devices) = @_; my @raw_devices = $raw_X->new_device_sections(int @devices); mapn { my ($raw_device, $device) = @_; my %Options = %{$device->{Options} || {}}; add2hash(\%Options, $device->{'Options_' . $raw_X->name}); raw_import_section($raw_device, $device, [ $raw_X->get_device_section_fields ]); raw_import_section($raw_device, \%Options); $_->{Option} = 1 foreach map { deref_array($raw_device->{$_}) } keys %Options; $raw_device->{''} = [ { post_comment => $device->{raw_LINES} } ] if $device->{raw_LINES}; } \@raw_devices, \@devices; } sub get_device { my ($raw_X) = @_; first(get_devices($raw_X)); } sub get_screens { my ($raw_X) = @_; $raw_X->get_Sections('Screen'); } sub get_default_screen { my ($raw_X) = @_; my @l = get_screens($raw_X); (find { $_->{Identifier} && val($_->{Identifier}) eq 'screen1' || $_->{Driver} && val($_->{Driver}) =~ /svga|accel/ } @l) || $l[0]; } sub set_screens { my ($raw_X, @screens) = @_; my @raw_screens = $raw_X->new_screen_sections(int @screens); mapn { my ($raw_screen, $screen) = @_; raw_import_section($raw_screen, $screen); } \@raw_screens, \@screens; } sub get_modules { my ($raw_X) = @_; my $raw_Module = $raw_X->get_Section('Module') or return; my $Module = raw_export_section($raw_Module, ['Load']); @{$Module->{Load} || []}; } sub add_load_module { my ($raw_X, $module) = @_; my $raw_Module = $raw_X->get_Section('Module') || $raw_X->new_module_section; my %load_modules_comment = ( dbe => 'Double-Buffering Extension', v4l => 'Video for Linux', dri => 'direct rendering', glx => '3D layer', 'glx-3.so' => '3D layer', ); my $comment = $load_modules_comment{$module}; push @{$raw_Module->{Load}}, { val => $module, comment_on_line => $comment && " # $comment", } if !member($module, $raw_X->get_modules); } sub remove_load_module { my ($raw_X, $module) = @_; my $raw_Module = $raw_X->get_Section('Module') or return; if (my @l = grep { $_->{val} ne $module } @{$raw_Module->{Load}}) { $raw_Module->{Load} = \@l; } else { $raw_X->remove_Section('Module'); } } sub set_load_module { my ($raw_X, $module, $bool) = @_; $bool ? add_load_module($raw_X, $module) : remove_load_module($raw_X, $module); } sub get_resolution { my ($raw_X, $Screen) = @_; $Screen ||= $raw_X->get_default_screen or return {}; my $depth = val($Screen->{DefaultColorDepth}); my $Display = find { !$depth || val($_->{l}{Depth}) eq $depth } @{$Screen->{Display} || []} or return {}; val($Display->{l}{Modes}) =~ /(\d+)x(\d+)/ or return {}; { X => $1, Y => $2, Depth => val($Display->{l}{Depth}) }; } sub set_resolution { my ($raw_X, $resolution, $Screen_) = @_; foreach my $Screen ($Screen_ ? $Screen_ : $raw_X->get_screens) { $Screen ||= $raw_X->get_default_screen or internal_error('no screen'); $Screen->{DefaultColorDepth} = { val => $resolution->{Depth} }; $Screen->{Display} = [ map { my $modes = do { if ($raw_X->is_fbdev($Screen)) { '"default"'; } else { my @Modes = grep { m/(\d+)x(\d+)/; $1 <= $resolution->{X} && (!$resolution->{Y} || $2 <= $resolution->{Y}); } reverse our @resolutions; join(" ", map { qq("$_") } @Modes); } }; { l => { Depth => { val => $_ }, Modes => { val => $modes } } }; } $raw_X->depths ]; } } #-############################################################################## #- common to xfree3 and xfree4 #-############################################################################## sub default_ModeLine { our $default_ModeLine } sub get_device_sections { my ($raw_X) = @_; $raw_X->get_Sections('Device'); } sub new_device_sections { my ($raw_X, $nb_new) = @_; $raw_X->remove_Section('Device'); map { $raw_X->add_Section('Device', { Identifier => { val => "device$_" } }) } (1 .. $nb_new); } sub get_monitor_sections { my ($raw_X) = @_; $raw_X->get_Sections('Monitor'); } sub new_monitor_sections { my ($raw_X, $nb_new) = @_; my $ModeLine = ModeLine_from_string(qq(Section "Monitor"\n) . $raw_X->default_ModeLine . qq(EndSection\n)); $raw_X->remove_Section('Monitor'); map { $raw_X->add_Section('Monitor', { Identifier => { val => "monitor$_" }, ModeLine => $ModeLine }) } (1 .. $nb_new); } sub new_screen_sections { my ($raw_X, $nb_new) = @_; $raw_X->remove_Section('Screen'); map { $raw_X->add_Section('Screen', {}) } (1 .. $nb_new); } sub new_module_section { my ($raw_X) = @_; return $raw_X->add_Section('Module', {}); } #-############################################################################## #- helpers #-############################################################################## sub raw_export_section { my ($section, $fields) = @_; my $export_name = sub { my ($name) = @_; my $h = $section->{$name} or return; my @l = map { if_(!$_->{commented}, $_->{val}) } deref_array($h) or return; $name => (ref($h) eq 'ARRAY' ? \@l : $l[0]); }; my %h = map { $export_name->($_) } @$fields; \%h; } sub raw_import_section { my ($section, $h, $fields) = @_; foreach ($fields ? grep { exists $h->{$_} } @$fields : keys %$h) { my @l = map { ref($_) eq 'HASH' ? $_ : { val => $_ } } deref_array($h->{$_}); $section->{$_} = (ref($h->{$_}) eq 'ARRAY' ? \@l : $l[0]); } } sub add_Section { my ($raw_X, $Section, $h) = @_; my @suggested_ordering = qw(Files ServerFlags Module DRI Keyboard Pointer XInput InputDevice Monitor Device Screen ServerLayout); my %order = map_index { { lc($_) => $::i } } @suggested_ordering; my $e = { name => $Section, l => $h }; my $added; @$raw_X = map { if ($order{lc $_->{name}} > $order{lc $Section} && !$added) { $added = 1; ($e, $_); } else { $_ } } @$raw_X; push @$raw_X, $e if !$added; $h; } sub remove_Section { my ($raw_X, $Section, $when) = @_; @$raw_X = grep { $_->{name} ne $Section || $when && $when->($_->{l}) } @$raw_X; $raw_X; } sub get_Sections { my ($raw_X, $Section, $when) = @_; map { if_($_->{name} eq $Section && (!$when || $when->($_->{l})), $_->{l}) } @$raw_X; } sub get_Section { my ($raw_X, $Section, $when) = @_; my @l = get_Sections($raw_X, $Section, $when); @l > 1 and log::l("Xconfig: found more than one Section $Section"); $l[0]; } sub get_Section_by_Identifier { my ($raw_X, $Section, $Identifier) = @_; my @l = get_Sections($raw_X, $Section, sub { val($_[0]{Identifier}) eq $Identifier }); @l > 1 and die "more than one Section $Section has Identifier $Identifier"; $l[0]; } sub val { my ($ref) = @_; $ref && $ref->{val}; } sub ModeLine_from_string { my ($s) = @_; my $raw_X_for_ModeLine = Xconfig::parse::read_XF86Config_from_string($s); get_Section($raw_X_for_ModeLine, 'Monitor')->{ModeLine}; } our @resolutions = ('640x480', '800x600', '1024x768', if_(arch() =~ /ppc/, '1152x768'), '1152x864', '1280x960', '1280x1024', '1400x1050', '1600x1200', '1920x1440', '2048x1536'); our $default_header = <<'END'; # File generated by XFdrake. # ********************************************************************** # Refer to the XF86Config man page for details about the format of # this file. # ********************************************************************** Section "Files" # Multiple FontPath entries are allowed (they are concatenated together) # By default, Mandrake 6.0 and later now use a font server independent of # the X server to render fonts. FontPath "unix/:-1" EndSection Section "ServerFlags" #DontZap # disable <Crtl><Alt><BS> (server abort) #DontZoom # disable <Crtl><Alt><KP_+>/<KP_-> (resolution switching) AllowMouseOpenFail # allows the server to start up even if the mouse doesn't work EndSection END our $default_ModeLine = arch() =~ /ppc/ ? <<'END_PPC' : <<'END'; # Apple iMac modes ModeLine "1024x768" 78.525 1024 1049 1145 1312 768 769 772 800 +hsync +vsync ModeLine "800x600" 62.357 800 821 901 1040 600 601 604 632 +hsync +vsync ModeLine "640x480" 49.886 640 661 725 832 480 481 484 514 +hsync +vsync # Apple monitors tend to do 832x624 ModeLine "832x624" 57 832 876 940 1152 624 625 628 667 -hsync -vsync # Apple PowerBook G3 ModeLine "800x600" 100 800 816 824 840 600 616 624 640 -hsync -vsync # Apple TI Powerbook ModeLine "1152x768" 78.741 1152 1173 1269 1440 768 769 772 800 +vsync +vsync # Pismo Firewire G3 ModeLine "1024x768" 65 1024 1032 1176 1344 768 771 777 806 -hsync -vsync # iBook2 ModeLine "1024x768" 65 1024 1048 1184 1344 768 771 777 806 -hsync -vsync # 17" Apple Studio Display ModeLine "1024x768" 112.62 1024 1076 1248 1420 768 768 780 808 +hsync +vsync # HiRes Apple Studio Display ModeLine "1280x1024" 135 1280 1288 1392 1664 1024 1027 1030 1064 # Another variation ModeLine "1280x1024" 134.989 1280 1317 1429 1688 1024 1025 1028 1066 +hsync +vsync END_PPC # Sony Vaio C1(X,XS,VE,VN)? # 1024x480 @ 85.6 Hz, 48 kHz hsync ModeLine "1024x480" 65.00 1024 1032 1176 1344 480 488 494 563 -hsync -vsync # TV fullscreen mode or DVD fullscreen output. # 768x576 @ 79 Hz, 50 kHz hsync ModeLine "768x576" 50.00 768 832 846 1000 576 590 595 630 # 768x576 @ 100 Hz, 61.6 kHz hsync ModeLine "768x576" 63.07 768 800 960 1024 576 578 590 616 END 1;