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|
package Xconfigurator;
use diagnostics;
use strict;
use vars qw($in $resolution_wanted @depths @resolutions @accelservers @allservers %videomemory @ramdac_name @ramdac_id @clockchip_name @clockchip_id %keymap_translate @vsync_range %standard_monitors $intro_text $finalcomment_text $s3_comment $cirrus_comment $probeonlywarning_text $monitorintro_text $hsyncintro_text $vsyncintro_text $XF86firstchunk_text $keyboardsection_start $keyboardsection_part2 $keyboardsection_end $pointersection_text1 $pointersection_text2 $monitorsection_text1 $monitorsection_text2 $monitorsection_text3 $monitorsection_text4 $modelines_text_Trident_TG_96xx $modelines_text $devicesection_text $screensection_text1);
use pci_probing::main;
use common qw(:common :file);
use log;
use Xconfigurator_consts;
1;
sub setVirtual($) {
my $vt = '';
local *C;
sysopen C, "/dev/console", 2 or die "failed to open /dev/console: $!";
ioctl(C, c::VT_GETSTATE(), $vt) or die "ioctl VT_GETSTATE failed";
ioctl(C, c::VT_ACTIVATE(), $_[0]) or die "ioctl VT_ACTIVATE failed";
ioctl(C, c::VT_WAITACTIVE(), $_[0]) or die "ioctl VT_WAITACTIVE failed";
unpack "S", $vt;
}
sub readCardsDB {
my ($file) = @_;
my ($card, %cards);
local *F;
open F, $file or die "file $file not found";
my $lineno = 0; foreach (<F>) { $lineno++;
s/\s+$//;
/^#/ and next;
/^$/ and next;
/^END/ and last;
my ($cmd, $val) = /(\S+)\s*(.*)/ or log::l("bad line $lineno ($_)"), next;
my $f = $ {{
LINE => sub { push @{$card->{lines}}, $val unless $val eq "VideoRam" },
NAME => sub {
$cards{$card->{type}} = $card if $card;
$card = { type => $val };
},
SEE => sub {
my $c = $cards{$val} or die "Error in database, invalid reference $val at line $lineno";
push @{$card->{lines}}, @{$c->{lines} || []};
add2hash($card->{flags}, $c->{flags});
add2hash($card, $c);
},
CHIPSET => sub { $card->{chipset} = $val;
$card->{flags}->{needVideoRam} if member($val, qw(RIVA128));
},
SERVER => sub { $card->{server} = $val; },
RAMDAC => sub { $card->{ramdac} = $val; },
DACSPEED => sub { $card->{dacspeed} = $val; },
CLOCKCHIP => sub { $card->{clockchip} = $val; $card->{flags}->{noclockprobe} = 1; },
NOCLOCKPROBE => sub { $card->{flags}->{noclockprobe} = 1 },
UNSUPPORTED => sub { $card->{flags}->{unsupported} = 1 },
}}{$cmd};
$f ? &$f() : log::l("unknown line $lineno ($_)");
}
push @{$cards{S3}->{lines}}, $s3_comment;
push @{$cards{'CL-GD'}->{lines}}, $cirrus_comment;
# this entry is broken in X11R6 cards db
$cards{I128}->{flags}->{noclockprobe} = 1;
%cards;
}
sub readMonitorsDB {
my ($file) = @_;
my %monitors;
local *F;
open F, $file or die "can't open monitors database ($file): ?!";
my $lineno = 0; foreach (<F>) {
$lineno++;
s/\s+$//;
/^#/ and next;
/^$/ and next;
my @fields = qw(type bandwidth hsyncrange vsyncrange);
my @l = split /\s*;\s*/;
@l == @fields or log::l("bad line $lineno ($_)"), next;
my %l; @l{@fields} = @l;
$monitors{$l{type}} = \%l;
}
while (my ($k, $v) = each %standard_monitors) {
$monitors{$k} =
$monitors{$v->[0]} =
{ hsyncrange => $v->[1], vsyncrange => $v->[2] };
}
%monitors;
}
sub rewriteInittab {
my ($runlevel) = @_;
{
local (*F, *G);
open F, "/etc/inittab" or die "cannot open /etc/inittab: $!";
open G, "> /etc/inittab-" or die "cannot write in /etc/inittab-: $!";
foreach (<F>) {
print G /^id:/ ? "id:$runlevel:initdefault:\n" : $_;
}
}
unlink("/etc/inittab");
rename("/etc/inittab-", "/etc/inittab");
}
sub findLegalModes {
my ($card) = @_;
my $mem = $card->{memory} || 1000000;
foreach (@resolutions) {
my ($h, $v) = split 'x';
foreach $_ (@depths) {
push @{$card->{depth}->{$_}}, [ $h, $v ] if 1024 * $mem >= $h * $v * $_ / 8;
}
}
}
sub cardConfigurationAuto() {
my $card;
if (my ($c) = pci_probing::main::probe('video')) {
local $_;
($card->{identifier}, $_) = @$c;
$card->{type} = $1 if /Card:(.*)/;
$card->{server} = $1 if /Server:(.*)/;
}
$card;
}
sub cardConfiguration(;$) {
my $card = shift || {};
my %cards = readCardsDB("/usr/X11R6/lib/X11/Cards");
add2hash($card, cardConfigurationAuto()) unless $card->{type} || $card->{server} || $::expert;
add2hash($card, { type => $in->ask_from_list('', _("Choose a graphic card"), [keys %cards]) }) unless $card->{type} || $card->{server};
add2hash($card, $cards{$card->{type}}) if $card->{type};
add2hash($card, { vendor => "Unknown", board => "Unknown" });
$card;
}
sub monitorConfiguration(;$) {
my $monitor = shift || {};
my %monitors = readMonitorsDB("MonitorsDB");
add2hash($monitor, { type => $in->ask_from_list('', _("Choose a monitor"), [keys %monitors]) }) unless $monitor->{type};
add2hash($monitor, $monitors{$monitor->{type}});
add2hash($monitor, { vendor => "Unknown", model => "Unknown" });
$monitor;
}
sub testConfig($) {
my ($o) = @_;
my ($resolutions, $clocklines);
write_XF86Config($o, "/tmp/Xconfig");
local *F;
open F, "/etc/X11/X :9 -probeonly -pn -xf86config /tmp/Xconfig 2>&1 |";
foreach (<F>) {
#$videomemory = $2 if /(videoram|Video RAM):\s*(\d*)/;
# look for clocks
push @$clocklines, $1 if /clocks: (.*)/ && !/(pixel |num)clocks:/;
push @$resolutions, [ $1, $2 ] if /: Mode "(\d+)x(\d+)": mode clock/;
}
close F or die "X probeonly failed";
($resolutions, $clocklines);
}
sub autoResolutions($) {
my ($o) = @_;
my $card = $o->{card};
my $hres_wanted = first(split 'x', $o->{resolution_wanted});
# For the mono and vga16 server, no further configuration is required.
return if member($card->{server}, "Mono", "VGA16");
# Configure the modes order.
my ($ok, $best);
foreach (@depths) {
local $card->{default_depth} = $_;
my ($resolutions, $clocklines) = eval { testConfig($o) };
if ($@) {
delete $card->{depth}->{$_};
} else {
$card->{clocklines} ||= $clocklines unless $card->{flags}->{noclockprobe};
$card->{depth}->{$_} = $resolutions;
$ok ||= $resolutions;
my ($b) = sort { $b->[0] <=> $a->[0] } @$resolutions;
# require $resolution_wanted, no matter what bpp this requires
$best = $_ if $b->[0] >= $hres_wanted;
}
}
$ok or die "no valid modes";
$card->{default_depth} = $best;
}
sub moreCardConfiguration {
my ($o) = @_;
my $card = $o->{card};
$card->{vendor} ||= "Unknown";
$card->{model} ||= "Unknown";
unless ($card->{type}) {
$card->{flags}->{noclockprobe} = member($card->{server}, qw(I128 S3 S3V Mach64));
}
my $manual;
# some of these guys hate to be poked
# if we dont know then its at the user's discretion
#my $manual =
# $card->{server} =~ /^(TGA|Mach32)/ ||
# $card->{name} =~ /^Riva 128/ ||
# $card->{chipset} =~ /^(RIVA128|mgag)/ ||
# $::expert;
#
#my $unknown =
# member($card->{server}, qw(S3 S3V I128 Mach64)) ||
# member($card->{type},
# "Matrox Millennium (MGA)",
# "Matrox Millennium II",
# "Matrox Millennium II AGP",
# "Matrox Mystique",
# "Matrox Mystique",
# "S3",
# "S3V",
# "I128",
# ) ||
# $card->{type} =~ /S3 ViRGE/;
#
#$unknown and $manual ||= !$in->ask_okcancel('', [ _("I can try to autodetect information about graphic card, but it may freeze :("),
# _("Do you want to try?") ]);
$card->{flags}->{needVideoRam} and
$card->{memory} ||=
$videomemory{$in->ask_from_list_('',
_("Give your graphic card memory size"),
[ sort { $videomemory{$a} <=> $videomemory{$b} }
keys %videomemory])};
findLegalModes($o->{card});
unless ($manual || $::expert) {
# swith to virtual console 1 (hopefully not X :)
my $vt = setVirtual(1);
autoMemoryAndClocksline($o);
autoResolutions($o);
# restore the virtual console
setVirtual($vt);
}
}
# * Create the XF86Config file.
sub write_XF86Config {
my ($o, $file) = @_;
my $O;
local *F;
open F, ">$file" or die "can't write XF86Config in $file: $!";
print F $XF86firstchunk_text;
# Write keyboard section.
$O = $o->{keyboard};
print F $keyboardsection_start;
print F " RightAlt ", ($O->{altmeta} ? "ModeShift" : "Meta"), "\n";
print F $keyboardsection_part2;
print F qq( XkbLayout "$O->{xkb_keymap}"\n);
print F $keyboardsection_end;
# Write pointer section.
$O = $o->{mouse};
print F $pointersection_text1;
print F qq( Protocol "$O->{type}"\n);
print F qq( Device "$O->{device}"\n);
# this will enable the "wheel" or "knob" functionality if the mouse supports it
print F " ZAxisMapping 4 5\n" if
member($O->{type}, qw(IntelliMouse IMPS/2 ThinkingMousePS/2 NetScrollPS/2 NetMousePS/2 MouseManPlusPS/2));
print F $pointersection_text2;
print F "#" unless $O->{emulate3buttons};
print F " Emulate3Buttons\n";
print F "#" unless $O->{emulate3buttons};
print F " Emulate3Timeout 50\n\n";
print F "# ChordMiddle is an option for some 3-button Logitech mice\n\n";
print F "#" unless $O->{chordmiddle};
print F " ChordMiddle\n\n";
print F " ClearDTR\n" if $O->{cleardtrrts};
print F " ClearRTS\n\n" if $O->{cleardtrrts};
print F "EndSection\n\n\n";
# Write monitor section.
$O = $o->{monitor};
print F $monitorsection_text1;
print F qq( Identifier "$O->{type}"\n);
print F qq( VendorName "$O->{vendor}"\n);
print F qq( ModelName "$O->{model}"\n);
print F "\n";
print F $monitorsection_text2;
print F qq( HorizSync $O->{hsyncrange}\n);
print F "\n";
print F $monitorsection_text3;
print F qq( VertRefresh $O->{vsyncrange}\n);
print F "\n";
print F $monitorsection_text4;
print F ($o->{card}->{type} eq "TG 96" ?
$modelines_text_Trident_TG_96xx :
$modelines_text);
print F "EndSection\n\n\n";
# Write Device section.
$O = $o->{card};
print F $devicesection_text;
print F qq(Section "Device"\n);
print F qq( Identifier "$O->{type}"\n);
print F qq( VendorName "$O->{vendor}"\n);
print F qq( BoardName "$O->{board}"\n);
print F "#" if $O->{memory} && !$O->{flags}->{needVideoRam};
print F " VideoRam $O->{memory}\n" if $O->{memory};
print F map { " $_\n" } @{$O->{lines}};
print F qq( Ramdac "$O->{ramdac}"\n) if $O->{ramdac};
print F qq( Dacspeed "$O->{dacspeed}"\n) if $O->{dacspeed};
if ($O->{clockchip}) {
print F qq( Clockchip "$O->{clockchip}"\n);
} else {
print F " # Clock lines\n";
print F " Clocks $_\n" foreach (@{$O->{clocklines}});
}
print F "EndSection\n\n\n";
# Write Screen sections.
print F $screensection_text1;
my $screen = sub {
my ($server, $defdepth, $device, $depths) = @_;
print F qq(
Section "Screen"
Driver "$server"
Device "$device"
Monitor "$o->{monitor}->{type}"
);
print F " DefaultColorDepth $defdepth\n" if $defdepth;
foreach (sort { $a <=> $b } keys %$depths) {
my $m = join(" ",
map { '"' . join("x", @$_) . '"' }
sort { $b->[0] <=> $a->[0] } @{$depths->{$_}});
print F qq( Subsection "Display"\n);
print F qq( Depth $_\n) if $_;
print F qq( Modes $m\n);
print F qq( ViewPort 0 0\n);
print F qq( EndSubsection\n);
}
print F "EndSection\n";
};
# SVGA screen section.
print F qq(
# The Colour SVGA server
);
if ($O->{server} eq 'SVGA') {
&$screen("svga", $O->{default_depth}, $O->{type}, $O->{depth});
} else {
&$screen("svga", '', "Generic VGA", { 8 => [[ 320, 200 ]] });
}
&$screen("vga16", '',
(member($O->{server}, "Mono", "VGA16") ? $O->{type} : "Generic VGA"),
{ '' => [[ 640, 480 ], [ 800, 600 ]]});
&$screen("vga2", '',
(member($O->{server}, "Mono", "VGA16") ? $O->{type} : "Generic VGA"),
{ '' => [[ 640, 480 ], [ 800, 600 ]]});
&$screen("accel", $O->{default_depth}, $O->{type}, $O->{depth});
}
sub XF86check_link {
my ($void) = @_;
my $f = "/etc/X11/XF86Config";
touch($f);
my $l = "/usr/X11R6/lib/X11/XF86Config";
if (-e $l && (stat($f))[1] != (stat($l))[1]) { # compare the inode, must be the sames
-e $l and unlink($l) || die "can't remove bad $l";
symlink "../../../../etc/X11/XF86Config", $l;
}
}
# * Program entry point.
sub main {
my ($default, $interact) = @_;
my $o = $default;
$in = $interact;
$o->{resolution_wanted} ||= $resolution_wanted;
XF86check_link();
$o->{card} = cardConfiguration($o->{card});
unless ($::testing) {
my $prog = "/usr/X11R6/bin/XF86_$o->{card}->{server}";
-x $prog or die "server $o->{card}->{server} is not available (should be in $prog)";
unlink("/etc/X11/X");
symlink("../../$prog", "/etc/X11/X");
}
$o->{monitor} = monitorConfiguration($o->{monitor});
moreCardConfiguration($o);
write_XF86Config($o, "/tmp/Xconfig");
# Success
rewriteInittab(rc & STARTX ? 5 : 3);
}
|