package harddrake::ui; use strict; require harddrake::data; use common; use my_gtk qw(:helpers :wrappers :various); use interactive; # { field => [ short_translation, full_description] } my %fields = ( "alternative_drivers" => [ N("Alternative drivers"), N("the list of alternative drivers for this sound card")], "bus" => [ N("Bus"), N("this is the physical bus on which the device is plugged (eg: PCI, USB, ...)")], "channel" => [N("Channel"), N("EIDE/SCSI channel")], "bogomips" => [N("Bogomips"), N("The GNU/Linux kernel needs to do run a calculation loop at boot time to initialize a timer counter. Its result is stored as bogomips as a way to \"benchmark\" the cpu.")], "bus_id" => [ N("Bus identification"), N("- PCI and USB devices: this list the vendor, device, subvendor and subdevice PCI/USB ids")], "bus_location" => [ N("Location on the bus"), N("- pci devices: this gives the PCI slot, device and function of this card - eide devices: the device is either a slave or a master device - scsi devices: the scsi bus and the scsi device ids")], "cache size" => [ N("Cache size"), N("Size of the (second level) cpu cache") ], "coma_bug" => [ N("Coma bug:"), N("Does this cpu has Cyrix 6x86 Coma bug ?") ], "cpu family" => [ N("Cpuid family"), N("Family of the cpu (eg: 6 for i686 class)")], "cpuid level" => [ N("Cpuid level"), N("Information level that one can obtain through the cpuid instruction")], "cpu MHz" => [ N("Frequency (MHz)"), N("The cpu frequency in Mhz (Mega herz which in first approximation may be coarsely assimilated to number of instructions the cpu is able to execute per second)")], "description" => [ N("Description"), N("This field describe the device")], "device" => [ N("Old device file"), N("old static device name used in dev package")], "devfs_device" => [ N("New devfs device"), N("new dinamic device name generated by incore kernel devfs")], "driver" => [ N("Module"), N("the module of the GNU/Linux kernel that handle that device")], "flags" => [ N("Flags"), N("CPU flags reported by the kernel")], "fdiv_bug" => [ N("Fdiv bug"), N("Early Intel Pentium chips manufactured have a bug in their floating point processor which did not achieve the attended precision when performing a Floating point DIVision (FDIV)") ], "fpu" => [ N("Is FPU present"), N("yes means the processor has an arithmetic coprocessor")], "fpu_exception" => [ N("Does FPU have an irq vector"), N("yes means the arithmetic coprocessor has an exception vector attached")], "f00f_bug" => [N("F00f bug"), N("Early pentium were buggy and freezed when decoding the F00F bytecode")], "hlt_bug" => [ N("Halt bug"), N("Some of the early i486DX-100 chips cannot reliably return to operating mode after the \"halt\" instruction is used") ], "info" => [N("Floppy format"), N("Format of floppies the drive accept")], "level" => [N("Level"), N("Sub generation of the cpu")], "media_type" => [ N("Media class"), N("class of hardware device")], "Model" => [N("Model"), N("hard disk model")], "model" => [N("Model"), N("Generation of the cpu (eg: 8 for PentiumIII, ...)")], "model name" => [N("Model name"), N("Official vendor name of the cpu")], "nbuttons" => [ N("Number of buttons"), "the number of buttons the mouse have"], "name" => [ N("Name"), "the name of the cpu"], "port" => [N("Port"), N("network printer port")], "processor" => [ N("Processor ID"), N("the number of the processor")], "stepping" => [ N("Model stepping"), N("Stepping of the cpu (sub model (generation) number)") ], "type" => [ N("Type"), N("The type of bus on which the mouse is connected")], "Vendor" => [ N("Vendor"), N("the vendor name of the device")], "vendor_id" => [ N("Vendor"), N("the vendor name of the processor")] ); my ($in, %IDs, $pid, $w); my %options; my $conffile = "/etc/sysconfig/harddrake2/ui.conf"; my ($modem_check_box, $printer_check_box, $current_device); my @menu_items = ( { path => N("/_File"), type => '' }, { path => N("/_File").N("/_Quit"), accelerator => N("Q"), callback => \&quit_global }, # { path => N("/_Options").N("/Autodetect _printers"), type => '', # callback => sub { $options{PRINTERS_DETECTION} ^= 1 } }, # { path => N("/_Options").N("/Autodetect _modems"), type => '', # callback => sub { $options{MODEMS_DETECTION} ^= 1 } }, { path => N("/_Help"), type => '' }, { path => N("/_Help").N("/_Help..."), callback => sub { if ($current_device) { $in->ask_warn(N("Harddrake help"), N("Description of the fields:\n\n") . join("\n\n", map { if_($fields{$_}[0], "$fields{$_}[0]: $fields{$_}[1]") } sort keys %$current_device)) } else { $in->ask_warn(N("Select a device !"), N("Once you've selected a device, you'll be able to see explanations on fields displayed on the right frame (\"Information\")")) } } }, { path => N("/_Help").N("/_Report Bug"), callback => sub { unless (fork) { exec("drakbug --report harddrake2 &") } } }, { path => N("/_Help").N("/_About..."), callback => sub { $in->ask_warn(N("About Harddrake"), join ("", N("This is HardDrake, a Mandrake hardware configuration tool.\nVersion:"), " $harddrake::data::version\n", N("Author:"), " Thierry Vignaud \n\n", formatAlaTeX($::license))); } } ); # fill the devices tree sub detect { my @class_tree; foreach (@harddrake::data::tree) { my ($Ident, $title, $icon, $configurator, $detector) = @$_; next if ref($detector) ne "CODE"; #skip class witouth detector next if $Ident =~ /(MODEM|PRINTER)/ && $::testing; next if $Ident =~ /MODEM/ && !$options{MODEMS_DETECTION}; next if $Ident =~ /PRINTER/ && !$options{PRINTERS_DETECTION}; # print N("Probing %s class\n", $Ident); # standalone::explanations("Probing %s class\n", $Ident); my @devices = &$detector; next if !listlength(@devices); # Skip empty class (no devices) my $devices_list; foreach (@devices) { $_->{custom_id} = harddrake::data::custom_id($_, $title); if (exists $_->{bus} && $_->{bus} eq "PCI") { my $i = $_; $_->{bus_id} = join ':', map { if_($i->{$_} ne "65535", sprintf("%lx", $i->{$_})) } qw(vendor id subvendor subid); $_->{bus_location} = join ':', map { sprintf("%lx", $i->{$_}) } qw(pci_bus pci_device pci_function); } # split description into manufacturer/description ($_->{Vendor}, $_->{description}) = split(/\|/, $_->{description}) if exists $_->{description}; if (exists $_->{val}) { # Scanner ? my $val = $_->{val}; ($_->{Vendor}, $_->{description}) = split(/\|/, $val->{DESCRIPTION}); } # EIDE detection incoherency: if (exists $_->{bus} && $_->{bus} eq 'ide') { $_->{channel} = $_->{channel} ? N("secondary") : N("primary"); delete $_->{info}; } elsif ((exists $_->{id}) && $_->{bus} ne 'PCI') { # SCSI detection incoherency: my $i = $_; $_->{bus_location} = join ':', map { sprintf("%lx", $i->{$_}) } qw(bus id); } if ($Ident eq "AUDIO") { require harddrake::sound; my $alter = harddrake::sound::get_alternative($_->{driver}); $_->{alternative_drivers} = join(':', @$alter) if $alter->[0] ne 'unknown'; } foreach my $i (qw(vendor id subvendor subid pci_bus pci_device pci_function MOUSETYPE XMOUSETYPE unsafe val devfs_prefix wacom auxmouse)) { delete $_->{$i} } $_->{device} = '/dev/'.$_->{device} if exists $_->{device}; push @$devices_list, $_; } push @class_tree, [ $devices_list, [ [$title], 5], $icon, [ 0, ($title =~ /Unknown/ ? 0 : 1) ], $title, $configurator ]; } @class_tree; } sub new { my ($sig_id, $wait); unless ($::isEmbedded) { # so we don't stop the mcc's animation while detecting hw & building ui $in = 'interactive'->vnew('su', 'default'); $wait = $in->wait_message(N("Please wait"), N("Detection in progress")); my_gtk::flush(); } %options = getVarsFromSh($conffile); my @class_tree = &detect; # Build the gui add_icon_path('/usr/share/pixmaps/harddrake2/'); $w = my_gtk->new(N("Harddrake2 version ") . $harddrake::data::version); $w->{window}->set_usize(760, 550) unless $::isEmbedded; $options{MODEMS_DETECTION} = 1 unless defined $options{MODEMS_DETECTION}; $options{PRINTERS_DETECTION} = 1 unless defined $options{PRINTERS_DETECTION}; $w->{window}->add(my $main_vbox = gtkadd(gtkadd($::isEmbedded ? new Gtk::VBox(0, 0) : gtkadd(new Gtk::VBox(0, 0), my $menubar = ugtk::create_factory_menu($w->{rwindow}, @menu_items)), my $hpaned = new Gtk::HPaned), my $statusbar = new Gtk::Statusbar)); $main_vbox->set_child_packing($statusbar, 0, 0, 0, 'start'); if ($::isEmbedded) { $main_vbox->add(gtksignal_connect(my $but = new Gtk::Button(N("Quit")), 'clicked' => \&quit_global)); $main_vbox->set_child_packing($but, 0, 0, 0, 'start'); } else { $main_vbox->set_child_packing($menubar, 0, 0, 0, 'start') } $hpaned->pack1(gtkadd(new Gtk::Frame(N("Detected hardware")), createScrolledWindow(my $tree = new Gtk::CTree(1, 0))), 1, 1); $hpaned->pack2(my $vbox = gtkadd(gtkadd(gtkadd(new Gtk::VBox, gtkadd(new Gtk::Frame(N("Information")), gtkadd(new Gtk::HBox, createScrolledWindow(my $text = new Gtk::Text)))), my $module_cfg_button = new Gtk::Button(N("Configure module"))), my $config_button = new Gtk::Button(N("Run config tool"))), 1, 1); $vbox->set_child_packing($config_button, 0, 0, 0, 'start'); $vbox->set_child_packing($module_cfg_button, 0, 0, 0, 'start'); my $color = gtkcolor(0x3100, 0x6400, 0xbc00); my $wcolor = gtkcolor(0xFFFF, 0x6400, 0x6400); $tree->set_column_auto_resize(0, 1); $tree->signal_connect('select_row', sub { my ($ctree, $row, $column, $event) = @_; my $node = $ctree->node_nth($row); my ($name, undef) = $tree->node_get_pixtext($node,0); $current_device = $tree->{data}{$name}; if ($current_device) { $text->hide; $text->backward_delete($text->get_point); foreach my $i (sort keys %$current_device) { if ($fields{$i}[0]) { $text->insert("", $text->style->black, "", $fields{$i}[0] . ": "); $text->insert("", $i eq 'driver' && $current_device->{$i} eq 'unknown' ? $wcolor : $color, "", "$current_device->{$i}\n\n"); } else { print "Skip \"$i\" field => \"$current_device->{$i}\"\n\n" } } disconnect($module_cfg_button, 'module'); # we've valid driver, let's offer to configure it if (exists $current_device->{driver} && $current_device->{driver} !~ /(unknown|.*\|.*)/ && $current_device->{driver} !~ /^Card:/) { $module_cfg_button->show; $IDs{module} = $module_cfg_button->signal_connect(clicked => sub { require modules::interactive; modules::interactive::config_window($in, $current_device); gtkset_mousecursor_normal(); }); } disconnect($config_button, 'tool'); $text->show; my $configurator = $tree->{configurator}{$name}; return unless -x $configurator; # we've a configurator, let's add a button for it and show it $IDs{tool} = $config_button->signal_connect(clicked => sub { return if defined $pid; if ($pid = fork()) { $sig_id = $statusbar->push($statusbar->get_context_id("id"), N("Running \"%s\" ...", $configurator)); } else { exec($configurator) or die "$configurator missing\n" } }); $config_button->show; } else { $text->backward_delete($text->get_point); # erase all previous text $config_button->hide; $module_cfg_button->hide; } }); # Fill the graphic tree with a "tree branch" widget per device category foreach (@class_tree) { my ($devices_list, $arg, $icon, $arg2, $title, $configurator) = @$_; my $hw_class_tree = $tree->insert_node(undef, undef, @$arg, (gtkcreate_png($icon)) x 2, @$arg2); # Fill the graphic tree with a "tree leaf" widget per device foreach (@$devices_list) { my $custom_id = $_->{custom_id}; delete $_->{custom_id}; $custom_id .= ' ' while exists($tree->{data}{$custom_id}); my $hw_item = $tree->insert_node($hw_class_tree, undef, [$custom_id ], 5, (undef) x 4, 1, 0); $tree->{data}{$custom_id} = $_; $tree->{configurator}{$custom_id} = $configurator; } } $SIG{CHLD} = sub { undef $pid; $statusbar->pop($sig_id) }; $w->{rwindow}->signal_connect(delete_event => \&quit_global); undef $wait; gtkset_mousecursor_normal(); $w->{rwindow}->set_position('center') unless $::isEmbedded; $w->{rwindow}->show_all(); foreach ($module_cfg_button, $config_button) { $_->hide }; $in = 'interactive'->vnew('su', 'default') if $::isEmbedded; $w->main; } sub quit_global { kill(15, $pid) if $pid; setVarsInSh($conffile, \%options); $w->{rwindow}->destroy; $in->exit; } # remove a signal handler from a button & hide it if needed sub disconnect { my ($button, $id) = @_; if ($IDs{$id}) { $button->signal_disconnect($IDs{$id}); $button->hide; undef $IDs{$id}; } } 1;