package network::netconnect; # $Id$ use strict; use common; use log; use detect_devices; use run_program; use modules; use any; use mouse; use network::network; use network::tools; use MDK::Common::Globals "network", qw($in $prefix $connect_file $disconnect_file $connect_prog); my %conf; sub detect { my ($auto_detect, $o_class) = @_; my %l = ( isdn => sub { require network::isdn; $auto_detect->{isdn} = network::isdn::isdn_detect_backend(); }, lan => sub { # ethernet modules::load_category('network/main|gigabit|usb'); require network::ethernet; $auto_detect->{lan} = { map { $_->[0] => $_->[1] } network::ethernet::conf_network_card_backend() }; }, adsl => sub { require network::adsl; $auto_detect->{adsl} = network::adsl::adsl_detect(); }, modem => sub { $auto_detect->{modem} = { map { ($_->{description} || "$_->{MANUFACTURER}|$_->{DESCRIPTION} ($_->{device})") => $_ } detect_devices::getModem() }; }, ); $l{$_}->() foreach ($o_class || (keys %l)); return; } sub init_globals { my ($in, $prefix) = @_; MDK::Common::Globals::init( in => $in, prefix => $prefix, connect_file => "/etc/sysconfig/network-scripts/net_cnx_up", disconnect_file => "/etc/sysconfig/network-scripts/net_cnx_down", connect_prog => "/etc/sysconfig/network-scripts/net_cnx_pg"); } sub detect_timezone() { my %tmz2country = ( 'Europe/Paris' => N("France"), 'Europe/Amsterdam' => N("Netherlands"), 'Europe/Rome' => N("Italy"), 'Europe/Brussels' => N("Belgium"), 'America/New_York' => N("United States"), 'Europe/London' => N("United Kingdom") ); my %tm_parse = MDK::Common::System::getVarsFromSh('/etc/sysconfig/clock'); my @country; foreach (keys %tmz2country) { if ($_ eq $tm_parse{ZONE}) { unshift @country, $tmz2country{$_}; } else { push @country, $tmz2country{$_} }; } \@country; } # load sub category's wizard pages into main wizard data structure sub get_subwizard { my ($wiz, $type) = @_; my %net_conf_callbacks = (adsl => sub { require network::adsl; &network::adsl::get_wizard }, cable => sub { require network::ethernet; &network::ethernet::get_wizard }, isdn => sub { require network::isdn; &network::isdn::get_wizard }, lan => sub { require network::ethernet; &network::ethernet::get_wizard }, modem => sub { require network::modem; &network::modem::get_wizard }, ); $net_conf_callbacks{$type}->($wiz); } # configuring all network devices sub main { my ($_prefix, $netcnx, $in, $o_netc, $o_mouse, $o_intf, $o_first_time, $o_noauto) = @_; my $netc = $o_netc || {}; my $mouse = $o_mouse || {}; my $intf = $o_intf || {}; my $first_time = $o_first_time || 0; my ($network_configured, $direct_net_install, $cnx_type, $type, $interface, @cards, @all_cards, @devices); my (%connections, %rconnections, @connection_list); my ($modem, $modem_name, $modem_conf_read, $modem_dyn_dns, $modem_dyn_ip); my ($adsl_type, $adsl_device, @adsl_devices); my ($ntf_name, $ipadr, $netadr, $gateway_ex, $up, $isdn, $isdn_type, $need_restart_network); my ($module, $text, $auto_ip, $net_device, $onboot, $needhostname, $hotplug, $track_network_id, @fields); # lan config my $success = 1; my $ethntf = {}; my %wireless_mode = (N("Ad-hoc") => "Ad-hoc", N("Managed") => "Managed", N("Master") => "Master", N("Repeater") => "Repeater", N("Secondary") => "Secondary", N("Auto") => "Auto", ); my %l10n_lan_protocols = ( static => N("Manual configuration"), dhcp => N("Automatic IP (BOOTP/DHCP)"), if_(0, dhcp_zeroconf => N("Automatic IP (BOOTP/DHCP/Zeroconf)"), ) ); init_globals($in, $::prefix); $netc->{NET_DEVICE} = $netcnx->{NET_DEVICE} if $netcnx->{NET_DEVICE}; # REDONDANCE with read_conf. FIXME $netc->{NET_INTERFACE} = $netcnx->{NET_INTERFACE} if $netcnx->{NET_INTERFACE}; # REDONDANCE with read_conf. FIXME network::network::read_all_conf($::prefix, $netc, $intf); modules::mergein_conf("$::prefix/etc/modules.conf"); $netc->{autodetection} = 0; $netc->{autodetect} = {}; my $first_modem = sub { first(grep { $_->{device} =~ m!^/dev! } values %{$netc->{autodetect}{modem}}) }; my $handle_multiple_cnx = sub { $need_restart_network = 1 if $netcnx->{type} =~ /lan|cable/; my $nb = keys %{$netc->{internet_cnx}}; if (1 < $nb) { return "multiple_internet_cnx"; } else { $netc->{internet_cnx_choice} = (keys %{$netc->{internet_cnx}})[0] if $nb == 1; return $::isInstall ? "network_on_boot" : "apply_settings"; } }; my $lan_detect = sub { detect($netc->{autodetect}, 'lan') if !$::isInstall; modules::interactive::load_category($in, 'network/main|gigabit|usb|pcmcia', !$::expert, 1); @all_cards = network::ethernet::conf_network_card_backend($netc, $intf); @cards = map { $_->[0] } @all_cards; foreach my $card (@all_cards) { modules::remove_alias($card->[1]); modules::add_alias($card->[0], $card->[1]); } }; my %adsl_devices = ( speedtouch => N("Alcatel speedtouch USB modem"), sagem => N("Sagem USB modem"), bewan_usb => N("Bewan USB modem"), bewan_pci => N("Bewan PCI modem"), ); # main wizard: my $wiz; $wiz = { defaultimage => "wiz_drakconnect.png", name => N("Network & Internet Configuration"), pages => { welcome => { pre => sub { if (!$::isInstall) { $conf{$_} = 0 foreach qw(adsl cable isdn lan modem winmodem); } my @connections = ( [ #-PO: here, "(detected)" string will be appended to eg "ADSL connection" N("Modem connection"), N("(detected on port %s)", join('', map { if_($_->{device}, $_->{device}) } values %{$netc->{autodetect}{modem}})), "modem" ], [ N("ISDN connection"), N("(detected %s)", join(', ', map { $_->{description} } values %{$netc->{autodetect}{isdn}})), "isdn" ], [ N("ADSL connection"), N("(detected)"), "adsl" ], [ N("Cable connection"), N("(detected)"), "cable" ], [ N("LAN connection"), N("(detected)"), "lan" ], # if we ever want to split out wireless connection, we'd to split out modules between network/main and network/wlan: if_(0, [ N("Wireless connection"), N("(detected)"), "lan" ]), ); foreach (@connections) { my ($str, $extra_str, $type) = @$_; my $string = join('', $str, if_($conf{$type}, " - ", $extra_str)); $connections{$string} = $type; } %rconnections = reverse %connections; @connection_list = ({ val => \$cnx_type, type => 'list', list => [ map { $_->[0] } @connections ], }); }, if_(!$::isInstall, no_back => 1), name => N("Choose the connection you want to configure"), interactive_help_id => 'configureNetwork', data => \@connection_list, changed => sub { return if !$netc->{autodetection}; my $c = 0; #- $conf{adsl} and $c++; $conf{cable} and $c++; my $a = keys(%{$netc->{autodetect}{lan}}); 0 < $a && $a <= $c and $conf{lan} = undef; }, complete => sub { # at least one connection type must be choosen return 0 if !$::isInstall; return !any { $conf{$_} } keys %conf; }, post => sub { load_conf($netcnx, $netc, $intf) if $::isInstall; # :-( $type = $netcnx->{type} = $connections{$cnx_type}; if ($type eq 'cable') { $auto_ip = 1; return "lan"; } return $type; }, }, prepare_detection => { name => N("We are now going to configure the %s connection.\n\n\nPress \"%s\" to continue.", translate($type), N("Next")), post => $handle_multiple_cnx, }, hw_account => { # ask_info2 #my ($cnx, $netc) = @_; name => N("Connection Configuration") . "\n\n" . N("Please fill or check the field below"), data => [ (map { my ($dstruct, $field, $item) = @$_; $item->{val} = \$wiz->{var}{$dstruct}{$field}; if__($wiz->{var}{$dstruct}{$field}, $item); } ([ "cnx", "irq", { label => N("Card IRQ") } ], [ "cnx", "mem", { label => N("Card mem (DMA)") } ], [ "cnx", "io", { label => N("Card IO") } ], [ "cnx", "io0", { label => N("Card IO_0") } ], [ "cnx", "io1", { label => N("Card IO_1") } ], [ "cnx", "phone_in", { label => N("Your personal phone number") } ], [ "netc", "DOMAINNAME2", { label => N("Provider name (ex provider.net)") } ], [ "cnx", "phone_out", { label => N("Provider phone number") } ], [ "netc", "dnsServer2", { label => N("Provider dns 1 (optional)") } ], [ "netc", "dnsServer3", { label => N("Provider dns 2 (optional)") } ], [ "cnx", "vpivci", { label => N("Choose your country"), list => detect_timezone() } ], [ "cnx", "dialing_mode", { label => N("Dialing mode"), list => ["auto", "manual"] } ], [ "cnx", "speed", { label => N("Connection speed"), list => ["64 Kb/s", "128 Kb/s"] } ], [ "cnx", "huptimeout", { label => N("Connection timeout (in sec)") } ], ) ), ({ label => N("Account Login (user name)"), val => \$wiz->{var}{cnx}{login} }, { label => N("Account Password"), val => \$wiz->{var}{cnx}{passwd}, hidden => 1 }, ) ], post => sub { my $netc = $wiz->{var}{netc}; if ($netc->{vpivci}) { my %h = (N("Belgium") => '8_35' , N("France") => '8_35' , N("Italy") => '8_35' , N("Netherlands") => '8_48' , N("United Kingdom") => '0_38' , N("United States") => '8_35', ); $netc->{vpivci} = $h{$netc->{vpivci}}; } }, }, go_ethernet => { pre => sub { # my ($netc, $intf, $type, $ipadr, $netadr, $first_time) = @_; conf_network_card($netc, $intf, $type, $ipadr, $netadr) or return; $netc->{NET_INTERFACE} = $netc->{NET_DEVICE}; configureNetwork($netc, $intf, $first_time) or return; }, }, isdn => { pre=> sub { detect($netc->{autodetect}, 'isdn') if !$::isInstall && !$netc->{autodetection}; # FIXME: offer to pick any card from values %{$netc->{autodetect}{isdn}} $isdn = top(values %{$netc->{autodetect}{isdn}}); isdn_step_1: defined $isdn->{id} and goto intern_pci; }, # !intern_pci: name => N("What kind is your ISDN connection?"), data => [ { val => \$isdn_type, type => "list", list => [ N_("Internal ISDN card"), N_("External ISDN modem") ], } ], post => sub { if ($isdn_type =~ /card/) { intern_pci: $netc->{isdntype} = 'isdn_internal'; $netcnx->{isdn_internal} = $isdn; $netcnx->{isdn_internal} = isdn_read_config($netcnx->{isdn_internal}); isdn_detect($netcnx->{isdn_internal}, $netc) or goto isdn_step_1; } else { detect($netc->{autodetect}, 'modem') if !$::isInstall && !$netc->{autodetection}; $netc->{isdntype} = 'isdn_external'; $netcnx->{isdn_external}{device} = $first_modem->(); $netcnx->{isdn_external} = isdn_read_config($netcnx->{isdn_external}); $netcnx->{isdn_external}{special_command} = 'AT&F&O2B40'; require network::modem; $modem = $netcnx->{isdn_external}; return "ppp_account"; }; }, }, isdn_detect => { pre => sub { my ($isdn, $netc) = @_; if ($isdn->{id}) { log::explanations("found isdn card : $isdn->{description}; vendor : $isdn->{vendor}; id : $isdn->{id}; driver : $isdn->{driver}\n"); $isdn->{description} =~ s/\|/ -- /; isdn_detect_step_0: defined $isdn->{type} and my $new = $in->ask_yesorno(N("ISDN Configuration"), N("Do you want to start a new configuration ?"), 1); if ($isdn->{type} eq '' || $new) { isdn_ask($isdn, $netc, N("I have detected an ISDN PCI card, but I don't know its type. Please select a PCI card on the next screen.")) or goto isdn_detect_step_0; } else { isdn_detect_step_1: $isdn->{protocol} = isdn_ask_protocol() or goto isdn_detect_step_0; isdn_detect_step_2: isdn_ask_info($isdn, $netc) or goto isdn_detect_step_1; isdn_write_config($isdn, $netc) or goto isdn_detect_step_2; } } else { isdn_ask($isdn, $netc, N("No ISDN PCI card found. Please select one on the next screen.")) or return; } $netc->{$_} = 'ippp0' foreach 'NET_DEVICE', 'NET_INTERFACE'; 1; } }, no_supported_winmodem => { name => N("Warning") . "\n\n" . N("Your modem isn't supported by the system. Take a look at http://www.linmodems.org"), end => 1, }, modem => { pre => sub { detect($netc->{autodetect}, 'modem') if !$::isInstall; }, name => N("Select the modem to configure:"), data => sub { [ { label => N("Modem"), type => "list", val => \$modem_name, list => [ keys %{$netc->{autodetect}{modem}} ], allow_empty_list => 1 } ], }, post => sub { $ntf_name = $netc->{autodetect}{modem}{$modem_name}{device} || $netc->{autodetect}{modem}{$modem_name}{description}; print "Interface is $ntf_name\n"; return "ppp_account" if $ntf_name =~ m!^/dev/!; return "choose_serial_port" if !$ntf_name; my %relocations = (ltmodem => $in->do_pkgs->check_kernel_module_packages('ltmodem')); my $type; detect($netc->{autodetect}, 'lan') if !$::isInstall && !$netc->{autodetection}; foreach (map { $_->{description} } values %{$netc->{autodetect}{modem}}) { /Hcf/ and $type = "hcfpcimodem"; /Hsf/ and $type = "hsflinmodem"; /LT/ and $type = "ltmodem"; $relocations{$type} || $type && $in->do_pkgs->what_provides($type) or $type = undef; } return "no_supported_winmodem" if !$type; $in->do_pkgs->install($relocations{$type} ? @{$relocations{$type}} : $type); #$type eq 'ltmodem' and $netc->{autodetect}{modem} = '/dev/ttyS14'; #- fallback to modem configuration (beware to never allow test it). return "ppp_account"; }, }, choose_serial_port => { pre => sub { $modem ||= $netcnx->{modem} ||= {};; }, name => N("Please choose which serial port your modem is connected to."), interactive_help_id => 'selectSerialPort', data => sub { [ { var => \$modem->{device}, format => \&mouse::serial_port2text, type => "list", list => [ grep { $_ ne $o_mouse->{device} } (if_(-e '/dev/modem', '/dev/modem'), mouse::serial_ports()) ] } ], }, next => "ppp_account", }, ppp_account => { pre => sub { $mouse ||= {}; $mouse->{device} ||= readlink "$::prefix/dev/mouse"; write_cnx_script($netc, "modem", join("\n", if_($::testing, "/sbin/route del default"), "ifup ppp0"), q(ifdown ppp0 killall pppd ), $netcnx->{type}); return if $modem_conf_read; $modem_conf_read = 1; $netcnx->{$netcnx->{type}} ||= {}; $modem ||= $netcnx->{$netcnx->{type}}; $modem->{device} ||= $first_modem->()->{device}; my %l = getVarsFromSh("$::prefix/usr/share/config/kppprc"); $modem->{auth} ||= { 0 => N("Script-based"), 1 => N("PAP"), 2 => N("Terminal-based"), 3 => N("CHAP"), 4 => N("PAP/CHAP") }->{$l{Authentication}}; $modem->{$_} ||= $l{$_} foreach qw(Gateway IPAddr SubnetMask); $modem->{connection} ||= $l{Name}; $modem->{domain} ||= $l{Domain}; ($modem->{dns1}, $modem->{dns2}) = split(',', $l{DNS}); foreach (cat_("/etc/sysconfig/network-scripts/chat-ppp0")) { /.*ATDT(\d*)/ and $modem->{phone} ||= $1; } foreach (cat_("/etc/sysconfig/network-scripts/ifcfg-ppp0")) { /NAME=(['"]?)(.*)\1/ and $modem->{login} ||= $2; } $modem->{login} ||= $l{Username}; my $secret = network::tools::read_secret_backend(); foreach (@$secret) { $modem->{passwd} ||= $_->{passwd} if $_->{login} eq $modem->{login}; } #my $secret = network::tools::read_secret_backend(); #my @cnx_list = map { $_->{server} } @$secret; $modem->{$_} ||= '' foreach qw(connection phone login passwd auth domain dns1 dns2); $modem->{auto_gateway} ||= $modem->{Gateway} eq '0.0.0.0' ? N("Automatic") : N("Manual"); $modem->{auto_ip} ||= $modem->{IPAdddr} eq '0.0.0.0' ? N("Automatic") : N("Manual"); $modem->{auto_dns} ||= defined $modem->{dns1} || defined $modem->{dns2} ? N("Manual") : N("Automatic"); }, name => N("Dialup: account options"), data => sub { [ { label => N("Connection name"), val => \$modem->{connection} }, { label => N("Phone number"), val => \$modem->{phone} }, { label => N("Login ID"), val => \$modem->{login} }, { label => N("Password"), val => \$modem->{passwd}, hidden => 1 }, { label => N("Authentication"), val => \$modem->{auth}, list => [ N("PAP"), N("Terminal-based"), N("Script-based"), N("CHAP"), N("PAP/CHAP") ] }, ], }, next => "ppp_ip", }, ppp_ip => { pre => sub { $modem_dyn_ip = sub { $modem->{auto_ip} eq N("Automatic") }; }, name => N("Dialup: IP parameters"), data => sub { [ { label => N("IP address"), type => "list", val => \$modem->{auto_ip}, list => [ N("Automatic"), N("Manual") ] }, { label => N("IP address"), val => \$modem->{IPAddr}, disabled => $modem_dyn_ip }, { label => N("Subnet mask"), val => \$modem->{SubnetMask}, disabled => $modem_dyn_ip }, ]; }, next => "ppp_dns", }, ppp_dns => { pre => sub { $modem_dyn_dns = sub { $modem->{auto_dns} eq N("Automatic") }; }, name => N("Dialup: DNS parameters"), data => sub { [ { label => N("DNS"), type => "list", val => \$modem->{auto_dns}, list => [ N("Automatic"), N("Manual") ] }, { label => N("Domain name"), val => \$modem->{domain}, disabled => $modem_dyn_dns }, { label => N("First DNS Server (optional)"), val => \$modem->{dns1}, disabled => $modem_dyn_dns }, { label => N("Second DNS Server (optional)"), val => \$modem->{dns2}, disabled => $modem_dyn_dns }, { text => N("Set hostname from IP"), val => \$modem->{AutoName}, type => 'bool', disabled => $modem_dyn_dns }, ]; }, next => "ppp_gateway", }, ppp_gateway => { name => N("Dialup: IP parameters"), data => sub { [ { label => N("Gateway"), type => "list", val => \$modem->{auto_gateway}, list => [ N("Automatic"), N("Manual") ] }, { label => N("Gateway IP address"), val => \$modem->{Gateway}, disabled => sub { $modem->{auto_gateway} eq N("Automatic") } }, ]; }, post => sub { network::modem::ppp_configure($in, $modem); $netc->{$_} = 'ppp0' foreach 'NET_DEVICE', 'NET_INTERFACE'; $handle_multiple_cnx->(); }, }, adsl => { pre => sub { get_subwizard($wiz, 'adsl'); $lan_detect->(); detect($netc->{autodetect}, 'adsl'); # FIXME: we still need to detect bewan modems @adsl_devices = @cards; push @adsl_devices, $adsl_devices{speedtouch} if $netc->{autodetect}{adsl}{speedtouch}; push @adsl_devices, $adsl_devices{sagem} if $netc->{autodetect}{adsl}{sagem}; }, name => N("ADSL configuration") . "\n\n" . N("Select the network interface to configure:"), data => [ { label => N("Net Device"), type => "list", val => \$ntf_name, allow_empty_list => 1, list => \@adsl_devices, } ], post => sub { my %packages = ( 'eci' => 'eciadsl', 'sagem' => 'adiusbadsl', 'speedtouch' => 'speedtouch', ); my $adsl_device = find { $adsl_devices{$_} eq $ntf_name } keys %adsl_devices; print "package: $ntf_name => $adsl_device => $packages{$adsl_device}\n"; $netconnect::need_restart_network = member($adsl_device qw(speedtouch eci); $in->do_pkgs->install($packages{$adsl_device}) if $packages{$adsl_device}; return 'adsl_protocol'; }, }, adsl_protocol => { name => N("Connect to the Internet") . "\n\n" . N("The most common way to connect with adsl is pppoe. Some connections use pptp, a few use dhcp. If you don't know, choose 'use pppoe'"), data => [ { label => N("ADSL connection type :"), val => \$adsl_type, type => "list", list => [ N("Dynamic Host Configuration Protocol (DHCP)"), N("Manual TCP/IP configuration"), N("Point to Point Tuneling Protocol (PPPTP)"), N("PPP over Ethernet (PPPoE)"), N("PPP over ATM (PPPoA)"), ], }, ], }, lan => { pre => $lan_detect, name => N("Select the network interface to configure:"), data => [ { label => N("Net Device"), type => "list", val => \$ntf_name, list => [ detect_devices::getNet() ], allow_empty_list => 1 } ], post => sub { delete $ethntf->{$_} foreach keys %$ethntf; add2hash($ethntf, $intf->{$ntf_name}); $net_device = $netc->{NET_DEVICE}; return "lan_intf" if $type eq 'cable'; $::isInstall && $net_device eq $ethntf->{DEVICE} ? 'lan_alrd_cfg' : 'lan_protocol'; }, }, lan_alrd_cfg => { name => N("WARNING: this device has been previously configured to connect to the Internet. Simply accept to keep this device configured. Modifying the fields below will override this configuration."), type => "yesorno", post => sub { my ($res) = @_; die 'wizcancel' if !$res; return "lan_protocol"; } }, lan_protocol => { pre => sub { $module ||= (find { $_->[0] eq $ethntf->{DEVICE} } @all_cards)->[1]; $auto_ip = $l10n_lan_protocols{defined $auto_ip ? ($auto_ip ? 'dhcp' : 'static') :$ethntf->{BOOTPROTO}} || 0; }, name => sub { N("Zeroconf hostname resolution"); N("Configuring network device %s (driver %s)", $ethntf->{DEVICE}, $module) . "\n\n" . N("The following protocols can be used to configure an ethernet connection. Please choose the one you want to use") }, data => sub { [ { val => \$auto_ip, type => "list", list => [ values %l10n_lan_protocols ] } ]; }, post => sub { $auto_ip = $auto_ip eq N("Automatic IP (BOOTP/DHCP/Zeroconf)") || 0; return 'lan_intf'; }, }, # FIXME: is_install: no return for each card "last step" because of manual popping # better construct an hash of { current_netintf => next_step } which next_step = last_card ? next_eth_step : next_card ? lan_intf => { pre => sub { $net_device = $netc->{NET_DEVICE}; $onboot = $ethntf->{ONBOOT} ? $ethntf->{ONBOOT} =~ /yes/ : bool2yesno(!member($ethntf->{DEVICE}, map { $_->{device} } detect_devices::pcmcia_probe())); $needhostname = $ethntf->{NEEDHOSTNAME} !~ /no/; $hotplug = $::isStandalone && !$ethntf->{MII_NOT_SUPPORTED} || 1; $track_network_id = $::isStandalone && $ethntf->{HWADDR} || detect_devices::isLaptop(); delete $ethntf->{NETWORK}; delete $ethntf->{BROADCAST}; @fields = qw(IPADDR NETMASK); $netcnx->{dhcp_client} ||= "dhcp-client"; }, name => sub { join('', N("Configuring network device %s (driver %s)", $ethntf->{DEVICE}, $module), if_(!$auto_ip, "\n\n" . N("Please enter the IP configuration for this machine. Each item should be entered as an IP address in dotted-decimal notation (for example, 1.2.3.4).")), ) }, data => sub { [ $auto_ip ? ( { text => N("Assign host name from DHCP address"), val => \$needhostname, type => "bool", disabled => sub { ! $auto_ip } }, { label => N("DHCP host name"), val => \$ethntf->{DHCP_HOSTNAME}, disabled => sub { ! ($auto_ip && $needhostname) } }, ) : ( { label => N("IP address"), val => \$ethntf->{IPADDR}, disabled => sub { $auto_ip } }, { label => N("Netmask"), val => \$ethntf->{NETMASK}, disabled => sub { $auto_ip } }, ), { text => N("Track network card id (useful for laptops)"), val => \$track_network_id, type => "bool" }, { text => N("Network Hotplugging"), val => \$hotplug, type => "bool" }, { text => N("Start at boot"), val => \$onboot, type => "bool" }, { label => N("DHCP client"), val => \$netcnx->{dhcp_client}, list => ["dhcp-client", "dhcpcd", "dhcpxd"], advanced => 1 }, ], }, complete => sub { $ethntf->{BOOTPROTO} = $auto_ip ? "dhcp" : "static"; $netc->{DHCP} = $auto_ip; return 0 if $auto_ip; if (my @bad = map_index { if_(!is_ip($ethntf->{$_}), $::i) } @fields) { $in->ask_warn(N("Error"), N("IP address should be in format 1.2.3.4")); return 1, $bad[0]; } $in->ask_warn(N("Error"), N("Warning : IP address %s is usually reserved !", $ethntf->{IPADDR})) if is_ip_forbidden($ethntf->{IPADDR}); }, focus_out => sub { $ethntf->{NETMASK} ||= netmask($ethntf->{IPADDR}) unless $_[0] }, post => sub { $ethntf->{ONBOOT} = bool2yesno($onboot); $ethntf->{NEEDHOSTNAME} = bool2yesno($needhostname); $ethntf->{MII_NOT_SUPPORTED} = bool2yesno(!$hotplug); $ethntf->{HWADDR} = $track_network_id or delete $ethntf->{HWADDR}; $in->do_pkgs->install($netcnx->{dhcp_client}) if $auto_ip; return is_wireless_intf($module) ? "wireless" : "static_hostname"; }, }, wireless => { pre => sub { $ethntf->{wireless_eth} = 1; $netc->{wireless_eth} = 1; $ethntf->{WIRELESS_MODE} = "Managed"; $ethntf->{WIRELESS_ESSID} = "any"; }, name => N("Please enter the wireless parameters for this card:"), data => [ { label => N("Operating Mode"), val => \$ethntf->{WIRELESS_MODE}, list => [ keys %wireless_mode ] }, { label => N("Netwok name (ESSID)"), val => \$ethntf->{WIRELESS_ESSID} }, { label => N("Network ID"), val => \$ethntf->{WIRELESS_NWID} }, { label => N("Operating frequency"), val => \$ethntf->{WIRELESS_FREQ} }, { label => N("Sensitivity threshold"), val => \$ethntf->{WIRELESS_SENS} }, { label => N("Bitrate (in b/s)"), val => \$ethntf->{WIRELESS_RATE} }, { label => N("Encryption key"), val => \$ethntf->{WIRELESS_ENC_KEY} }, { label => N("RTS/CTS"), val => \$ethntf->{WIRELESS_RTS}, help => N("RTS/CTS adds a handshake before each packet transmission to make sure that the channel is clear. This adds overhead, but increase performance in case of hidden nodes or large number of active nodes. This parameters set the size of the smallest packet for which the node sends RTS, a value equal to the maximum packet size disable the scheme. You may also set this parameter to auto, fixed or off.") }, { label => N("Fragmentation"), val => \$ethntf->{WIRELESS_FRAG} }, { label => N("Iwconfig command extra arguments"), val => \$ethntf->{WIRELESS_IWCONFIG}, advanced => 1, help => N("Here, one can configure some extra wireless parameters such as: ap, channel, commit, enc, power, retry, sens, txpower (nick is already set as the hostname). See iwpconfig(8) man page for further information."), }, { label => N("Iwspy command extra arguments"), val => \$ethntf->{WIRELESS_IWSPY}, advanced => 1, help => N("Iwspy is used to set a list of addresses in a wireless network interface and to read back quality of link information for each of those. This information is the same as the one available in /proc/net/wireless : quality of the link, signal strength and noise level. See iwpspy(8) man page for further information."), }, { label => N("Iwpriv command extra arguments"), val => \$ethntf->{WIRELESS_IWPRIV}, advanced => 1, help => N("Iwpriv enable to set up optionals (private) parameters of a wireless network interface. Iwpriv deals with parameters and setting specific to each driver (as opposed to iwconfig which deals with generic ones). In theory, the documentation of each device driver should indicate how to use those interface specific commands and their effect. See iwpriv(8) man page for further information."), } ], complete => sub { if ($ethntf->{WIRELESS_FREQ} !~ /[0-9.]*[kGM]/) { $in->ask_warn(N("Error"), N("Freq should have the suffix k, M or G (for example, \"2.46G\" for 2.46 GHz frequency), or add enough '0' (zeroes).")); return 1, 6; } if ($ethntf->{WIRELESS_RATE} !~ /[0-9.]*[kGM]/) { $in->ask_warn(N("Error"), N("Rate should have the suffix k, M or G (for example, \"11M\" for 11M), or add enough '0' (zeroes).")); return 1, 8; } }, post => sub { # untranslate parameters $ethntf->{WIRELESS_MODE} = $wireless_mode{$ethntf->{WIRELESS_MODE}}; return "static_hostname"; }, }, conf_network_card => { pre => sub { # my ($netc, $intf, $type, $ipadr, $o_netadr) = @_; #-type =static or dhcp modules::interactive::load_category($in, 'network/main|gigabit|usb', !$::expert, 1); @all_cards = conf_network_card_backend($netc, $intf, $type, undef, $ipadr, $netadr) or # FIXME: fix this $in->ask_warn(N("Error"), N("No ethernet network adapter has been detected on your system. I cannot set up this connection type.")), return; }, name => N("Choose the network interface") . "\n\n" . N("Please choose which network adapter you want to use to connect to Internet."), data => [ { var => \$interface, type => "list", list => \@all_cards, } ], format => sub { my ($e) = @_; $e->[0] . ($e->[1] ? " (using module $e->[1])" : "") }, post => sub { modules::write_conf() if $::isStandalone; my $_device = conf_network_card_backend($netc, $intf, $type, $interface->[0], $ipadr, $netadr); return "lan"; }, }, static_hostname => { pre => sub { $netc->{dnsServer} ||= dns($intf->{IPADDR}); $gateway_ex = gateway($intf->{IPADDR}); #- $netc->{GATEWAY} ||= gateway($intf->{IPADDR}); }, name => N("Please enter your host name. Your host name should be a fully-qualified host name, such as ``mybox.mylab.myco.com''. You may also enter the IP address of the gateway if you have one."), data => sub { [ if_(!$auto_ip, { label => N("Host name"), val => \$netc->{HOSTNAME} }), { label => N("DNS server 1"), val => \$netc->{dnsServer} }, { label => N("DNS server 2"), val => \$netc->{dnsServer2} }, { label => N("DNS server 3"), val => \$netc->{dnsServer3} }, { label => N("Search domain"), val => \$netc->{DOMAINNAME}, help => N("By default search domain will be set from the fully-qualified host name") }, if_(!$auto_ip, { label => N("Gateway (e.g. %s)", $gateway_ex), val => \$netc->{GATEWAY} }, if_(@devices > 1, { label => N("Gateway device"), val => \$netc->{GATEWAYDEV}, list => \@devices }, ), ), ], }, complete => sub { foreach my $dns (qw(dnsServer dnsServer2 dnsServer3)) { if ($netc->{$dns} && !is_ip($netc->{$dns})) { $in->ask_warn(N("Error"), N("DNS server address should be in format 1.2.3.4")); return 1; } } if ($netc->{GATEWAY} && !is_ip($netc->{GATEWAY})) { $in->ask_warn(N("Error"), N("Gateway address should be in format 1.2.3.4")); return 1; } }, #post => $handle_multiple_cnx, next => "zeroconf", }, dhcp_hostname => { }, zeroconf => { name => N("Enter a Zeroconf host name which will be the one that your machine will get back to other machines on the network:"), data => [ { label => N("Zeroconf Host name"), val => \$netc->{ZEROCONF_HOSTNAME} } ], complete => sub { if ($netc->{ZEROCONF_HOSTNAME} =~ /\./) { $in->ask_warn(N("Error"), N("Zeroconf host name must not contain a .")); return 1; } }, post => $handle_multiple_cnx, }, multiple_internet_cnx => { name => N("You have configured multiple ways to connect to the Internet.\nChoose the one you want to use.\n\n") . if_(!$::isStandalone, "You may want to configure some profiles after the installation, in the Mandrake Control Center"), data => [ { label => N("Internet connection"), val => \$netc->{internet_cnx_choice}, list => [ keys %{$netc->{internet_cnx}} ] } ], post => sub { $::isInstall ? "network_on_boot" : "apply_settings" }, }, apply_settings => { name => N("Configuration is complete, do you want to apply settings ?"), type => "yesorno", next => "network_on_boot", }, network_on_boot => { pre => sub { # condition is : member($netc->{internet_cnx_choice}, ('adsl', 'isdn')); # and $netc->{at_boot} = $in->ask_yesorno(N("Network Configuration Wizard"), N("Do you want to start the connection at boot?")); }, name => N("Do you want to start the connection at boot?"), type => "yesorno", post => sub { my ($res) = @_; $netc->{at_boot} = $res; if ($netc->{internet_cnx_choice}) { write_cnx_script($netc); $netcnx->{type} = $netc->{internet_cnx}{$netc->{internet_cnx_choice}}{type}; } else { unlink "$::prefix/etc/sysconfig/network-scripts/net_cnx_up"; unlink "$::prefix/etc/sysconfig/network-scripts/net_cnx_down"; undef $netc->{NET_DEVICE}; } network::network::configureNetwork2($in, $::prefix, $netc, $intf); $network_configured = 1; $::isInstall ? "restart" : "ask_connect_now"; }, }, restart => { # FIXME: condition is "if ($netconnect::need_restart_network && $::isStandalone && (!$::expert || $in->ask_yesorno(..." name => N("The network needs to be restarted. Do you want to restart it ?"), # data => [ { label => N("Connection:"), val => \$type, type => 'list', list => [ sort values %l ] }, ], post => sub { if (!$::testing && !run_program::rooted($::prefix, "/etc/rc.d/init.d/network restart")) { $success = 0; $in->ask_okcancel(N("Network Configuration"), N("A problem occured while restarting the network: \n\n%s", `/etc/rc.d/init.d/network restart`), 0); } write_initscript(); return $::isStandalone && member($netc->{internet_cnx_choice}, qw(modem adsl isdn)) ? "ask_connect_now" : "end"; }, }, ask_connect_now => { name => N("Do you want to try to connect to the Internet now?"), type => "yesorno", post => sub { my ($a) = @_; my ($type) = $netc->{internet_cnx_choice}; $up = 1; if ($a) { # local $::isWizard = 0; my $_w = $in->wait_message('', N("Testing your connection..."), 1); connect_backend(); my $s = 30; $type =~ /modem/ and $s = 50; $type =~ /adsl/ and $s = 35; $type =~ /isdn/ and $s = 20; sleep $s; $up = connected(); } $success = $up; return $a ? "disconnect" : "end"; } }, disconnect => { name => sub { $up ? N("The system is now connected to the Internet.") . if_($::isInstall, N("For security reasons, it will be disconnected now.")) : N("The system doesn't seem to be connected to the Internet. Try to reconfigure your connection."); }, no_back => 1, end => 1, post => sub { $::isInstall and disconnect_backend(); return "end"; }, }, end => { name => sub { return $success ? join('', N("Congratulations, the network and Internet configuration is finished. "), if_($::isStandalone && $in->isa('interactive::gtk'), N("After this is done, we recommend that you restart your X environment to avoid any hostname-related problems."))) : N("Problems occured during configuration. Test your connection via net_monitor or mcc. If your connection doesn't work, you might want to relaunch the configuration."); }, end => 1, }, }, }; my $use_wizard = 1; if ($::isInstall) { if ($first_time && $in->{method} =~ /^(ftp|http|nfs)$/) { !$::expert && !$o_noauto || $in->ask_okcancel(N("Network Configuration"), N("Because you are doing a network installation, your network is already configured. Click on Ok to keep your configuration, or cancel to reconfigure your Internet & Network connection. "), 1) and do { $netcnx->{type} = 'lan'; output_with_perm("$::prefix$connect_file", 0755, qq(ifup eth0 )); output("$::prefix$disconnect_file", 0755, qq( ifdown eth0 )); $direct_net_install = 1; $use_wizard = 0; }; } }; if ($use_wizard) { require wizards; $wiz->{var} = { netc => $o_netc || {}, mouse => $o_mouse || {}, intf => $o_intf || {}, }; wizards->new->safe_process($wiz, $in); } # install needed packages: $network_configured or network::network::configureNetwork2($in, $::prefix, $netc, $intf); my $connect_cmd; if ($netcnx->{type} =~ /modem/ || $netcnx->{type} =~ /isdn_external/) { $connect_cmd = qq( #!/bin/bash if [ -n "\$DISPLAY" ]; then if [ -e /usr/bin/kppp ]; then /sbin/route del default /usr/bin/kppp & else /usr/sbin/net_monitor --connect fi else $connect_file fi ); } elsif ($netcnx->{type}) { $connect_cmd = qq( #!/bin/bash if [ -n "\$DISPLAY" ]; then /usr/sbin/net_monitor --connect else $connect_file fi ); } else { $connect_cmd = qq( #!/bin/bash /usr/sbin/drakconnect ); } if ($direct_net_install) { $connect_cmd = qq( #!/bin/bash if [ -n "\$DISPLAY" ]; then /usr/sbin/net_monitor --connect else $connect_file fi ); } output_with_perm("$prefix$connect_prog", 0755, $connect_cmd) if $connect_cmd; $netcnx->{$_} = $netc->{$_} foreach qw(NET_DEVICE NET_INTERFACE); $netcnx->{type} =~ /adsl/ or system("/sbin/chkconfig --del adsl 2> /dev/null"); if ($::isInstall && $::o->{security} >= 3) { require network::drakfirewall; network::drakfirewall::main($in, $::o->{security} <= 3); } } sub set_profile { my ($netcnx) = @_; system(qq(/sbin/set-netprofile "$netcnx->{PROFILE}")); log::explanations(qq(Switching to "$netcnx->{PROFILE}" profile)); } sub save_profile { my ($netcnx) = @_; system(qq(/sbin/save-netprofile "$netcnx->{PROFILE}")); log::explanations(qq(Saving "$netcnx->{PROFILE}" profile)); } sub del_profile { my ($profile) = @_; return if !$profile || $profile eq "default"; rm_rf("$::prefix/etc/netprofile/profiles/$profile"); log::explanations(qq(Deleting "$profile" profile)); } sub add_profile { my ($netcnx, $profile) = @_; return if !$profile || $profile eq "default" || member($profile, get_profiles()); system(qq(/sbin/clone-netprofile "$netcnx->{PROFILE}" "$profile")); log::explanations(qq("Creating "$profile" profile)); } sub get_profiles() { map { if_(m!([^/]*)/$!, $1) } glob("$::prefix/etc/netprofile/profiles/*/"); } sub load_conf { my ($netcnx, $netc, $intf) = @_; my $current = { getVarsFromSh("$prefix/etc/netprofile/current") }; $netcnx->{PROFILE} = $current->{PROFILE} || 'default'; network::network::read_all_conf($prefix, $netc, $intf); } sub get_net_device() { my $connect_file = "/etc/sysconfig/network-scripts/net_cnx_up"; my $network_file = "/etc/sysconfig/network"; if (cat_("$prefix$connect_file") =~ /ifup/) { if_(cat_($connect_file) =~ /^\s*ifup\s+(.*)/m, split(' ', $1)) } elsif (cat_("$prefix$connect_file") =~ /network/) { ${{ getVarsFromSh("$prefix$network_file") }}{GATEWAYDEV}; } elsif (cat_("$prefix$connect_file") =~ /isdn/) { "ippp+"; } else { "ppp+"; }; } sub read_net_conf { my ($_prefix, $netcnx, $netc) = @_; $netc->{$_} = $netcnx->{$_} foreach 'NET_DEVICE', 'NET_INTERFACE'; $netcnx->{$netcnx->{type}} ||= {}; } sub start_internet { my ($o) = @_; init_globals($o, $o->{prefix}); #- give a chance for module to be loaded using kernel-BOOT modules... $::isStandalone or modules::load_category('network/main|gigabit|usb'); run_program::rooted($prefix, $connect_file); } sub stop_internet { my ($o) = @_; init_globals($o, $o->{prefix}); run_program::rooted($prefix, $disconnect_file); } 1; =head1 network::netconnect::detect() =head2 example of usage use lib qw(/usr/lib/libDrakX); use network::netconnect; use Data::Dumper; use class_discard; local $in = class_discard->new; network::netconnect::init_globals($in); my %i; &network::netconnect::detect(\%i); print Dumper(\%i),"\n"; =cut