# Author: Stephen Hemminger # Date: 2009 # Description: vyatta interface management # **** License **** # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 as # published by the Free Software Foundation. # # 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. # # This code was originally developed by Vyatta, Inc. # Portions created by Vyatta are Copyright (C) 2008 Vyatta, Inc. # All Rights Reserved. # **** End License **** package Vyatta::Interface; use strict; use warnings; use Vyatta::Misc; use Vyatta::ioctl; use Vyatta::Config; use base 'Exporter'; our @EXPORT = qw(IFF_UP IFF_BROADCAST IFF_DEBUG IFF_LOOPBACK IFF_POINTOPOINT IFF_RUNNING IFF_NOARP IFF_PROMISC IFF_MULTICAST); use constant { IFF_UP => 0x1, # interface is up IFF_BROADCAST => 0x2, # broadcast address valid IFF_DEBUG => 0x4, # turn on debugging IFF_LOOPBACK => 0x8, # is a loopback net IFF_POINTOPOINT => 0x10, # interface is has p-p link IFF_NOTRAILERS => 0x20, # avoid use of trailers IFF_RUNNING => 0x40, # interface RFC2863 OPER_UP IFF_NOARP => 0x80, # no ARP protocol IFF_PROMISC => 0x100, # receive all packets IFF_ALLMULTI => 0x200, # receive all multicast packets IFF_MASTER => 0x400, # master of a load balancer IFF_SLAVE => 0x800, # slave of a load balancer IFF_MULTICAST => 0x1000, # Supports multicast IFF_PORTSEL => 0x2000, # can set media type IFF_AUTOMEDIA => 0x4000, # auto media select active IFF_DYNAMIC => 0x8000, # dialup device with changing addresses IFF_LOWER_UP => 0x10000, # driver signals L1 up IFF_DORMANT => 0x20000, # driver signals dormant IFF_ECHO => 0x40000, # echo sent packets }; # Build list of known interface types my $NETDEV = '/opt/vyatta/etc/netdevice'; # Hash of interface types # ex: $net_prefix{"eth"} = "ethernet" my %net_prefix; sub parse_netdev_file { my $filename = shift; open(my $in, '<', $filename) or return; while (<$in>) { chomp; # remove text after # as comment s/#.*$//; my ($prefix, $type) = split; # ignore blank lines or missing patterns next unless defined($prefix) && defined($type); $net_prefix{$prefix} = $type; } close $in; } # read /opt/vyatta/etc/netdevice parse_netdev_file($NETDEV); # look for optional package interfaces in /opt/vyatta/etc/netdevice.d my $dirname = $NETDEV . '.d'; if (opendir(my $netd, $dirname)) { foreach my $pkg (sort readdir $netd) { parse_netdev_file($dirname . '/' . $pkg); } closedir $netd; } # get list of interface types (only used in usage function) sub interface_types { return values %net_prefix; } # new interface description object sub new { my $that = shift; my $name = pop; my $class = ref($that) || $that; my ($vif, $vif_c, $vrid); my $dev = $name; # remove VRRP id suffix if ($dev =~ /^(.*)v(\d+)$/) { $dev = $1; $vrid = $2; } # QinQ or usual VLAN if ($dev =~ /^([^\.]+)\.(\d+)\.(\d+)/) { $dev = $1; $vif = $2; $vif_c = $3; } elsif ($dev =~ /^(.*)\.(\d+)/) { $dev = $1; $vif = $2; } return unless ($dev =~ /^(l2tpeth|[a-z]+)/); # convert from prefix 'eth' to type 'ethernet' my $type = $net_prefix{$1}; return unless $type; # unknown network interface type my $self = { name => $name, type => $type, dev => $dev, vif => $vif, vif_c => $vif_c, vrid => $vrid, }; bless $self, $class; return $self; } ## Field accessors sub name { my $self = shift; return $self->{name}; } sub path { my $self = shift; my $config = new Vyatta::Config; if ($self->{name} =~ /^(pppo[a])(\d+)/) { # For ppp need to look in config file to find where used my $type = $1; my $id = $2; my $intf = _ppp_intf($self->{name}); return unless $intf; my $adsl = "interfaces adsl $intf pvc"; my $config = new Vyatta::Config; foreach my $pvc ($config->listNodes($adsl)) { my $path = "$adsl $pvc $type $id"; return $path if $config->exists($path); } } elsif ($self->{name} =~ /^(wan\d+)\.(\d+)/) { # guesswork for wan devices my $dev = $1; my $vif = $2; foreach my $type (qw(cisco-hdlc ppp frame-relay)) { my $path = "interfaces serial $dev $type vif $vif"; return $path if $config->exists($path); } } else { # normal device my $path = "interfaces $self->{type} $self->{dev}"; $path .= " vrrp vrrp-group $self->{vrid}" if $self->{vrid}; $path .= " vif $self->{vif}" if ($self->{vif} && !$self->{vif_c}); $path .= " vif-s $self->{vif} vif-c $self->{vif_c}" if ($self->{vif} && $self->{vif_c}); return $path; } return; # undefined (not in config) } sub type { my $self = shift; return $self->{type}; } sub vif { my $self = shift; return $self->{vif}; } sub vrid { my $self = shift; return $self->{vrid}; } sub physicalDevice { my $self = shift; return $self->{dev}; } # Read ppp config to find the associated interface for the ppp device sub _ppp_intf { my $dev = shift; my $intf; open(my $ppp, '<', "/etc/ppp/peers/$dev") or return; # no such device while (my $line = <$ppp>) { # looking for a line like: #pty "/usr/sbin/pppoe -m 1412 -I eth1" # and stop after the first occurence of this line if ($line =~ /^#pty\s.*-I\s*(\w+)"/) { $intf = $1; last; } } close $ppp; return $intf; } ## Configuration checks sub configured { my $self = shift; my $config = new Vyatta::Config; return $config->exists($self->{path}); } sub disabled { my $self = shift; my $config = new Vyatta::Config; $config->setLevel($self->{path}); return $config->exists("disable"); } sub mtu { my $self = shift; my $config = new Vyatta::Config; $config->setLevel($self->{path}); return $config->returnValue("mtu"); } sub using_dhcp { my $self = shift; my $config = new Vyatta::Config; $config->setLevel($self->{path}); my @addr = grep {$_ eq 'dhcp'} $config->returnOrigValues('address'); return if ($#addr < 0); return $addr[0]; } sub bridge_grp { my $self = shift; my $config = new Vyatta::Config; $config->setLevel($self->{path}); return $config->returnValue("bridge-group bridge"); } ## System checks # return array of current addresses (on system) sub address { my ($self, $type) = @_; return Vyatta::Misc::getIP($self->{name}, $type); } # Do SIOCGIFFLAGS ioctl in perl sub flags { my $self = shift; return Vyatta::ioctl::get_interface_flags($self->{name}); } sub exists { my $self = shift; my $flags = $self->flags(); return defined($flags); } sub hw_address { my $self = shift; open my $addrf, '<', "/sys/class/net/$self->{name}/address" or return; my $address = <$addrf>; close $addrf; chomp $address if $address; return $address; } sub is_broadcast { my $self = shift; return $self->flags() & IFF_BROADCAST; } sub is_multicast { my $self = shift; return $self->flags() & IFF_MULTICAST; } sub is_pointtopoint { my $self = shift; return $self->flags() & IFF_POINTOPOINT; } sub is_loopback { my $self = shift; return $self->flags() & IFF_LOOPBACK; } # device exists and is online sub up { my $self = shift; my $flags = $self->flags(); return defined($flags) && ($flags & IFF_UP); } # device exists and is running (ie carrier present) sub running { my $self = shift; my $flags = $self->flags(); return defined($flags) && ($flags & IFF_RUNNING); } # device description information in kernel (future use) sub description { my $self = shift; return interface_description($self->{name}); } ## Utility functions # enumerate vrrp slave devices sub get_vrrp_interfaces { my ($cfg, $vfunc, $dev, $path) = @_; my @ret_ifs; foreach my $vrid ($cfg->$vfunc("$path vrrp vrrp-group")) { my $vrdev = $dev."v".$vrid; my $vrpath = "$path vrrp vrrp-group $vrid interface"; push @ret_ifs, { name => $vrdev, type => 'vrrp', path => $vrpath, }; } return @ret_ifs; } # enumerate vif devies sub get_vif_interfaces { my ($cfg, $vfunc, $dev, $type, $path) = @_; my @ret_ifs; foreach my $vnum ($cfg->$vfunc("$path vif")) { my $vifdev = "$dev.$vnum"; my $vifpath = "$path vif $vnum"; push @ret_ifs, { name => $vifdev, type => $type, path => $vifpath }; push @ret_ifs, get_vrrp_interfaces($cfg, $vfunc, $vifdev, $vifpath); } return @ret_ifs; } # special cases for adsl sub get_adsl_interfaces { my ($cfg, $vfunc) = @_; my @ret_ifs; for my $p ($cfg->$vfunc("interfaces adsl $a $a pvc")) { for my $t ($cfg->$vfunc("interfaces adsl $a $a pvc $p")) { if ($t eq 'classical-ipoa' or $t eq 'bridged-ethernet') { # classical-ipoa or bridged-ethernet push @ret_ifs, { name => $a, type => 'adsl', path => "interfaces adsl $a $a pvc $p $t" }; next; } # pppo[ea] for my $i ($cfg->$vfunc("interfaces adsl $a $a pvc $p $t")) { push @ret_ifs, { name => "$t$i", type => 'adsl-pppo[ea]', path => "interfaces adsl $a $a pvc $p $t $i" }; } } } return @ret_ifs; } # get all configured interfaces from configuration # parameter is virtual function (see Config.pm) # # return a hash of: # name => ethX # type => "ethernet" # path => "interfaces ethernet ethX" # # Don't use this function directly, use wrappers below instead sub get_config_interfaces { my $vfunc = shift; my $cfg = new Vyatta::Config; my @ret_ifs; foreach my $type ($cfg->$vfunc("interfaces")) { if ($type eq 'adsl') { push @ret_ifs, get_adsl_interfaces($cfg, $vfunc); next; } foreach my $dev ($cfg->$vfunc("interfaces $type")) { my $path = "interfaces $type $dev"; push @ret_ifs, { name => $dev, type => $type, path => $path }; push @ret_ifs, get_vrrp_interfaces($cfg, $vfunc, $dev, $path); push @ret_ifs, get_vif_interfaces($cfg, $vfunc, $dev, $type, $path); } } return @ret_ifs; } # get array of hash for interfaces in working config sub get_interfaces { return get_config_interfaces('listNodes'); } # get array of hash for interfaces in configuration # when used outside of config mode. sub get_effective_interfaces { return get_config_interfaces('listEffectiveNodes'); } # get array of hash for interfaces in original config # only makes sense in configuration mode sub get_original_interfaces { return get_config_interfaces('listOrigNodes'); } # get map of current addresses on the system # returns reference to hash of form: # ( "192.168.1.1" => { 'eth0', 'eth2' } ) sub get_cfg_addresses { my $config = new Vyatta::Config; my @cfgifs = get_interfaces(); my %ahash; foreach my $intf (@cfgifs) { my $name = $intf->{'name'}; # workaround openvpn wart my @addrs; $config->setLevel($intf->{'path'}); if ($name =~ /^vtun/) { @addrs = $config->listNodes('local-address'); } else { @addrs = $config->returnValues('address'); } foreach my $addr (@addrs){ next if ($addr =~ /^dhcp/); # put interface into my $aif = $ahash{$addr}; if ($aif) { push @{$aif}, $name; } else { $ahash{$addr} = [$name]; } } } return \%ahash; } 1;