# Module: VyattaMisc.pm # # Author: Marat # Date: 2007 # Description: Implements miscellaneous commands # **** 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) 2006, 2007, 2008 Vyatta, Inc. # All Rights Reserved. # **** End License **** package Vyatta::Misc; use strict; require Exporter; our @ISA = qw(Exporter); our @EXPORT = qw(getInterfaces getIP getNetAddIP get_sysfs_value is_address_enabled is_dhcp_enabled get_ipaddr_intf_hash isIpAddress is_ip_v4_or_v6 interface_description is_local_address, is_primary_address); our @EXPORT_OK = qw(generate_dhclient_intf_files getInterfacesIPadresses getPortRuleString); use Vyatta::Config; use Vyatta::Interface; use NetAddr::IP; use Socket; # # returns a hash of ipaddrs => interface # sub get_ipaddr_intf_hash { my %config_ipaddrs = (); my @lines = `ip addr show | grep 'inet '`; chomp @lines; foreach my $line (@lines) { if ($line =~ /inet\s+([0-9.]+)\/.*\s([\w.]+)$/) { $config_ipaddrs{$1} = $2; } } return \%config_ipaddrs; } # Check whether an address is the primary address on some interface sub is_primary_address { my $ip_address = shift; my $ref = get_ipaddr_intf_hash(); my %hash = %{$ref}; if (!defined $hash{$ip_address}) { return 1; } my $line = `ip address show $hash{$ip_address} | grep 'inet' | head -n 1`; chomp($line); my $primary_address = undef; if ($line =~ /inet\s+([0-9.]+)\/.*\s([\w.]+)$/) { $primary_address = $1; } return 1 if ($ip_address eq $primary_address); return; } sub get_sysfs_value { my ( $intf, $name ) = @_; open( my $statf, '<', "/sys/class/net/$intf/$name" ) or die "Can't open statistics file /sys/class/net/$intf/$name"; my $value = <$statf>; chomp $value if defined $value; close $statf; return $value; } # check if interface is configured to get an IP address using dhcp sub is_dhcp_enabled { my ( $name, $outside_cli ) = @_; my $intf = new Vyatta::Interface($name); return unless $intf; my $config = new Vyatta::Config; $config->setLevel( $intf->path() ); # the "effective" observers can be used both inside and outside # config sessions. foreach my $addr ( $config->returnEffectiveValues('address') ) { return 1 if ( $addr && $addr eq "dhcp" ); } return; } # check if any non-dhcp addresses configured sub is_address_enabled { my $name = shift; my $intf = new Vyatta::Interface($name); $intf or return; my $config = new Vyatta::Config; $config->setLevel( $intf->path() ); foreach my $addr ( $config->returnOrigValues('address') ) { return 1 if ( $addr && $addr ne 'dhcp' ); } return; } # return dhclient related files for interface sub generate_dhclient_intf_files { my $intf = shift; my $dhclient_dir = '/var/lib/dhcp3/'; $intf =~ s/\./_/g; my $intf_config_file = $dhclient_dir . 'dhclient_' . $intf . '.conf'; my $intf_process_id_file = $dhclient_dir . 'dhclient_' . $intf . '.pid'; my $intf_leases_file = $dhclient_dir . 'dhclient_' . $intf . '.leases'; return ( $intf_config_file, $intf_process_id_file, $intf_leases_file ); } # get list of interfaces on the system via sysfs # skip dot files (and any interfaces name .xxx) # and bond_masters file used by bonding # and wireless control interfaces sub getInterfaces { opendir( my $sys_class, '/sys/class/net' ) or die "can't open /sys/class/net: $!"; my @interfaces = grep { ( !/^\./ ) && ( $_ ne 'bonding_masters' ) && ! ( $_ =~ '^mon.wlan\d$') && ! ( $_ =~ '^wmaster\d+$') } readdir $sys_class; closedir $sys_class; return @interfaces; } # Test if IP address is local to the system. # Implemented by doing bind since by default # Linux will only allow binding to local addresses sub is_local_address { my $addr = shift; socket( my $sock, PF_INET, SOCK_STREAM, 0) or die "socket failed\n"; return bind($sock, sockaddr_in(0, inet_aton($addr))); } # get list of IPv4 and IPv6 addresses # if name is defined then get the addresses on that interface # if type is defined then restrict to that type (inet, inet6) sub getIP { my ( $name, $type ) = @_; my @args = qw(ip addr show); my @addresses; push @args, ('dev', $name) if $name; open my $ipcmd, '-|' or exec @args or die "ip addr command failed: $!"; <$ipcmd>; while (<$ipcmd>) { my ( $proto, $addr ) = split; next unless ( $proto =~ /inet/ ); if ($type) { next if ( $proto eq 'inet6' && $type != 6 ); next if ( $proto eq 'inet' && $type != 4 ); } push @addresses, $addr; } close $ipcmd; return @addresses; } my %type_hash = ( 'broadcast' => 'is_broadcast', 'multicast' => 'is_multicast', 'pointtopoint' => 'is_pointtopoint', 'loopback' => 'is_loopback', ); # getInterfacesIPadresses() returns IPv4 addresses for the interface type # possible type of interfaces : 'broadcast', 'pointtopoint', 'multicast', 'all' # and 'loopback' sub getInterfacesIPadresses { my $type = shift; my $type_func; my @ips; $type or die "Interface type not defined"; if ( $type ne 'all' ) { $type_func = $type_hash{$type}; die "Invalid type specified to retreive IP addresses for: $type" unless $type_func; } foreach my $name ( getInterfaces() ) { my $intf = new Vyatta::Interface($name); next unless $intf; if ( defined $type_func ) { next unless $intf->$type_func(); } my @addresses = $intf->address(4); push @ips, @addresses; } return @ips; } sub getNetAddrIP { my $name = shift; my $intf = new Vyatta::Interface($name); $intf or return; foreach my $addr ( $intf->addresses() ) { my $ip = new NetAddr::IP $addr; next unless ( $ip && ip->version() == 4 ); return $ip; } return; } sub is_ip_v4_or_v6 { my $addr = shift; my $ip = new NetAddr::IP $addr; return unless defined $ip; my $vers = $ip->version(); if ( $vers == 4 ) { # # NetAddr::IP will accept short forms 1.1 and hostnames # so check if all 4 octets are defined return 4 unless ( $addr !~ /\d+\.\d+\.\d+\.\d+/ ); # undef } elsif ( $vers == 6 ) { return 6; } return; } sub isIpAddress { my $ip = shift; return unless $ip =~ /(\d+)\.(\d+)\.(\d+)\.(\d+)/; return unless ( $1 > 0 && $1 < 256 ); return unless ( $2 >= 0 && $2 < 256 ); return unless ( $3 >= 0 && $3 < 256 ); return unless ( $4 >= 0 && $4 < 256 ); return 1; } sub isClusterIP { my ( $vc, $ip ) = @_; return unless $ip; # undef my @cluster_groups = $vc->listNodes('cluster group'); foreach my $cluster_group (@cluster_groups) { my @services = $vc->returnValues("cluster group $cluster_group service"); foreach my $service (@services) { if ($service =~ /\//) { $service = substr( $service, 0, index( $service, '/' )); } if ( $ip eq $service ) { return 1; } } } return; } sub remove_ip_prefix { my @addr_nets = @_; s/\/\d+$// for @addr_nets; return @addr_nets; } sub is_ip_in_list { my ( $ip, @list ) = @_; @list = remove_ip_prefix(@list); my %list_hash = map { $_ => 1 } @list; return $list_hash{$ip}; } sub isIPinInterfaces { my ( $vc, $ip_addr, @interfaces ) = @_; return unless $ip_addr; # undef == false foreach my $name (@interfaces) { return 1 if ( is_ip_in_list( $ip_addr, getIP($name) ) ); } return; # false (undef) } sub isClusteringEnabled { my ($vc) = @_; return $vc->exists('cluster'); } # $str: string representing a port number # returns ($success, $err) # $success: 1 if success. otherwise undef # $err: error message if failure. otherwise undef sub isValidPortNumber { my $str = shift; return ( undef, "\"$str\" is not a valid port number" ) if ( !( $str =~ /^\d+$/ ) ); return ( undef, "invalid port \"$str\" (must be between 1 and 65535)" ) if ( $str < 1 || $str > 65535 ); return ( 1, undef ); } # $str: string representing a port range # $sep: separator for range # returns ($success, $err) # $success: 1 if success. otherwise undef # $err: error message if failure. otherwise undef sub isValidPortRange { my $str = shift; my $sep = shift; return ( undef, "\"$str\" is not a valid port range" ) if ( !( $str =~ /^(\d+)$sep(\d+)$/ ) ); my ( $start, $end ) = ( $1, $2 ); my ( $success, $err ) = isValidPortNumber($start); return ( undef, $err ) if ( !defined($success) ); ( $success, $err ) = isValidPortNumber($end); return ( undef, $err ) if ( !defined($success) ); return ( undef, "invalid port range ($end is not greater than $start)" ) if ( $end <= $start ); return ( 1, undef ); } # $str: string representing a port name # $proto: protocol to check # returns ($success, $err) # $success: 1 if success. otherwise undef # $err: error message if failure. otherwise undef sub isValidPortName { my $str = shift; my $proto = shift; return ( undef, "\"\" is not a valid port name for protocol \"$proto\"" ) if ( $str eq '' ); my $port = getservbyname( $str, $proto ); return ( 1, undef ) if $port; return ( undef, "\"$str\" is not a valid port name for protocol \"$proto\"" ); } sub getPortRuleString { my $port_str = shift; my $can_use_port = shift; my $prefix = shift; my $proto = shift; my $negate = ''; if ( $port_str =~ /^!(.*)$/ ) { $port_str = $1; $negate = '! '; } $port_str =~ s/(\d+)-(\d+)/$1:$2/g; my $num_ports = 0; my @port_specs = split /,/, $port_str; foreach my $port_spec (@port_specs) { my ( $success, $err ) = ( undef, undef ); if ( $port_spec =~ /:/ ) { ( $success, $err ) = isValidPortRange( $port_spec, ':' ); if ( defined($success) ) { $num_ports += 2; next; } else { return ( undef, $err ); } } if ( $port_spec =~ /^\d/ ) { ( $success, $err ) = isValidPortNumber($port_spec); if ( defined($success) ) { $num_ports += 1; next; } else { return ( undef, $err ); } } if ($proto eq 'tcp_udp') { ( $success, $err ) = isValidPortName( $port_spec, 'tcp' ); if (defined $success) { # only do udp test if the tcp test was a success ( $success, $err ) = isValidPortName( $port_spec, 'udp' ) } } else { ( $success, $err ) = isValidPortName( $port_spec, $proto ); } if ( defined($success) ) { $num_ports += 1; next; } else { return ( undef, $err ); } } my $rule_str = ''; if ( ( $num_ports > 0 ) && ( !$can_use_port ) ) { return ( undef, "ports can only be specified when protocol is \"tcp\" " . "or \"udp\" (currently \"$proto\")" ); } if ( $num_ports > 15 ) { return ( undef, "source/destination port specification only supports " . "up to 15 ports (port range counts as 2)" ); } if ( $num_ports > 1 ) { $rule_str = " -m multiport $negate --${prefix}ports ${port_str}"; } elsif ( $num_ports > 0 ) { $rule_str = " $negate --${prefix}port ${port_str}"; } return ( $rule_str, undef ); } sub interface_description { my $name = shift; open my $ifalias, '<', "/sys/class/net/$name/ifalias" or return; my $description = <$ifalias>; close $ifalias; chomp $description if $description; return $description; } 1;