# A base module for collecting IP-related # information from all kinds of platforms. module Facter::Util::IP # A map of all the different regexes that work for # a given platform or set of platforms. REGEX_MAP = { :linux => { :ipaddress => /inet addr:([0-9]+\.[0-9]+\.[0-9]+\.[0-9]+)/, :ipaddress6 => /inet6 addr: ((?![fe80|::1])(?>[0-9,a-f,A-F]*\:{1,2})+[0-9,a-f,A-F]{0,4})/, :macaddress => /(?:ether|HWaddr)\s+((\w{1,2}:){5,}\w{1,2})/, :netmask => /Mask:([0-9]+\.[0-9]+\.[0-9]+\.[0-9]+)/, :mtu => /MTU:(\d+)/ }, :bsd => { :aliases => [:openbsd, :netbsd, :freebsd, :darwin, :"gnu/kfreebsd", :dragonfly], :ipaddress => /inet\s+([0-9]+\.[0-9]+\.[0-9]+\.[0-9]+)/, :ipaddress6 => /inet6 ((?![fe80|::1])(?>[0-9,a-f,A-F]*\:{1,2})+[0-9,a-f,A-F]{0,4})/, :macaddress => /(?:ether|lladdr)\s+(\w?\w:\w?\w:\w?\w:\w?\w:\w?\w:\w?\w)/, :netmask => /netmask\s+0x(\w{8})/, :mtu => /mtu\s+(\d+)/ }, :sunos => { :ipaddress => /inet\s+([0-9]+\.[0-9]+\.[0-9]+\.[0-9]+)/, :ipaddress6 => /inet6 ((?![fe80|::1])(?>[0-9,a-f,A-F]*\:{1,2})+[0-9,a-f,A-F]{0,4})/, :macaddress => /(?:ether|lladdr)\s+(\w?\w:\w?\w:\w?\w:\w?\w:\w?\w:\w?\w)/, :netmask => /netmask\s+(\w{8})/, :mtu => /mtu\s+(\d+)/ }, :"hp-ux" => { :ipaddress => /\s+inet (\S+)\s.*/, :macaddress => /(\w{1,2}:\w{1,2}:\w{1,2}:\w{1,2}:\w{1,2}:\w{1,2})/, :netmask => /.*\s+netmask (\S+)\s.*/ }, :windows => { :ipaddress => /\s+IP Address:\s+([0-9]+\.[0-9]+\.[0-9]+\.[0-9]+)/, :ipaddress6 => /Address ((?![fe80|::1])(?>[0-9,a-f,A-F]*\:{1,2})+[0-9,a-f,A-F]{0,4})/, :netmask => /\s+Subnet Prefix:\s+\S+\s+\(mask ([0-9]+\.[0-9]+\.[0-9]+\.[0-9]+)\)/ } } # Convert an interface name into purely alphanumeric characters. def self.alphafy(interface) interface.gsub(/[^a-z0-9_]/i, '_') end def self.convert_from_hex?(kernel) kernels_to_convert = [:sunos, :openbsd, :netbsd, :freebsd, :darwin, :"hp-ux", :"gnu/kfreebsd", :dragonfly] kernels_to_convert.include?(kernel) end def self.supported_platforms REGEX_MAP.inject([]) do |result, tmp| key, map = tmp if map[:aliases] result += map[:aliases] else result << key end result end end def self.get_interfaces return [] unless output = Facter::Util::IP.get_all_interface_output() # windows interface names contain spaces and are quoted and can appear multiple # times as ipv4 and ipv6 return output.scan(/\s* connected\s*(\S.*)/).flatten.uniq if Facter.value(:kernel) == 'windows' # Our regex appears to be stupid, in that it leaves colons sitting # at the end of interfaces. So, we have to trim those trailing # characters. I tried making the regex better but supporting all # platforms with a single regex is probably a bit too much. output.scan(/^\S+/).collect { |i| i.sub(/:$/, '') }.uniq end def self.get_all_interface_output case Facter.value(:kernel) when 'Linux', 'OpenBSD', 'NetBSD', 'FreeBSD', 'Darwin', 'GNU/kFreeBSD', 'DragonFly' output = Facter::Util::IP.exec_ifconfig(["-a","2>/dev/null"]) when 'SunOS' output = Facter::Util::IP.exec_ifconfig(["-a"]) when 'HP-UX' # (#17487)[https://projects.puppetlabs.com/issues/17487] # Handle NIC bonding where asterisks and virtual NICs are printed. if output = hpux_netstat_in output.gsub!(/\*/, "") # delete asterisks. output.gsub!(/^[^\n]*none[^\n]*\n/, "") # delete lines with 'none' instead of IPs. output.sub!(/^[^\n]*\n/, "") # delete the header line. output end when 'windows' output = %x|#{ENV['SYSTEMROOT']}/system32/netsh.exe interface ip show interface| output += %x|#{ENV['SYSTEMROOT']}/system32/netsh.exe interface ipv6 show interface| end output end ## # exec_ifconfig uses the ifconfig command # # @return [String] the output of `ifconfig #{arguments} 2>/dev/null` or nil def self.exec_ifconfig(additional_arguments=[]) Facter::Util::Resolution.exec("#{self.get_ifconfig} #{additional_arguments.join(' ')}") end ## # get_ifconfig looks up the ifconfig binary # # @return [String] path to the ifconfig binary def self.get_ifconfig common_paths=["/bin/ifconfig","/sbin/ifconfig","/usr/sbin/ifconfig"] common_paths.select{|path| File.executable?(path)}.first end ## # hpux_netstat_in is a delegate method that allows us to stub netstat -in # without stubbing exec. def self.hpux_netstat_in Facter::Util::Resolution.exec("/bin/netstat -in") end def self.get_infiniband_macaddress(interface) if File.exists?("/sys/class/net/#{interface}/address") then ib_mac_address = `cat /sys/class/net/#{interface}/address`.chomp elsif File.exists?("/sbin/ip") then ip_output = %x{/sbin/ip link show #{interface}} ib_mac_address = ip_output.scan(%r{infiniband\s+((\w{1,2}:){5,}\w{1,2})}) else ib_mac_address = "FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF:FF" Facter.debug("ip.rb: nothing under /sys/class/net/#{interface}/address and /sbin/ip not available") end ib_mac_address end def self.ifconfig_interface(interface) output = Facter::Util::IP.exec_ifconfig([interface,"2>/dev/null"]) end def self.get_single_interface_output(interface) output = "" case Facter.value(:kernel) when 'OpenBSD', 'NetBSD', 'FreeBSD', 'Darwin', 'GNU/kFreeBSD', 'DragonFly' output = Facter::Util::IP.ifconfig_interface(interface) when 'Linux' ifconfig_output = Facter::Util::IP.ifconfig_interface(interface) if interface =~ /^ib/ then real_mac_address = get_infiniband_macaddress(interface) output = ifconfig_output.sub(%r{(?:ether|HWaddr)\s+((\w{1,2}:){5,}\w{1,2})}, "HWaddr #{real_mac_address}") else output = ifconfig_output end when 'SunOS' output = Facter::Util::IP.exec_ifconfig([interface]) when 'HP-UX' mac = "" ifc = hpux_ifconfig_interface(interface) hpux_lanscan.scan(/(\dx\S+).*UP\s+(\w+\d+)/).each {|i| mac = i[0] if i.include?(interface) } mac = mac.sub(/0x(\S+)/,'\1').scan(/../).join(":") output = ifc + "\n" + mac end output end def self.hpux_ifconfig_interface(interface) Facter::Util::IP.exec_ifconfig([interface]) end def self.hpux_lanscan Facter::Util::Resolution.exec("/usr/sbin/lanscan") end def self.get_output_for_interface_and_label(interface, label) return get_single_interface_output(interface) unless Facter.value(:kernel) == 'windows' if label == 'ipaddress6' output = %x|#{ENV['SYSTEMROOT']}/system32/netsh.exe interface ipv6 show address \"#{interface}\"| else output = %x|#{ENV['SYSTEMROOT']}/system32/netsh.exe interface ip show address \"#{interface}\"| end output end def self.get_bonding_master(interface) if Facter.value(:kernel) != 'Linux' return nil end # We need ip instead of ifconfig because it will show us # the bonding master device. if not FileTest.executable?("/sbin/ip") return nil end # A bonding interface can never be an alias interface. Alias # interfaces do have a colon in their name and the ip link show # command throws an error message when we pass it an alias # interface. if interface =~ /:/ return nil end regex = /SLAVE[,>].* (bond[0-9]+)/ ethbond = regex.match(%x{/sbin/ip link show #{interface}}) if ethbond device = ethbond[1] else device = nil end device end ## # get_interface_value obtains the value of a specific attribute of a specific # interface. # # @param interface [String] the interface identifier, e.g. "eth0" or "bond0" # # @param label [String] the attribute of the interface to obtain a value for, # e.g. "netmask" or "ipaddress" # # @api private # # @return [String] representing the requested value. An empty array is # returned if the kernel is not supported by the REGEX_MAP constant. def self.get_interface_value(interface, label) tmp1 = [] kernel = Facter.value(:kernel).downcase.to_sym # If it's not directly in the map or aliased in the map, then we don't know how to deal with it. unless map = REGEX_MAP[kernel] || REGEX_MAP.values.find { |tmp| tmp[:aliases] and tmp[:aliases].include?(kernel) } return [] end # Pull the correct regex out of the map. regex = map[label.to_sym] # Linux changes the MAC address reported via ifconfig when an ethernet interface # becomes a slave of a bonding device to the master MAC address. # We have to dig a bit to get the original/real MAC address of the interface. bonddev = get_bonding_master(interface) if label == 'macaddress' and bonddev bondinfo = read_proc_net_bonding("/proc/net/bonding/#{bonddev}") re = /^Slave Interface: #{interface}\b.*?\bPermanent HW addr: (([0-9A-F]{2}:?)*)$/im if match = re.match(bondinfo) value = match[1].upcase end else output_int = get_output_for_interface_and_label(interface, label) output_int.each_line do |s| if s =~ regex value = $1 if label == 'netmask' && convert_from_hex?(kernel) value = value.scan(/../).collect do |byte| byte.to_i(16) end.join('.') end tmp1.push(value) end end if tmp1 value = tmp1.shift end end end ## # read_proc_net_bonding is a seam method for mocking purposes. # # @param path [String] representing the path to read, e.g. "/proc/net/bonding/bond0" # # @api private # # @return [String] modeling the raw file read def self.read_proc_net_bonding(path) File.read(path) if File.exists?(path) end private_class_method :read_proc_net_bonding def self.get_network_value(interface) require 'ipaddr' ipaddress = get_interface_value(interface, "ipaddress") netmask = get_interface_value(interface, "netmask") if ipaddress && netmask ip = IPAddr.new(ipaddress, Socket::AF_INET) subnet = IPAddr.new(netmask, Socket::AF_INET) network = ip.mask(subnet.to_s).to_s end end def self.get_arp_value(interface) arp = Facter::Util::Resolution.exec("arp -en -i #{interface} | sed -e 1d") if arp =~ /^\S+\s+\w+\s+(\S+)\s+\w\s+\S+$/ return $1 end end end