require 'singleton' require 'rex/socket' require 'rex/socket/tcp' require 'rex/socket/ssl_tcp' require 'rex/socket/ssl_tcp_server' require 'rex/socket/udp' require 'timeout' ### # # Local communication class factory. # ### class Rex::Socket::Comm::Local include Singleton include Rex::Socket::Comm # # Creates an instance of a socket using the supplied parameters. # def self.create(param) case param.proto when 'tcp' return create_by_type(param, ::Socket::SOCK_STREAM, ::Socket::IPPROTO_TCP) when 'udp' return create_by_type(param, ::Socket::SOCK_DGRAM, ::Socket::IPPROTO_UDP) else raise Rex::UnsupportedProtocol.new(param.proto), caller end end # # Creates a socket using the supplied Parameter instance. # def self.create_by_type(param, type, proto = 0) # Whether to use IPv6 addressing usev6 = false # Detect IPv6 addresses and enable IPv6 accordingly if ( Rex::Socket.support_ipv6?()) # Allow the caller to force IPv6 if (param.v6) usev6 = true end # Force IPv6 mode for non-connected UDP sockets if (type == ::Socket::SOCK_DGRAM and not param.peerhost) usev6 = true end local = Rex::Socket.resolv_nbo(param.localhost) if param.localhost peer = Rex::Socket.resolv_nbo(param.peerhost) if param.peerhost if (local and local.length == 16) usev6 = true end if (peer and peer.length == 16) usev6 = true end if (usev6) if (local and local.length == 4) if (local == "\x00\x00\x00\x00") param.localhost = '::' else param.localhost = '::ffff:' + Rex::Socket.getaddress(param.localhost) end end if (peer and peer.length == 4) if (peer == "\x00\x00\x00\x00") param.peerhost = '::' else param.peerhost = '::ffff:' + Rex::Socket.getaddress(param.peerhost) end end param.v6 = true end else # No IPv6 support param.v6 = false end # Notify handlers of the before socket create event. self.instance.notify_before_socket_create(self, param) # Create the socket sock = nil if (param.v6) sock = ::Socket.new(::Socket::AF_INET6, type, proto) else sock = ::Socket.new(::Socket::AF_INET, type, proto) end # Bind to a given local address and/or port if they are supplied if (param.localhost || param.localport) begin if (param.server?) sock.setsockopt(::Socket::SOL_SOCKET, ::Socket::SO_REUSEADDR, 1) end sock.setsockopt(Socket::SOL_SOCKET, Socket::SO_REUSEADDR, true) sock.bind(Rex::Socket.to_sockaddr(param.localhost, param.localport)) rescue Errno::EADDRINUSE sock.close raise Rex::AddressInUse.new(param.localhost, param.localport), caller end end # If a server TCP instance is being created... if (param.server?) sock.listen(32) return sock if (param.bare?) klass = Rex::Socket::TcpServer if (param.ssl) klass = Rex::Socket::SslTcpServer end sock.extend(klass) sock.initsock(param) # Otherwise, if we're creating a client... else chain = [] # If we were supplied with host information if (param.peerhost) begin if param.proxies chain = param.proxies.dup chain.push(['host',param.peerhost,param.peerport]) ip = chain[0][1] port = chain[0][2].to_i begin timeout(param.timeout) do sock.connect(Rex::Socket.to_sockaddr(ip, port)) end rescue ::Timeout::Error raise ::Errno::ETIMEDOUT end else begin timeout(param.timeout) do sock.connect(Rex::Socket.to_sockaddr(param.peerhost, param.peerport)) end rescue ::Timeout::Error raise ::Errno::ETIMEDOUT end end rescue Errno::EHOSTUNREACH, ::Errno::ENETUNREACH sock.close raise Rex::HostUnreachable.new(param.peerhost, param.peerport), caller rescue Errno::ETIMEDOUT sock.close raise Rex::ConnectionTimeout.new(param.peerhost, param.peerport), caller rescue Errno::ECONNREFUSED sock.close raise Rex::ConnectionRefused.new(param.peerhost, param.peerport), caller end end if (param.bare? == false) case param.proto when 'tcp' klass = Rex::Socket::Tcp if (param.ssl) klass = Rex::Socket::SslTcp end sock.extend(klass) sock.initsock(param) when 'udp' sock.extend(Rex::Socket::Udp) sock.initsock(param) end end if chain.size > 1 chain.each_with_index { |proxy, i| next_hop = chain[i + 1] if next_hop proxy(sock, proxy[0], next_hop[1], next_hop[2]) end } end end # Notify handlers that a socket has been created. self.instance.notify_socket_created(self, sock, param) sock end def self.proxy (sock, type, host, port) case type.downcase when 'socks4' setup = [4,1,port.to_i].pack('CCn') + Socket.gethostbyname(host)[3] + Rex::Text.rand_text_alpha(rand(8)+1) + "\x00" size = sock.put(setup) if (size != setup.length) raise ArgumentError, "Wrote less data than expected to the socks proxy" end begin ret = sock.get_once(8, 30) rescue IOError raise Rex::ConnectionRefused.new(host, port), caller end if (ret.nil? or ret.length < 8) raise ArgumentError, 'SOCKS4 server did not respond with a proper response' end if ret[1] != 90 raise "ack, socks4 server responded with error code #{ret[0]}" end else raise ArgumentError, 'Unsupported proxy type and/or version', caller end end ## # # Registration # ## def self.register_event_handler(handler) # :nodoc: self.instance.register_event_handler(handler) end def self.deregister_event_handler(handler) # :nodoc: self.instance.deregister_event_handler(handler) end def self.each_event_handler(handler) # :nodoc: self.instance.each_event_handler(handler) end end