# -*- coding: binary -*- require 'rex/socket' ### # # This class represents the set of parameters that are used to create # a socket, whether it be a server or client socket. # # @example # nsock = Rex::Socket::Tcp.create( # 'PeerHost' => opts['RHOST'] || rhost, # 'PeerPort' => (opts['RPORT'] || rport).to_i, # 'LocalHost' => opts['CHOST'] || chost || "0.0.0.0", # 'LocalPort' => (opts['CPORT'] || cport || 0).to_i, # 'SSL' => dossl, # 'SSLVersion'=> opts['SSLVersion'] || ssl_version, # 'Proxies' => proxies, # 'Timeout' => (opts['ConnectTimeout'] || connect_timeout || 10).to_i, # 'Context' => # { # 'Msf' => framework, # 'MsfExploit' => self, # }) # ### class Rex::Socket::Parameters ## # # Factory # ## # # Creates an instance of the Parameters class using the supplied hash. # def self.from_hash(hash) return self.new(hash) end ## # # Constructor # ## # # Initializes the attributes from the supplied hash. The following hash # keys can be specified. # # @option hash [String] 'PeerHost' The remote host to connect to # @option hash [String] 'PeerAddr' (alias for 'PeerHost') # @option hash [Fixnum] 'PeerPort' The remote port to connect to # @option hash [String] 'LocalHost' The local host to communicate from, if any # @option hash [String] 'LocalPort' The local port to communicate from, if any # @option hash [Bool] 'Bool' Create a bare socket # @option hash [Bool] 'Server' Whether or not this should be a server # @option hash [Bool] 'SSL' Whether or not SSL should be used # @option hash [String] 'SSLVersion' Specify SSL2, SSL3, or TLS1 (SSL3 is # default) # @option hash [String] 'SSLCert' A file containing an SSL certificate (for # server sockets) # @option hash [String] 'SSLCipher' see {#ssl_cipher} # @option hash [String] 'Proxies' List of proxies to use. # @option hash [String] 'Proto' The underlying protocol to use. # @option hash [String] 'IPv6' Force the use of IPv6. # @option hash [String] 'Comm' The underlying {Comm} object to use to create # the socket for this parameter set. # @option hash [Hash] 'Context' A context hash that can allow users of # this parameter class instance to determine who is responsible for # requesting that a socket be created. # @option hash [String] 'Retries' The number of times a connection should be # retried. # @option hash [Fixnum] 'Timeout' The number of seconds before a connection # should time out def initialize(hash) if (hash['PeerHost']) self.peerhost = hash['PeerHost'] elsif (hash['PeerAddr']) self.peerhost = hash['PeerAddr'] else self.peerhost = nil end if (hash['LocalHost']) self.localhost = hash['LocalHost'] elsif (hash['LocalAddr']) self.localhost = hash['LocalAddr'] else self.localhost = '0.0.0.0' end if (hash['PeerPort']) self.peerport = hash['PeerPort'].to_i else self.peerport = 0 end if (hash['LocalPort']) self.localport = hash['LocalPort'].to_i else self.localport = 0 end if (hash['Bare']) self.bare = hash['Bare'] else self.bare = false end if (hash['SSL'] and hash['SSL'].to_s =~ /^(t|y|1)/i) self.ssl = true else self.ssl = false end supported_ssl_versions = ['SSL2', 'SSL23', 'TLS1', 'SSL3', :SSLv2, :SSLv3, :SSLv23, :TLSv1] if (hash['SSLVersion'] and supported_ssl_versions.include? hash['SSLVersion']) self.ssl_version = hash['SSLVersion'] end if (hash['SSLCipher']) self.ssl_cipher = hash['SSLCipher'] end if (hash['SSLCert'] and ::File.file?(hash['SSLCert'])) begin self.ssl_cert = ::File.read(hash['SSLCert']) rescue ::Exception => e elog("Failed to read cert: #{e.class}: #{e}", LogSource) end end if hash['Proxies'] self.proxies = hash['Proxies'].split('-').map{|a| a.strip}.map{|a| a.split(':').map{|b| b.strip}} end # The protocol this socket will be using if (hash['Proto']) self.proto = hash['Proto'].downcase else self.proto = 'tcp' end # Whether or not the socket should be a server self.server = hash['Server'] || false # The communication subsystem to use to create the socket self.comm = hash['Comm'] # The context that was passed in, if any. self.context = hash['Context'] || {} # If no comm was supplied, try to use the comm that is best fit to # handle the provided host based on the current routing table. if( self.server ) if (self.comm == nil and self.localhost) self.comm = Rex::Socket::SwitchBoard.best_comm(self.localhost) end else if (self.comm == nil and self.peerhost) self.comm = Rex::Socket::SwitchBoard.best_comm(self.peerhost) end end # If we still haven't found a comm, we default to the local comm. self.comm = Rex::Socket::Comm::Local if (self.comm == nil) # If we are a UDP server, turn off the server flag as it was only set when # creating the UDP socket in order to avail of the switch board above. if( self.server and self.proto == 'udp' ) self.server = false end # The number of connection retries to make (client only) if hash['Retries'] self.retries = hash['Retries'].to_i else self.retries = 0 end # The number of seconds before a connect attempt times out (client only) if hash['Timeout'] self.timeout = hash['Timeout'].to_i else self.timeout = 5 end # Whether to force IPv6 addressing self.v6 = hash['IPv6'] || false end ## # # Conditionals # ## # # Returns true if this represents parameters for a server. # def server? return (server == true) end # # Returns true if this represents parameters for a client. # def client? return (server == false) end # # Returns true if the protocol for the parameters is TCP. # def tcp? return (proto == 'tcp') end # # Returns true if the protocol for the parameters is UDP. # def udp? return (proto == 'udp') end # # Returns true if the protocol for the parameters is IP. # def ip? return (proto == 'ip') end # # Returns true if the socket is a bare socket that does not inherit from # any extended Rex classes. # def bare? return (bare == true) end # # Returns true if SSL has been requested. # def ssl? return ssl end # # Returns true if IPv6 has been enabled # def v6? return v6 end ## # # Attributes # ## # The remote host information, equivalent to the PeerHost parameter hash # key. # @return [String] attr_accessor :peerhost # The remote port. Equivalent to the PeerPort parameter hash key. # @return [Fixnum] attr_accessor :peerport # The local host. Equivalent to the LocalHost parameter hash key. # @return [String] attr_accessor :localhost # The local port. Equivalent to the LocalPort parameter hash key. # @return [Fixnum] attr_accessor :localport # The protocol to to use, such as TCP. Equivalent to the Proto parameter # hash key. # @return [String] attr_accessor :proto # Whether or not this is a server. Equivalent to the Server parameter # hash key. # @return [Bool] attr_accessor :server # The {Comm} instance that should be used to create the underlying socket. # @return [Comm] attr_accessor :comm # The context hash that was passed in to the structure. (default: {}) # @return [Hash] attr_accessor :context # The number of attempts that should be made. # @return [Fixnum] attr_accessor :retries # The number of seconds before a connection attempt should time out. # @return [Fixnum] attr_accessor :timeout # Whether or not this is a bare (non-extended) socket instance that should # be created. # @return [Bool] attr_accessor :bare # Whether or not SSL should be used to wrap the connection. # @return [Bool] attr_accessor :ssl # What version of SSL to use (SSL2, SSL3, SSL23, TLS1) # @return [String,Symbol] attr_accessor :ssl_version # What specific SSL Cipher(s) to use, may be a string containing the cipher # name or an array of strings containing cipher names e.g. # ["DHE-RSA-AES256-SHA", "DHE-DSS-AES256-SHA"] # @return [String,Array] attr_accessor :ssl_cipher # The SSL certificate, in pem format, stored as a string. See # {Rex::Socket::SslTcpServer#makessl} # @return [String] attr_accessor :ssl_cert # Whether we should use IPv6 # @return [Bool] attr_accessor :v6 # List of proxies to use # @return [String] attr_accessor :proxies alias peeraddr peerhost alias localaddr localhost end