# -*- coding: binary -*- # A quick way to produce unique random strings that follow the rules of # identifiers, i.e., begin with a letter and contain only alphanumeric # characters and underscore. # # The advantage of using this class over, say, {Rex::Text.rand_text_alpha} # each time you need a new identifier is that it ensures you don't have # collisions. # # @example # vars = Rex::RandomIdentifierGenerator.new # asp_code = <<-END_CODE # Sub #{vars[:func]}() # Dim #{vars[:fso]} # Set #{vars[:fso]} = CreateObject("Scripting.FileSystemObject") # ... # End Sub # #{vars[:func]} # END_CODE # class Rex::RandomIdentifierGenerator # Raised when a RandomIdentifierGenerator cannot create any more # identifiers without collisions. class ExhaustedSpaceError < StandardError; end # Default options DefaultOpts = { # Arbitrary :max_length => 12, :min_length => 3, # This should be pretty universal for identifier rules :char_set => Rex::Text::AlphaNumeric+"_", :first_char_set => Rex::Text::LowerAlpha } # @param opts [Hash] Options, see {DefaultOpts} for default values # @option opts :max_length [Fixnum] # @option opts :min_length [Fixnum] # @option opts :char_set [String] def initialize(opts={}) # Holds all identifiers. @value_by_name = {} # Inverse of value_by_name so we can ensure uniqueness without # having to search through the whole list of values @name_by_value = {} @opts = DefaultOpts.merge(opts) if @opts[:min_length] < 1 || @opts[:max_length] < 1 || @opts[:max_length] < @opts[:min_length] raise ArgumentError, "Invalid length options" end # This is really just the maximum number of shortest names. This # will still be a pretty big number most of the time, so don't # bother calculating the real one, which will potentially be # expensive, since we're talking about a 36-digit decimal number to # represent the total possibilities for the range of 10- to # 20-character identifiers. # # 26 because the first char is lowercase alpha, (min_length - 1) and # not just min_length because it includes that first alpha char. @max_permutations = 26 * (@opts[:char_set].length ** (@opts[:min_length]-1)) # The real number of permutations could be calculated thusly: #((@opts[:min_length]-1) .. (@opts[:max_length]-1)).reduce(0) { |a, e| # a + (26 * @opts[:char_set].length ** e) #} end # Returns the @value_by_name hash # # @return [Hash] def to_h return @value_by_name end # Return a unique random identifier for +name+, generating a new one # if necessary. # # @param name [Symbol] A descriptive, intention-revealing name for an # identifier. This is what you would normally call the variable if # you weren't generating it. # @return [String] def get(name) return @value_by_name[name] if @value_by_name[name] @value_by_name[name] = generate @name_by_value[@value_by_name[name]] = name @value_by_name[name] end alias [] get alias init_var get # Add a new identifier. Its name will be checked for uniqueness among # previously-generated names. # # @note This should be called *before* any calls to {#get} to avoid # potential collisions. If you do hit a collision, this method will # raise. # # @param name (see #get) # @param value [String] The identifier that will be returned by # subsequent calls to {#get} with the sane +name+. # @raise RuntimeError if +value+ already exists # @return [void] def store(name, value) case @name_by_value[value] when name # we already have this value and it is associated with this name # nothing to do here when nil # don't have this value yet, so go ahead and just insert @value_by_name[name] = value @name_by_value[value] = name else # then the caller is trying to insert a duplicate raise RuntimeError, "Value is not unique!" end self end # Create a random string that satisfies most languages' requirements # for identifiers. In particular, with a default configuration, the # first character will always be lowercase alpha (unless modified by a # block), and the whole thing will contain only a-zA-Z0-9_ characters. # # If called with a block, the block will be given the identifier before # uniqueness checks. The block's return value will be the new # identifier. Note that the block may be called multiple times if it # returns a non-unique value. # # @note Calling this method with a block that returns only values that # this generator already contains will result in an infinite loop. # # @example # rig = Rex::RandomIdentifierGenerator.new # const = rig.generate { |val| val.capitalize } # rig.insert(:SOME_CONSTANT, const) # ruby_code = <<-EOC # #{rig[:SOME_CONSTANT]} = %q^generated ruby constant^ # def #{rig[:my_method]}; ...; end # EOC # # @param len [Fixnum] Avoid setting this unless a specific size is # necessary. Default is random within range of min .. max # @return [String] A string that matches [a-z][a-zA-Z0-9_]* # @yield [String] The identifier before uniqueness checks. This allows # you to modify the value and still avoid collisions. def generate(len=nil) raise ArgumentError, "len must be positive integer" if len && len < 1 raise ExhaustedSpaceError if @value_by_name.length >= @max_permutations # pick a random length within the limits len ||= rand(@opts[:min_length] .. (@opts[:max_length])) ident = "" # XXX: Infinite loop if block returns only values we've already # generated. loop do ident = Rex::Text.rand_base(1, "", @opts[:first_char_set]) ident << Rex::Text.rand_base(len-1, "", @opts[:char_set]) if block_given? ident = yield ident end # Try to make another one if it collides with a previously # generated one. break unless @name_by_value.key?(ident) end ident end end