# frozen_string_literal: true module RASN1 module Types # ASN.1 SEQUENCE OF # # A SEQUENCE OF is an array of one ASN.1 type. # # == Use with {Primitive} types # To encode this ASN.1 example: # Integers ::= SEQUENCE OF INTEGER # do: # # Create a SEQUENCE OF INTEGER # seqof = RASN1::Types::SequenceOf.new(RASN1::Types::Integer) # # Set integer values # seqof.value = [1, 2, 3, 4].map { |i| RASN1::Types::Integer.new(value: i) } # seqof << 5 # infer a RASN1::Types::Integer with given value # # == Use with {Constructed} types # SEQUENCE OF may be used to create sequence of composed types. For example: # composed_type = RASN1::Types::Sequence.new # commposed_type.value = [RASN1::Types::Integer, # RASN1::Types::OctetString] # seqof = RASN1::Types::SequenceOf.new(composed_type) # seqof << [0, 'data0'] # seqof << [1, 'data1'] # # == Use with {Model} # SEQUENCE OF may also be used with a Model type: # class MyModel < RASN1::Model # sequence :seq, # content: [boolean(:bool), integer(:int)] # end # # seqof = RASN1::Types::SequenceOf.new(:record, MyModel) # # set values # seqof << { bool: true, int: 12 } # seqof << { bool: false, int: 65535 } # # Generate DER string # der = seqof.to_der # => String # # parse # seqof.parse! der # # After parsing, a SEQUENCE OF may be accessed as an Array: # seqof[0] # => MyModel # seqof[0][:bool].value # => true # seqof[0][:int].value # => 12 # @author Sylvain Daubert class SequenceOf < Constructed # SequenceOf id value ID = Sequence::ID # @return [Class, Base] attr_reader :of_type # A SEQUENCE OF is encoded as a SEQUENCE. # @return ['SEQUENCE'] def self.encoded_type Sequence.encoded_type end # @param [Class, Base] of_type base type for sequence of # @see Base#initialize def initialize(of_type, options={}) super(options) @of_type = of_type @no_value = false end # Clone @#of_type and values def initialize_copy(*) super @of_type = @of_type.dup @value = @value.map(&:dup) end # @return [Array] def void_value [] end # Add an item to SEQUENCE OF # @param [Object] obj # @note # * if a SEQUENCE OF primitive type, +obj+ is an instance of primitive type or equivalent Ruby type # * if a SEQUENCE OF composed type, +obj+ is an array of ruby type instances # * if a SEQUENCE OF model, +obj+ is either a Model or a Hash def <<(obj) return push_primitive(obj) if of_type_class < Primitive return push_composed_array(obj) if composed_of_type? push_model(obj) end # Get element of index +idx+ # @param [Integer] idx # @return [Base] def [](idx) @value[idx] end # Get length of SEQUENCE OF (ie number of elements) # @return [Integer] def length @value.length end # @param [::Integer] level # @return [String] def inspect(level=0) str = common_inspect(level) str << "\n" level = level.abs + 1 @value.each do |item| case item when Base, Model next if item.optional? && item.value.nil? str << item.inspect(level) str << "\n" unless str.end_with?("\n") else str << (' ' * level) << "#{item.inspect}\n" end end str end private def of_type_class @of_type.is_a?(Class) ? @of_type : @of_type.class end def composed_of_type? !@of_type.is_a?(Class) && [Sequence, Set].include?(of_type_class) end def value_to_der @value.map(&:to_der).join end def der_to_value(der, ber: false) # rubocop:disable Lint/UnusedMethodArgument @value = [] nb_bytes = 0 while nb_bytes < der.length type = of_type_class.new nb_bytes += type.parse!(der[nb_bytes, der.length]) @value << type end end def explicit_type self.class.new(self.of_type, name: name) end def push_primitive(obj) @value << case obj when Primitive obj else of_type_class.new(value: obj) end end def push_composed_array(obj) raise ASN1Error, 'object to add should be an Array' unless obj.is_a?(Array) new_value = of_type_class.new @of_type.value.each_with_index do |type, i| type2 = type.dup type2.value = obj[i] new_value.value << type2 end @value << new_value end def push_model(obj) case obj when Hash @value << of_type_class.new(obj) when of_type_class @value << obj else raise ASN1Error, "object to add should be a #{of_type_class} or a Hash" end end def trace_data '' end end end end