# frozen_string_literal: true module RASN1 # This modules is a namesapce for all ASN.1 type classes. # @author Sylvain Daubert module Types @primitives = [] @constructed = [] # Give all primitive types # @return [Array] def self.primitives return @primitives unless @primitives.empty? @primitives = self.constants.map { |c| Types.const_get(c) } .select { |klass| klass < Primitive } end # Give all constructed types # @return [Array] def self.constructed return @constructed unless @constructed.empty? @constructed = self.constants.map { |c| Types.const_get(c) } .select { |klass| klass < Constructed } end # @private # Decode a DER string to extract identifier octets. # @param [String] der # @return [Array] Return ASN.1 class as Symbol, contructed/primitive as Symbol, # ID and size of identifier octets def self.decode_identifier_octets(der) first_octet = der.unpack1('C').to_i asn1_class = Types::Base::CLASSES.key(first_octet & Types::Base::CLASS_MASK) pc = (first_octet & Types::Constructed::ASN1_PC).positive? ? :constructed : :primitive id = first_octet & Types::Base::MULTI_OCTETS_ID size = if id == Types::Base::MULTI_OCTETS_ID id = 0 der.bytes.each_with_index do |octet, i| next if i.zero? id = (id << 7) | (octet & 0x7f) break i + 1 if (octet & 0x80).zero? end else 1 end [asn1_class, pc, id, size] end # Give ASN.1 type from a DER string. If ID is unknown, return a {Types::Base} # object. # @param [String] der # @return [Types::Base] # @raise [ASN1Error] +tag+ is out of range def self.id2type(der) # Define a cache for well-known ASN.1 types self.generate_id2type_cache unless defined? @id2types asn1class, pc, id, = self.decode_identifier_octets(der) # cache_id: check versus class and 5 LSB bits cache_id = der.unpack1('C') & 0xdf klass = cache_id < Types::Base::MULTI_OCTETS_ID ? @id2types[id] : Types::Base is_constructed = (pc == :constructed) options = { class: asn1class, constructed: is_constructed } options[:tag_value] = id if klass == Types::Base klass.new(options) end # @private Generate cache for {.id2type} def self.generate_id2type_cache constructed = self.constructed - [Types::SequenceOf, Types::SetOf] primitives = self.primitives - [Types::Enumerated] ary = (primitives + constructed).select { |type| type.const_defined?(:ID) } .map { |type| [type.const_get(:ID), type] } @id2types = ary.to_h @id2types.default = Types::Base @id2types.freeze end # Define a new ASN.1 type from a base one. # This new type may have a constraint defines on it. # @param [Symbol,String] name New type name. Must start with a capital letter. # @param [Types::Base] from class from which inherits # @param [Module] in_module module in which creates new type (default to {RASN1::Types}) # @return [Class] newly created class # @since 0.11.0 # @since 0.12.0 in_module parameter def self.define_type(name, from:, in_module: self, &block) constraint = block.nil? ? nil : block.to_proc new_klass = Class.new(from) do include Constrained end new_klass.constraint = constraint in_module.const_set(name, new_klass) accel_name = name.to_s.gsub(/([a-z])([A-Z])/, '\1_\2').downcase Model.define_type_accel(accel_name, new_klass) # Empty type caches @primitives = [] @constructed = [] new_klass end end end require_relative 'types/base' require_relative 'types/primitive' require_relative 'types/boolean' require_relative 'types/integer' require_relative 'types/bit_string' require_relative 'types/octet_string' require_relative 'types/null' require_relative 'types/object_id' require_relative 'types/enumerated' require_relative 'types/bmp_string' require_relative 'types/utf8_string' require_relative 'types/numeric_string' require_relative 'types/printable_string' require_relative 'types/ia5string' require_relative 'types/visible_string' require_relative 'types/constructed' require_relative 'types/sequence' require_relative 'types/sequence_of' require_relative 'types/set' require_relative 'types/set_of' require_relative 'types/choice' require_relative 'types/any' require_relative 'types/utc_time' require_relative 'types/generalized_time'