# encoding: utf-8 # frozen_string_literal: true module Mail # Raised when attempting to decode an unknown encoding type class UnknownEncodingType < StandardError #:nodoc: end module Encodings include Mail::Constants extend Mail::Utilities @transfer_encodings = {} # Register transfer encoding # # Example # # Encodings.register "base64", Mail::Encodings::Base64 def Encodings.register(name, cls) @transfer_encodings[get_name(name)] = cls end # Is the encoding we want defined? # # Example: # # Encodings.defined?(:base64) #=> true def Encodings.defined?( str ) @transfer_encodings.include? get_name(str) end # Gets a defined encoding type, QuotedPrintable or Base64 for now. # # Each encoding needs to be defined as a Mail::Encodings::ClassName for # this to work, allows us to add other encodings in the future. # # Example: # # Encodings.get_encoding(:base64) #=> Mail::Encodings::Base64 def Encodings.get_encoding( str ) @transfer_encodings[get_name(str)] end def Encodings.get_all @transfer_encodings.values end def Encodings.get_name(enc) underscoreize(enc).downcase end def Encodings.transcode_charset(str, from_charset, to_charset = 'UTF-8') if from_charset RubyVer.transcode_charset str, from_charset, to_charset else str end end # Encodes a parameter value using URI Escaping, note the language field 'en' can # be set using Mail::Configuration, like so: # # Mail.defaults do # param_encode_language 'jp' # end # # The character set used for encoding will either be the value of $KCODE for # Ruby < 1.9 or the encoding on the string passed in. # # Example: # # Mail::Encodings.param_encode("This is fun") #=> "us-ascii'en'This%20is%20fun" def Encodings.param_encode(str) case when str.ascii_only? && str =~ TOKEN_UNSAFE %Q{"#{str}"} when str.ascii_only? str else RubyVer.param_encode(str) end end # Decodes a parameter value using URI Escaping. # # Example: # # Mail::Encodings.param_decode("This%20is%20fun", 'us-ascii') #=> "This is fun" # # str = Mail::Encodings.param_decode("This%20is%20fun", 'iso-8559-1') # str.encoding #=> 'ISO-8859-1' ## Only on Ruby 1.9 # str #=> "This is fun" def Encodings.param_decode(str, encoding) RubyVer.param_decode(str, encoding) end # Decodes or encodes a string as needed for either Base64 or QP encoding types in # the =??[QB]??=" format. # # The output type needs to be :decode to decode the input string or :encode to # encode the input string. The character set used for encoding will either be # the value of $KCODE for Ruby < 1.9 or the encoding on the string passed in. # # On encoding, will only send out Base64 encoded strings. def Encodings.decode_encode(str, output_type) case when output_type == :decode Encodings.value_decode(str) else if str.ascii_only? str else Encodings.b_value_encode(str, find_encoding(str)) end end end # Decodes a given string as Base64 or Quoted Printable, depending on what # type it is. # # String has to be of the format =??[QB]??= def Encodings.value_decode(str) # Optimization: If there's no encoded-words in the string, just return it return str unless str =~ ENCODED_VALUE lines = collapse_adjacent_encodings(str) # Split on white-space boundaries with capture, so we capture the white-space as well lines.each do |line| line.gsub!(ENCODED_VALUE) do |string| case $2 when *B_VALUES then b_value_decode(string) when *Q_VALUES then q_value_decode(string) end end end.join("") end # Takes an encoded string of the format =??[QB]??= def Encodings.unquote_and_convert_to(str, to_encoding) output = value_decode( str ).to_s # output is already converted to UTF-8 if 'utf8' == to_encoding.to_s.downcase.gsub("-", "") output elsif to_encoding begin if RUBY_VERSION >= '1.9' output.encode(to_encoding) else require 'iconv' Iconv.iconv(to_encoding, 'UTF-8', output).first end rescue Iconv::IllegalSequence, Iconv::InvalidEncoding, Errno::EINVAL # the 'from' parameter specifies a charset other than what the text # actually is...not much we can do in this case but just return the # unconverted text. # # Ditto if either parameter represents an unknown charset, like # X-UNKNOWN. output end else output end end def Encodings.address_encode(address, charset = 'utf-8') if address.is_a?(Array) # loop back through for each element address.compact.map { |a| Encodings.address_encode(a, charset) }.join(", ") else # find any word boundary that is not ascii and encode it encode_non_usascii(address, charset) if address end end def Encodings.encode_non_usascii(address, charset) return address if address.ascii_only? or charset.nil? us_ascii = %Q{\x00-\x7f} # Encode any non usascii strings embedded inside of quotes address = address.gsub(/(".*?[^#{us_ascii}].*?")/) { |s| Encodings.b_value_encode(unquote(s), charset) } # Then loop through all remaining items and encode as needed tokens = address.split(/\s/) map_with_index(tokens) do |word, i| if word.ascii_only? word else previous_non_ascii = i>0 && tokens[i-1] && !tokens[i-1].ascii_only? if previous_non_ascii #why are we adding an extra space here? word = " #{word}" end Encodings.b_value_encode(word, charset) end end.join(' ') end # Encode a string with Base64 Encoding and returns it ready to be inserted # as a value for a field, that is, in the =??B??= format # # Example: # # Encodings.b_value_encode('This is あ string', 'UTF-8') # #=> "=?UTF-8?B?VGhpcyBpcyDjgYIgc3RyaW5n?=" def Encodings.b_value_encode(encoded_str, encoding = nil) return encoded_str if encoded_str.to_s.ascii_only? string, encoding = RubyVer.b_value_encode(encoded_str, encoding) map_lines(string) do |str| "=?#{encoding}?B?#{str.chomp}?=" end.join(" ") end # Encode a string with Quoted-Printable Encoding and returns it ready to be inserted # as a value for a field, that is, in the =??Q??= format # # Example: # # Encodings.q_value_encode('This is あ string', 'UTF-8') # #=> "=?UTF-8?Q?This_is_=E3=81=82_string?=" def Encodings.q_value_encode(encoded_str, encoding = nil) return encoded_str if encoded_str.to_s.ascii_only? string, encoding = RubyVer.q_value_encode(encoded_str, encoding) string.gsub!("=\r\n", '') # We already have limited the string to the length we want map_lines(string) do |str| "=?#{encoding}?Q?#{str.chomp.gsub(/ /, '_')}?=" end.join(" ") end private # Decodes a Base64 string from the "=?UTF-8?B?VGhpcyBpcyDjgYIgc3RyaW5n?=" format # # Example: # # Encodings.b_value_decode("=?UTF-8?B?VGhpcyBpcyDjgYIgc3RyaW5n?=") # #=> 'This is あ string' def Encodings.b_value_decode(str) RubyVer.b_value_decode(str) end # Decodes a Quoted-Printable string from the "=?UTF-8?Q?This_is_=E3=81=82_string?=" format # # Example: # # Encodings.q_value_decode("=?UTF-8?Q?This_is_=E3=81=82_string?=") # #=> 'This is あ string' def Encodings.q_value_decode(str) RubyVer.q_value_decode(str) end def Encodings.find_encoding(str) RUBY_VERSION >= '1.9' ? str.encoding : $KCODE end # Gets the encoding type (Q or B) from the string. def Encodings.value_encoding_from_string(str) str[ENCODED_VALUE, 1] end # When the encoded string consists of multiple lines, lines with the same # encoding (Q or B) can be joined together. # # String has to be of the format =??[QB]??= def Encodings.collapse_adjacent_encodings(str) results = [] previous_encoding = nil lines = str.split(FULL_ENCODED_VALUE) lines.each_slice(2) do |unencoded, encoded| if encoded encoding = value_encoding_from_string(encoded) if encoding == previous_encoding && Utilities.blank?(unencoded) results.last << encoded else results << unencoded unless unencoded == EMPTY results << encoded end previous_encoding = encoding else results << unencoded end end results end end end