# encoding: utf-8 # author: Dominik Richter # author: Christoph Hartmann require 'parslet' class ErlangParser < Parslet::Parser root :outermost # only designed for rabbitmq config files for now: rule(:outermost) { filler? >> array.maybe >> dot.maybe } rule(:exp) { (tuple | array | binary | string | bool | identifier | float | integer) >> filler? } rule(:array) { str('[') >> filler? >> ( exp.repeat(1) >> (comma >> exp).repeat ).maybe.as(:array) >> str(']') >> filler? } rule(:tuple) { str('{') >> filler? >> ( exp.repeat(1) >> filler? >> (comma >> exp).repeat ).maybe.as(:tuple) >> str('}') >> filler? } rule(:filler?) { space.repeat } rule(:space) { match('\s+') | match["\n"] | comment } rule(:comment) { str('%') >> (match["\n\r"].absent? >> any).repeat } rule(:comma) { str(',') >> filler? } rule(:dot) { str('.') >> filler? } rule(:bool) { str('true').as(:bool) | str('false').as(:bool) } rule(:identifier) { (match('[a-zA-Z]') >> match('[a-zA-Z0-9_]').repeat).as(:identifier) >> filler? } rule(:float) { ( integer >> ( str('.') >> match('[0-9]').repeat(1) | str('e') >> match('[0-9]').repeat(1) ).as(:e) ).as(:float) >> filler? } rule(:integer) { ((str('+') | str('-')).maybe >> match('[0-9]').repeat(1)).as(:integer) >> filler? } rule(:string) { stringS | stringD } rule(:stringS) { str("'") >> ( str('\\') >> any | str("'").absent? >> any ).repeat.as(:string) >> str("'") >> filler? } rule(:stringD) { str('"') >> ( str('\\') >> any | str('"').absent? >> any ).repeat.as(:string) >> str('"') >> filler? } rule(:binary_item) { (string | integer) >> (str(':') >> integer).maybe.as(:size) >> (str('/') >> identifier).maybe.as(:type) >> filler? } rule(:binary) { str('<<') >> filler? >> ( binary_item.repeat(1) >> (comma >> binary_item).repeat ).maybe.as(:binary) >> str('>>') >> filler? } end class ErlangBitstream def initialize @data = [] # a stream of 8-bit numbers @cur_bits = '' # a string of binary bits 10010010... end TYPES = { 'integer' => 8, 'float' => 8*8, 'utf8' => 8, 'utf16' => 8*2, 'utf32' => 8*4, }.freeze def bit_size(size, type) raise 'Cannot specify size and type at the same time.' if !type.nil? && !size.nil? return (size || 8).to_i if type.nil? TYPES[type] || raise("Cannot handle binary-stream type #{type}") end def add(i) if i[:integer].nil? && i[:string].nil? raise 'No data provided, internal error for binary-stream processing!' end s = bit_size(i[:size], i[:type]) unless i[:string].nil? str2int(i[:string].to_s, i[:type]).map { |e| add_bits(int2bits(e, 8)) } else add_int(i[:integer], s) end rescue RuntimeError => e raise 'Error processing Erlang bit string '\ "'#{i[:string] || i[:integer]}:#{i[:size]}/#{i[:type]}'. #{e.message}" end def str2int(s, type) case type when 'utf8' then s.encode('utf-8').unpack('C*') when 'utf16' then s.encode('utf-16').unpack('C*').drop(2) when 'utf32' then s.encode('utf-32').unpack('C*').drop(4) when 'integer', 'float' then raise "Cannot handle bit string as type #{type}" else s.split('').map { |x| x.ord & 0xff } end end def int2bits(i, len) format("%0#{len}b", i) end def add_int(v, size) x = v.to_i & (2**size - 1) # only get the bits specified in size add_bits(int2bits(x, size)) end def add_bits(s) b = (@cur_bits + s).scan(/.{1,8}/) @data += b[0..-2].map { |x| x.to_i(2) } @cur_bits = b.last end def value(encoding = 'utf-8') # fill in the rest rest = '0' * (8 - @cur_bits.length) + @cur_bits arr = @data + [rest.to_i(2)] s = arr.pack('C*') s.force_encoding(encoding) unless encoding.nil? s end end class ErlangTransform < Parslet::Transform class Tuple < Array; end class Identifier < String; end def self.assemble_binary(seq) b = ErlangBitstream.new seq.each { |i| b.add(i) } b.value end rule(string: simple(:x)) { x.to_s } rule(string: []) { '' } rule(integer: simple(:x)) { x.to_i } rule(float: { integer: simple(:a), e: simple(:b) }) { (a+b).to_f } rule(bool: 'true') { true } rule(bool: 'false') { false } rule(binary: subtree(:x)) { x.nil? ? '' : ErlangTransform.assemble_binary(x) } rule(identifier: simple(:x)) { Identifier.new(x.to_s) } rule(array: subtree(:x)) { Array(x) } rule(tuple: subtree(:x)) { x.nil? ? Tuple.new : Tuple.new(x) } end class ErlangConfigFile def self.parse(content) lex = ErlangParser.new.parse(content) tree = ErlangTransform.new.apply(lex) turn_to_hash(tree) end def self.turn_to_hash(t) if t.is_a?(Array) && t.all? { |x| x.class == ErlangTransform::Tuple && x.length == 2 } Hash[t.map { |i| [i[0], turn_to_hash(i[1])] }] else t end end end