# encoding: UTF-8 # -- # Copyright (C) 2008-2011 10gen Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ++ module BSON # A BSON seralizer/deserializer in pure Ruby. class BSON_RUBY DEFAULT_MAX_BSON_SIZE = 4 * 1024 * 1024 @@max_bson_size = DEFAULT_MAX_BSON_SIZE MINKEY = -1 EOO = 0 NUMBER = 1 STRING = 2 OBJECT = 3 ARRAY = 4 BINARY = 5 UNDEFINED = 6 OID = 7 BOOLEAN = 8 DATE = 9 NULL = 10 REGEX = 11 REF = 12 CODE = 13 SYMBOL = 14 CODE_W_SCOPE = 15 NUMBER_INT = 16 TIMESTAMP = 17 NUMBER_LONG = 18 MAXKEY = 127 def initialize(max_bson_size=BSON::DEFAULT_MAX_BSON_SIZE) @buf = ByteBuffer.new('', max_bson_size) @encoder = BSON_RUBY end if RUBY_VERSION >= '1.9' NULL_BYTE = "\0".force_encoding('binary').freeze UTF8_ENCODING = Encoding.find('utf-8') BINARY_ENCODING = Encoding.find('binary') def self.to_utf8_binary(str) begin str.unpack("U*") rescue raise InvalidStringEncoding, "String not valid utf-8: #{str.inspect}" end str.dup.force_encoding(BINARY_ENCODING) end else NULL_BYTE = "\0" def self.to_utf8_binary(str) begin str.unpack("U*") rescue raise InvalidStringEncoding, "String not valid utf-8: #{str.inspect}" end str end end def self.update_max_bson_size(connection) warn "BSON::BSON_CODER.update_max_bson_size is deprecated and now a no-op. It will be removed in v2.0." @@max_bson_size = connection.max_bson_size end def self.max_bson_size warn "BSON::BSON_CODER.max_bson_size is deprecated and will be removed in v2.0." @@max_bson_size end def self.serialize_cstr(buf, val) buf.put_binary(to_utf8_binary(val.to_s)) buf.put_binary(NULL_BYTE) end def self.serialize_key(buf, key) raise InvalidDocument, "Key names / regex patterns must not contain the NULL byte" if key.include? "\x00" self.serialize_cstr(buf, key) end def to_a @buf.to_a end def to_s @buf.to_s end # Serializes an object. # Implemented to ensure an API compatible with BSON extension. def self.serialize(obj, check_keys=false, move_id=false, max_bson_size=BSON::DEFAULT_MAX_BSON_SIZE) new(max_bson_size).serialize(obj, check_keys, move_id) end def self.deserialize(buf=nil) new.deserialize(buf) end def serialize(obj, check_keys=false, move_id=false) raise(InvalidDocument, "BSON.serialize takes a Hash but got a #{obj.class}") unless obj.is_a?(Hash) raise "Document is null" unless obj @buf.rewind # put in a placeholder for the total size @buf.put_int(0) # Write key/value pairs. Always write _id first if it exists. if move_id if obj.has_key? '_id' serialize_key_value('_id', obj['_id'], false) elsif obj.has_key? :_id serialize_key_value('_id', obj[:_id], false) end obj.each {|k, v| serialize_key_value(k, v, check_keys) unless k == '_id' || k == :_id } else if obj.has_key?('_id') && obj.has_key?(:_id) obj['_id'] = obj.delete(:_id) end obj.each {|k, v| serialize_key_value(k, v, check_keys) } end serialize_eoo_element(@buf) if @buf.size > @buf.max_size raise InvalidDocument, "Document is too large (#{@buf.size}). " + "This BSON documents is limited to #{@buf.max_size} bytes." end @buf.put_int(@buf.size, 0) @buf end # Returns the array stored in the buffer. # Implemented to ensure an API compatible with BSON extension. def unpack(arg) @buf.to_a end def serialize_key_value(k, v, check_keys) k = k.to_s if check_keys if k[0] == ?$ raise InvalidKeyName.new("key #{k} must not start with '$'") end if k.include? ?. raise InvalidKeyName.new("key #{k} must not contain '.'") end end type = bson_type(v) case type when STRING, SYMBOL serialize_string_element(@buf, k, v, type) when NUMBER, NUMBER_INT serialize_number_element(@buf, k, v, type) when OBJECT serialize_object_element(@buf, k, v, check_keys) when OID serialize_oid_element(@buf, k, v) when ARRAY serialize_array_element(@buf, k, v, check_keys) when REGEX serialize_regex_element(@buf, k, v) when BOOLEAN serialize_boolean_element(@buf, k, v) when DATE serialize_date_element(@buf, k, v) when NULL serialize_null_element(@buf, k) when REF serialize_dbref_element(@buf, k, v) when BINARY serialize_binary_element(@buf, k, v) when UNDEFINED serialize_null_element(@buf, k) when CODE_W_SCOPE serialize_code_w_scope(@buf, k, v) when MAXKEY serialize_max_key_element(@buf, k) when MINKEY serialize_min_key_element(@buf, k) when TIMESTAMP serialize_timestamp_element(@buf, k, v) else raise "unhandled type #{type}" end end def deserialize(buf=nil) # If buf is nil, use @buf, assumed to contain already-serialized BSON. # This is only true during testing. if buf.is_a? String @buf = ByteBuffer.new(buf.unpack("C*")) if buf else @buf = ByteBuffer.new(buf.to_a) if buf end @buf.rewind @buf.get_int # eat message size doc = BSON::OrderedHash.new while @buf.more? type = @buf.get case type when STRING, CODE key = deserialize_cstr(@buf) doc[key] = deserialize_string_data(@buf) when SYMBOL key = deserialize_cstr(@buf) doc[key] = deserialize_string_data(@buf).intern when NUMBER key = deserialize_cstr(@buf) doc[key] = deserialize_number_data(@buf) when NUMBER_INT key = deserialize_cstr(@buf) doc[key] = deserialize_number_int_data(@buf) when NUMBER_LONG key = deserialize_cstr(@buf) doc[key] = deserialize_number_long_data(@buf) when OID key = deserialize_cstr(@buf) doc[key] = deserialize_oid_data(@buf) when ARRAY key = deserialize_cstr(@buf) doc[key] = deserialize_array_data(@buf) when REGEX key = deserialize_cstr(@buf) doc[key] = deserialize_regex_data(@buf) when OBJECT key = deserialize_cstr(@buf) doc[key] = deserialize_object_data(@buf) when BOOLEAN key = deserialize_cstr(@buf) doc[key] = deserialize_boolean_data(@buf) when DATE key = deserialize_cstr(@buf) doc[key] = deserialize_date_data(@buf) when NULL key = deserialize_cstr(@buf) doc[key] = nil when UNDEFINED key = deserialize_cstr(@buf) doc[key] = nil when REF key = deserialize_cstr(@buf) doc[key] = deserialize_dbref_data(@buf) when BINARY key = deserialize_cstr(@buf) doc[key] = deserialize_binary_data(@buf) when CODE_W_SCOPE key = deserialize_cstr(@buf) doc[key] = deserialize_code_w_scope_data(@buf) when TIMESTAMP key = deserialize_cstr(@buf) doc[key] = deserialize_timestamp_data(@buf) when MAXKEY key = deserialize_cstr(@buf) doc[key] = MaxKey.new when MINKEY, 255 # This is currently easier than unpack the type byte as an unsigned char. key = deserialize_cstr(@buf) doc[key] = MinKey.new when EOO break else raise "Unknown type #{type}, key = #{key}" end end @buf.rewind doc end # For debugging. def hex_dump str = '' @buf.to_a.each_with_index { |b,i| if (i % 8) == 0 str << "\n" if i > 0 str << '%4d: ' % i else str << ' ' end str << '%02X' % b } str end def deserialize_date_data(buf) unsigned = buf.get_long() milliseconds = unsigned >= 2 ** 64 / 2 ? unsigned - 2**64 : unsigned Time.at(milliseconds.to_f / 1000.0).utc # at() takes fractional seconds end def deserialize_boolean_data(buf) buf.get == 1 end def deserialize_number_data(buf) buf.get_double end def deserialize_number_int_data(buf) unsigned = buf.get_int unsigned >= 2**32 / 2 ? unsigned - 2**32 : unsigned end def deserialize_number_long_data(buf) unsigned = buf.get_long unsigned >= 2 ** 64 / 2 ? unsigned - 2**64 : unsigned end def deserialize_object_data(buf) size = buf.get_int buf.position -= 4 object = @encoder.new().deserialize(buf.get(size)) if object.has_key? "$ref" DBRef.new(object["$ref"], object["$id"]) else object end end def deserialize_array_data(buf) h = deserialize_object_data(buf) a = [] h.each { |k, v| a[k.to_i] = v } a end def deserialize_regex_data(buf) str = deserialize_cstr(buf) options_str = deserialize_cstr(buf) opts = 0 opts |= Regexp::IGNORECASE if options_str.include?('i') opts |= Regexp::MULTILINE if options_str.include?('m') opts |= Regexp::MULTILINE if options_str.include?('s') opts |= Regexp::EXTENDED if options_str.include?('x') Regexp.new(str, opts) end def deserialize_timestamp_data(buf) increment = buf.get_int seconds = buf.get_int Timestamp.new(seconds, increment) end def encoded_str(str) if RUBY_VERSION >= '1.9' str.force_encoding("utf-8") if Encoding.default_internal str.encode!(Encoding.default_internal) end end str end def deserialize_string_data(buf) len = buf.get_int bytes = buf.get(len) str = bytes[0..-2] if str.respond_to? "pack" str = str.pack("C*") end encoded_str(str) end def deserialize_code_w_scope_data(buf) buf.get_int len = buf.get_int code = buf.get(len)[0..-2] if code.respond_to? "pack" code = code.pack("C*") end scope_size = buf.get_int buf.position -= 4 scope = @encoder.new().deserialize(buf.get(scope_size)) Code.new(encoded_str(code), scope) end def deserialize_oid_data(buf) ObjectId.new(buf.get(12)) end def deserialize_dbref_data(buf) ns = deserialize_string_data(buf) oid = deserialize_oid_data(buf) DBRef.new(ns, oid) end def deserialize_binary_data(buf) len = buf.get_int type = buf.get len = buf.get_int if type == Binary::SUBTYPE_BYTES Binary.new(buf.get(len), type) end def serialize_eoo_element(buf) buf.put(EOO) end def serialize_null_element(buf, key) buf.put(NULL) self.class.serialize_key(buf, key) end def serialize_dbref_element(buf, key, val) oh = BSON::OrderedHash.new oh['$ref'] = val.namespace oh['$id'] = val.object_id serialize_object_element(buf, key, oh, false) end def serialize_binary_element(buf, key, val) buf.put(BINARY) self.class.serialize_key(buf, key) bytes = val.to_a num_bytes = bytes.length subtype = val.respond_to?(:subtype) ? val.subtype : Binary::SUBTYPE_BYTES if subtype == Binary::SUBTYPE_BYTES buf.put_int(num_bytes + 4) buf.put(subtype) buf.put_int(num_bytes) buf.put_array(bytes) else buf.put_int(num_bytes) buf.put(subtype) buf.put_array(bytes) end end def serialize_boolean_element(buf, key, val) buf.put(BOOLEAN) self.class.serialize_key(buf, key) buf.put(val ? 1 : 0) end def serialize_date_element(buf, key, val) buf.put(DATE) self.class.serialize_key(buf, key) millisecs = (val.to_f * 1000).to_i buf.put_long(millisecs) end def serialize_number_element(buf, key, val, type) if type == NUMBER buf.put(type) self.class.serialize_key(buf, key) buf.put_double(val) else if val > 2**64 / 2 - 1 or val < -2**64 / 2 raise RangeError.new("MongoDB can only handle 8-byte ints") end if val > 2**32 / 2 - 1 or val < -2**32 / 2 buf.put(NUMBER_LONG) self.class.serialize_key(buf, key) buf.put_long(val) else buf.put(type) self.class.serialize_key(buf, key) buf.put_int(val) end end end def serialize_object_element(buf, key, val, check_keys, opcode=OBJECT) buf.put(opcode) self.class.serialize_key(buf, key) buf.put_array(@encoder.new.serialize(val, check_keys).to_a) end def serialize_array_element(buf, key, val, check_keys) # Turn array into hash with integer indices as keys h = BSON::OrderedHash.new i = 0 val.each { |v| h[i] = v; i += 1 } serialize_object_element(buf, key, h, check_keys, ARRAY) end def serialize_regex_element(buf, key, val) buf.put(REGEX) self.class.serialize_key(buf, key) str = val.source # We use serialize_key here since regex patterns aren't prefixed with # length (can't contain the NULL byte). self.class.serialize_key(buf, str) options = val.options options_str = '' options_str << 'i' if ((options & Regexp::IGNORECASE) != 0) if ((options & Regexp::MULTILINE) != 0) options_str << 'm' options_str << 's' end options_str << 'x' if ((options & Regexp::EXTENDED) != 0) options_str << val.extra_options_str if val.respond_to?(:extra_options_str) # Must store option chars in alphabetical order self.class.serialize_cstr(buf, options_str.split(//).sort.uniq.join) end def serialize_max_key_element(buf, key) buf.put(MAXKEY) self.class.serialize_key(buf, key) end def serialize_min_key_element(buf, key) buf.put(MINKEY) self.class.serialize_key(buf, key) end def serialize_timestamp_element(buf, key, val) buf.put(TIMESTAMP) self.class.serialize_key(buf, key) buf.put_int(val.increment) buf.put_int(val.seconds) end def serialize_oid_element(buf, key, val) buf.put(OID) self.class.serialize_key(buf, key) buf.put_array(val.to_a) end def serialize_string_element(buf, key, val, type) buf.put(type) self.class.serialize_key(buf, key) # Make a hole for the length len_pos = buf.position buf.put_int(0) # Save the string start_pos = buf.position self.class.serialize_cstr(buf, val) end_pos = buf.position # Put the string size in front buf.put_int(end_pos - start_pos, len_pos) # Go back to where we were buf.position = end_pos end def serialize_code_w_scope(buf, key, val) buf.put(CODE_W_SCOPE) self.class.serialize_key(buf, key) # Make a hole for the length len_pos = buf.position buf.put_int(0) buf.put_int(val.code.length + 1) self.class.serialize_cstr(buf, val.code) buf.put_array(@encoder.new.serialize(val.scope).to_a) end_pos = buf.position buf.put_int(end_pos - len_pos, len_pos) buf.position = end_pos end def deserialize_cstr(buf) chars = "" while true b = buf.get break if b == 0 chars << b.chr end encoded_str(chars) end def bson_type(o) case o when nil NULL when Integer NUMBER_INT when Float NUMBER when ByteBuffer BINARY when Code CODE_W_SCOPE when String STRING when Array ARRAY when Regexp REGEX when ObjectId OID when DBRef REF when true, false BOOLEAN when Time DATE when Hash OBJECT when Symbol SYMBOL when MaxKey MAXKEY when MinKey MINKEY when Timestamp TIMESTAMP when Numeric raise InvalidDocument, "Cannot serialize the Numeric type #{o.class} as BSON; only Fixum, Bignum, and Float are supported." when Date, DateTime raise InvalidDocument, "#{o.class} is not currently supported; " + "use a UTC Time instance instead." else if defined?(ActiveSupport::TimeWithZone) && o.is_a?(ActiveSupport::TimeWithZone) raise InvalidDocument, "ActiveSupport::TimeWithZone is not currently supported; " + "use a UTC Time instance instead." else raise InvalidDocument, "Cannot serialize #{o.class} as a BSON type; it either isn't supported or won't translate to BSON." end end end end end