# encoding:utf-8 require 'test/test_helper' require 'complex' require 'bigdecimal' require 'rational' begin require 'active_support/core_ext' require 'active_support/hash_with_indifferent_access' Time.zone = "Pacific Time (US & Canada)" Zone = Time.zone.now rescue LoadError warn 'Could not test BSON with HashWithIndifferentAccess.' module ActiveSupport class TimeWithZone end end Zone = ActiveSupport::TimeWithZone.new end class BSONTest < Test::Unit::TestCase include BSON def test_serialize_returns_byte_buffer doc = {'doc' => 'hello, world'} bson = BSON.serialize(doc) assert bson.is_a?(ByteBuffer) end def test_deprecated_bson_module doc = {'doc' => 'hello, world'} bson = BSON.serialize(doc) assert_equal doc, BSON.deserialize(bson) end def test_string doc = {'doc' => 'hello, world'} bson = bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_valid_utf8_string doc = {'doc' => 'aé'} bson = bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_valid_utf8_key doc = {'aé' => 'hello'} bson = bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_document_length doc = {'name' => 'a' * 5 * 1024 * 1024} assert_raise InvalidDocument do assert BSON::BSON_CODER.serialize(doc) end end # In 1.8 we test that other string encodings raise an exception. # In 1.9 we test that they get auto-converted. if RUBY_VERSION < '1.9' require 'iconv' def test_invalid_string string = Iconv.conv('iso-8859-1', 'utf-8', 'aé') doc = {'doc' => string} assert_raise InvalidStringEncoding do BSON::BSON_CODER.serialize(doc) end end def test_invalid_key key = Iconv.conv('iso-8859-1', 'utf-8', 'aé') doc = {key => 'hello'} assert_raise InvalidStringEncoding do BSON::BSON_CODER.serialize(doc) end end else def test_non_utf8_string bson = BSON::BSON_CODER.serialize({'str' => 'aé'.encode('iso-8859-1')}) result = BSON::BSON_CODER.deserialize(bson)['str'] assert_equal 'aé', result assert_equal 'UTF-8', result.encoding.name end def test_non_utf8_key bson = BSON::BSON_CODER.serialize({'aé'.encode('iso-8859-1') => 'hello'}) assert_equal 'hello', BSON::BSON_CODER.deserialize(bson)['aé'] end end def test_code doc = {'$where' => Code.new('this.a.b < this.b')} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_code_with_scope doc = {'$where' => Code.new('this.a.b < this.b', {'foo' => 1})} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_number doc = {'doc' => 41.99} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_int doc = {'doc' => 42} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) doc = {"doc" => -5600} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) doc = {"doc" => 2147483647} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) doc = {"doc" => -2147483648} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_ordered_hash doc = OrderedHash.new doc["b"] = 1 doc["a"] = 2 doc["c"] = 3 doc["d"] = 4 bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_object doc = {'doc' => {'age' => 42, 'name' => 'Spongebob', 'shoe_size' => 9.5}} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_oid doc = {'doc' => ObjectID.new} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_array doc = {'doc' => [1, 2, 'a', 'b']} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_regex doc = {'doc' => /foobar/i} bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) assert_equal doc, doc2 r = doc2['doc'] assert_kind_of Regexp, r doc = {'doc' => r} bson_doc = BSON::BSON_CODER.serialize(doc) doc2 = nil doc2 = BSON::BSON_CODER.deserialize(bson_doc) assert_equal doc, doc2 end def test_boolean doc = {'doc' => true} bson = BSON::BSON_CODER.serialize(doc) assert_equal doc, BSON::BSON_CODER.deserialize(bson) end def test_date doc = {'date' => Time.now} bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) # Mongo only stores up to the millisecond assert_in_delta doc['date'], doc2['date'], 0.001 end def test_date_returns_as_utc doc = {'date' => Time.now} bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) assert doc2['date'].utc? end def test_date_before_epoch begin doc = {'date' => Time.utc(1600)} bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) # Mongo only stores up to the millisecond assert_in_delta doc['date'], doc2['date'], 0.001 rescue ArgumentError # some versions of Ruby won't let you create pre-epoch Time instances # # TODO figure out how that will work if somebady has saved data # w/ early dates already and is just querying for it. end end def test_exeption_on_using_unsupported_date_class [DateTime.now, Date.today, Zone].each do |invalid_date| doc = {:date => invalid_date} begin bson = BSON::BSON_CODER.serialize(doc) rescue => e ensure if !invalid_date.is_a? Time assert_equal InvalidDocument, e.class assert_match /UTC Time/, e.message end end end end def test_dbref oid = ObjectID.new doc = {} doc['dbref'] = DBRef.new('namespace', oid) bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) assert_equal 'namespace', doc2['dbref'].namespace assert_equal oid, doc2['dbref'].object_id end def test_symbol doc = {'sym' => :foo} bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) assert_equal :foo, doc2['sym'] end def test_binary bin = Binary.new 'binstring'.each_byte { |b| bin.put(b) } doc = {'bin' => bin} bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) bin2 = doc2['bin'] assert_kind_of Binary, bin2 assert_equal 'binstring', bin2.to_s assert_equal Binary::SUBTYPE_BYTES, bin2.subtype end def test_binary_with_string b = Binary.new('somebinarystring') doc = {'bin' => b} bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) bin2 = doc2['bin'] assert_kind_of Binary, bin2 assert_equal 'somebinarystring', bin2.to_s assert_equal Binary::SUBTYPE_BYTES, bin2.subtype end def test_binary_type bin = Binary.new([1, 2, 3, 4, 5], Binary::SUBTYPE_USER_DEFINED) doc = {'bin' => bin} bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) bin2 = doc2['bin'] assert_kind_of Binary, bin2 assert_equal [1, 2, 3, 4, 5], bin2.to_a assert_equal Binary::SUBTYPE_USER_DEFINED, bin2.subtype end def test_binary_byte_buffer bb = Binary.new 5.times { |i| bb.put(i + 1) } doc = {'bin' => bb} bson = BSON::BSON_CODER.serialize(doc) doc2 = BSON::BSON_CODER.deserialize(bson) bin2 = doc2['bin'] assert_kind_of Binary, bin2 assert_equal [1, 2, 3, 4, 5], bin2.to_a assert_equal Binary::SUBTYPE_BYTES, bin2.subtype end def test_put_id_first val = OrderedHash.new val['not_id'] = 1 val['_id'] = 2 roundtrip = BSON::BSON_CODER.deserialize(BSON::BSON_CODER.serialize(val, false, true).to_a) assert_kind_of OrderedHash, roundtrip assert_equal '_id', roundtrip.keys.first val = {'a' => 'foo', 'b' => 'bar', :_id => 42, 'z' => 'hello'} roundtrip = BSON::BSON_CODER.deserialize(BSON::BSON_CODER.serialize(val, false, true).to_a) assert_kind_of OrderedHash, roundtrip assert_equal '_id', roundtrip.keys.first end def test_nil_id doc = {"_id" => nil} assert_equal doc, BSON::BSON_CODER.deserialize(bson = BSON::BSON_CODER.serialize(doc, false, true).to_a) end def test_timestamp val = {"test" => [4, 20]} assert_equal val, BSON::BSON_CODER.deserialize([0x13, 0x00, 0x00, 0x00, 0x11, 0x74, 0x65, 0x73, 0x74, 0x00, 0x04, 0x00, 0x00, 0x00, 0x14, 0x00, 0x00, 0x00, 0x00]) end def test_overflow doc = {"x" => 2**75} assert_raise RangeError do bson = BSON::BSON_CODER.serialize(doc) end doc = {"x" => 9223372036854775} assert_equal doc, BSON::BSON_CODER.deserialize(BSON::BSON_CODER.serialize(doc).to_a) doc = {"x" => 9223372036854775807} assert_equal doc, BSON::BSON_CODER.deserialize(BSON::BSON_CODER.serialize(doc).to_a) doc["x"] = doc["x"] + 1 assert_raise RangeError do bson = BSON::BSON_CODER.serialize(doc) end doc = {"x" => -9223372036854775} assert_equal doc, BSON::BSON_CODER.deserialize(BSON::BSON_CODER.serialize(doc).to_a) doc = {"x" => -9223372036854775808} assert_equal doc, BSON::BSON_CODER.deserialize(BSON::BSON_CODER.serialize(doc).to_a) doc["x"] = doc["x"] - 1 assert_raise RangeError do bson = BSON::BSON_CODER.serialize(doc) end end def test_invalid_numeric_types [BigDecimal.new("1.0"), Complex(0, 1), Rational(2, 3)].each do |type| doc = {"x" => type} begin BSON::BSON_CODER.serialize(doc) rescue => e ensure assert_equal InvalidDocument, e.class assert_match /Cannot serialize/, e.message end end end def test_do_not_change_original_object val = OrderedHash.new val['not_id'] = 1 val['_id'] = 2 assert val.keys.include?('_id') BSON::BSON_CODER.serialize(val) assert val.keys.include?('_id') val = {'a' => 'foo', 'b' => 'bar', :_id => 42, 'z' => 'hello'} assert val.keys.include?(:_id) BSON::BSON_CODER.serialize(val) assert val.keys.include?(:_id) end # note we only test for _id here because in the general case we will # write duplicates for :key and "key". _id is a special case because # we call has_key? to check for it's existence rather than just iterating # over it like we do for the rest of the keys. thus, things like # HashWithIndifferentAccess can cause problems for _id but not for other # keys. rather than require rails to test with HWIA directly, we do this # somewhat hacky test. def test_no_duplicate_id dup = {"_id" => "foo", :_id => "foo"} one = {"_id" => "foo"} assert_equal BSON::BSON_CODER.serialize(one).to_a, BSON::BSON_CODER.serialize(dup).to_a end def test_no_duplicate_id_when_moving_id dup = {"_id" => "foo", :_id => "foo"} one = {:_id => "foo"} assert_equal BSON::BSON_CODER.serialize(one, false, true).to_s, BSON::BSON_CODER.serialize(dup, false, true).to_s end def test_null_character doc = {"a" => "\x00"} assert_equal doc, BSON::BSON_CODER.deserialize(BSON::BSON_CODER.serialize(doc).to_a) assert_raise InvalidDocument do BSON::BSON_CODER.serialize({"\x00" => "a"}) end assert_raise InvalidDocument do BSON::BSON_CODER.serialize({"a" => (Regexp.compile "ab\x00c")}) end end def test_max_key doc = {"a" => MaxKey.new} assert_equal doc, BSON::BSON_CODER.deserialize(BSON::BSON_CODER.serialize(doc).to_a) end def test_min_key doc = {"a" => MinKey.new} assert_equal doc, BSON::BSON_CODER.deserialize(BSON::BSON_CODER.serialize(doc).to_a) end def test_invalid_object o = Object.new assert_raise InvalidDocument do BSON::BSON_CODER.serialize({:foo => o}) end assert_raise InvalidDocument do BSON::BSON_CODER.serialize({:foo => Date.today}) end end def test_move_id a = OrderedHash.new a['text'] = 'abc' a['key'] = 'abc' a['_id'] = 1 assert_equal ")\000\000\000\020_id\000\001\000\000\000\002text" + "\000\004\000\000\000abc\000\002key\000\004\000\000\000abc\000\000", BSON::BSON_CODER.serialize(a, false, true).to_s assert_equal ")\000\000\000\002text\000\004\000\000\000abc\000\002key" + "\000\004\000\000\000abc\000\020_id\000\001\000\000\000\000", BSON::BSON_CODER.serialize(a, false, false).to_s end def test_move_id_with_nested_doc b = OrderedHash.new b['text'] = 'abc' b['_id'] = 2 c = OrderedHash.new c['text'] = 'abc' c['hash'] = b c['_id'] = 3 assert_equal ">\000\000\000\020_id\000\003\000\000\000\002text" + "\000\004\000\000\000abc\000\003hash\000\034\000\000" + "\000\002text\000\004\000\000\000abc\000\020_id\000\002\000\000\000\000\000", BSON::BSON_CODER.serialize(c, false, true).to_s assert_equal ">\000\000\000\002text\000\004\000\000\000abc\000\003hash" + "\000\034\000\000\000\002text\000\004\000\000\000abc\000\020_id" + "\000\002\000\000\000\000\020_id\000\003\000\000\000\000", BSON::BSON_CODER.serialize(c, false, false).to_s end if defined?(HashWithIndifferentAccess) def test_keep_id_with_hash_with_indifferent_access doc = HashWithIndifferentAccess.new embedded = HashWithIndifferentAccess.new embedded['_id'] = ObjectID.new doc['_id'] = ObjectID.new doc['embedded'] = [embedded] BSON::BSON_CODER.serialize(doc, false, true).to_a assert doc.has_key?("_id") assert doc['embedded'][0].has_key?("_id") doc['_id'] = ObjectID.new BSON::BSON_CODER.serialize(doc, false, true).to_a assert doc.has_key?("_id") end end end