python/google/protobuf/internal/unknown_fields_test.py - third_party/protobuf - Git at Google

 #! /usr/bin/env python
 # -*- coding: utf-8 -*-
 #
 # Protocol Buffers - Google's data interchange format
 # Copyright 2008 Google Inc.  All rights reserved.
 # https://developers.google.com/protocol-buffers/
 #
 # Redistribution and use in source and binary forms, with or without
 # modification, are permitted provided that the following conditions are
 # met:
 #
 #     * Redistributions of source code must retain the above copyright
 # notice, this list of conditions and the following disclaimer.
 #     * Redistributions in binary form must reproduce the above
 # copyright notice, this list of conditions and the following disclaimer
 # in the documentation and/or other materials provided with the
 # distribution.
 #     * Neither the name of Google Inc. nor the names of its
 # contributors may be used to endorse or promote products derived from
 # this software without specific prior written permission.
 #
 # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 """Test for preservation of unknown fields in the pure Python implementation."""

 __author__ = 'bohdank@google.com (Bohdan Koval)'

 try:
   import unittest2 as unittest  #PY26
 except ImportError:
   import unittest
 from google.protobuf import map_unittest_pb2
 from google.protobuf import unittest_mset_pb2
 from google.protobuf import unittest_pb2
 from google.protobuf import unittest_proto3_arena_pb2
 from google.protobuf.internal import api_implementation
 from google.protobuf.internal import encoder
 from google.protobuf.internal import message_set_extensions_pb2
 from google.protobuf.internal import missing_enum_values_pb2
 from google.protobuf.internal import test_util
 from google.protobuf.internal import testing_refleaks
 from google.protobuf.internal import type_checkers
 from google.protobuf import descriptor


 @testing_refleaks.TestCase
 class UnknownFieldsTest(unittest.TestCase):

   def setUp(self):
     self.descriptor = unittest_pb2.TestAllTypes.DESCRIPTOR
     self.all_fields = unittest_pb2.TestAllTypes()
     test_util.SetAllFields(self.all_fields)
     self.all_fields_data = self.all_fields.SerializeToString()
     self.empty_message = unittest_pb2.TestEmptyMessage()
     self.empty_message.ParseFromString(self.all_fields_data)

   def testSerialize(self):
     data = self.empty_message.SerializeToString()

     # Don't use assertEqual because we don't want to dump raw binary data to
     # stdout.
     self.assertTrue(data == self.all_fields_data)

   def testSerializeProto3(self):
     # Verify proto3 unknown fields behavior.
     message = unittest_proto3_arena_pb2.TestEmptyMessage()
     message.ParseFromString(self.all_fields_data)
     self.assertEqual(self.all_fields_data, message.SerializeToString())

   def testByteSize(self):
     self.assertEqual(self.all_fields.ByteSize(), self.empty_message.ByteSize())

   def testListFields(self):
     # Make sure ListFields doesn't return unknown fields.
     self.assertEqual(0, len(self.empty_message.ListFields()))

   def testSerializeMessageSetWireFormatUnknownExtension(self):
     # Create a message using the message set wire format with an unknown
     # message.
     raw = unittest_mset_pb2.RawMessageSet()

     # Add an unknown extension.
     item = raw.item.add()
     item.type_id = 98418603
     message1 = message_set_extensions_pb2.TestMessageSetExtension1()
     message1.i = 12345
     item.message = message1.SerializeToString()

     serialized = raw.SerializeToString()

     # Parse message using the message set wire format.
     proto = message_set_extensions_pb2.TestMessageSet()
     proto.MergeFromString(serialized)

     # Verify that the unknown extension is serialized unchanged
     reserialized = proto.SerializeToString()
     new_raw = unittest_mset_pb2.RawMessageSet()
     new_raw.MergeFromString(reserialized)
     self.assertEqual(raw, new_raw)

   def testEquals(self):
     message = unittest_pb2.TestEmptyMessage()
     message.ParseFromString(self.all_fields_data)
     self.assertEqual(self.empty_message, message)

     self.all_fields.ClearField('optional_string')
     message.ParseFromString(self.all_fields.SerializeToString())
     self.assertNotEqual(self.empty_message, message)

   def testDiscardUnknownFields(self):
     self.empty_message.DiscardUnknownFields()
     self.assertEqual(b'', self.empty_message.SerializeToString())
     # Test message field and repeated message field.
     message = unittest_pb2.TestAllTypes()
     other_message = unittest_pb2.TestAllTypes()
     other_message.optional_string = 'discard'
     message.optional_nested_message.ParseFromString(
         other_message.SerializeToString())
     message.repeated_nested_message.add().ParseFromString(
         other_message.SerializeToString())
     self.assertNotEqual(
         b'', message.optional_nested_message.SerializeToString())
     self.assertNotEqual(
         b'', message.repeated_nested_message[0].SerializeToString())
     message.DiscardUnknownFields()
     self.assertEqual(b'', message.optional_nested_message.SerializeToString())
     self.assertEqual(
         b'', message.repeated_nested_message[0].SerializeToString())

     msg = map_unittest_pb2.TestMap()
     msg.map_int32_all_types[1].optional_nested_message.ParseFromString(
         other_message.SerializeToString())
     msg.map_string_string['1'] = 'test'
     self.assertNotEqual(
         b'',
         msg.map_int32_all_types[1].optional_nested_message.SerializeToString())
     msg.DiscardUnknownFields()
     self.assertEqual(
         b'',
         msg.map_int32_all_types[1].optional_nested_message.SerializeToString())


 @testing_refleaks.TestCase
 class UnknownFieldsAccessorsTest(unittest.TestCase):

   def setUp(self):
     self.descriptor = unittest_pb2.TestAllTypes.DESCRIPTOR
     self.all_fields = unittest_pb2.TestAllTypes()
     test_util.SetAllFields(self.all_fields)
     self.all_fields_data = self.all_fields.SerializeToString()
     self.empty_message = unittest_pb2.TestEmptyMessage()
     self.empty_message.ParseFromString(self.all_fields_data)

   # InternalCheckUnknownField() is an additional Pure Python check which checks
   # a detail of unknown fields. It cannot be used by the C++
   # implementation because some protect members are called.
   # The test is added for historical reasons. It is not necessary as
   # serialized string is checked.
   # TODO(jieluo): Remove message._unknown_fields.
   def InternalCheckUnknownField(self, name, expected_value):
     if api_implementation.Type() == 'cpp':
       return
     field_descriptor = self.descriptor.fields_by_name[name]
     wire_type = type_checkers.FIELD_TYPE_TO_WIRE_TYPE[field_descriptor.type]
     field_tag = encoder.TagBytes(field_descriptor.number, wire_type)
     result_dict = {}
     for tag_bytes, value in self.empty_message._unknown_fields:
       if tag_bytes == field_tag:
         decoder = unittest_pb2.TestAllTypes._decoders_by_tag[tag_bytes][0]
         decoder(memoryview(value), 0, len(value), self.all_fields, result_dict)
     self.assertEqual(expected_value, result_dict[field_descriptor])

   def CheckUnknownField(self, name, unknown_fields, expected_value):
     field_descriptor = self.descriptor.fields_by_name[name]
     expected_type = type_checkers.FIELD_TYPE_TO_WIRE_TYPE[
         field_descriptor.type]
     for unknown_field in unknown_fields:
       if unknown_field.field_number == field_descriptor.number:
         self.assertEqual(expected_type, unknown_field.wire_type)
         if expected_type == 3:
           # Check group
           self.assertEqual(expected_value[0],
                            unknown_field.data[0].field_number)
           self.assertEqual(expected_value[1], unknown_field.data[0].wire_type)
           self.assertEqual(expected_value[2], unknown_field.data[0].data)
           continue
         if field_descriptor.label == descriptor.FieldDescriptor.LABEL_REPEATED:
           self.assertIn(unknown_field.data, expected_value)
         else:
           self.assertEqual(expected_value, unknown_field.data)

   def testCheckUnknownFieldValue(self):
     unknown_fields = self.empty_message.UnknownFields()
     # Test enum.
     self.CheckUnknownField('optional_nested_enum',
                            unknown_fields,
                            self.all_fields.optional_nested_enum)
     self.InternalCheckUnknownField('optional_nested_enum',
                                    self.all_fields.optional_nested_enum)

     # Test repeated enum.
     self.CheckUnknownField('repeated_nested_enum',
                            unknown_fields,
                            self.all_fields.repeated_nested_enum)
     self.InternalCheckUnknownField('repeated_nested_enum',
                                    self.all_fields.repeated_nested_enum)

     # Test varint.
     self.CheckUnknownField('optional_int32',
                            unknown_fields,
                            self.all_fields.optional_int32)
     self.InternalCheckUnknownField('optional_int32',
                                    self.all_fields.optional_int32)

     # Test fixed32.
     self.CheckUnknownField('optional_fixed32',
                            unknown_fields,
                            self.all_fields.optional_fixed32)
     self.InternalCheckUnknownField('optional_fixed32',
                                    self.all_fields.optional_fixed32)

     # Test fixed64.
     self.CheckUnknownField('optional_fixed64',
                            unknown_fields,
                            self.all_fields.optional_fixed64)
     self.InternalCheckUnknownField('optional_fixed64',
                                    self.all_fields.optional_fixed64)

     # Test lengthd elimited.
     self.CheckUnknownField('optional_string',
                            unknown_fields,
                            self.all_fields.optional_string.encode('utf-8'))
     self.InternalCheckUnknownField('optional_string',
                                    self.all_fields.optional_string)

     # Test group.
     self.CheckUnknownField('optionalgroup',
                            unknown_fields,
                            (17, 0, 117))
     self.InternalCheckUnknownField('optionalgroup',
                                    self.all_fields.optionalgroup)

     self.assertEqual(97, len(unknown_fields))

   def testCopyFrom(self):
     message = unittest_pb2.TestEmptyMessage()
     message.CopyFrom(self.empty_message)
     self.assertEqual(message.SerializeToString(), self.all_fields_data)

   def testMergeFrom(self):
     message = unittest_pb2.TestAllTypes()
     message.optional_int32 = 1
     message.optional_uint32 = 2
     source = unittest_pb2.TestEmptyMessage()
     source.ParseFromString(message.SerializeToString())

     message.ClearField('optional_int32')
     message.optional_int64 = 3
     message.optional_uint32 = 4
     destination = unittest_pb2.TestEmptyMessage()
     unknown_fields = destination.UnknownFields()
     self.assertEqual(0, len(unknown_fields))
     destination.ParseFromString(message.SerializeToString())
     # ParseFromString clears the message thus unknown fields is invalid.
     with self.assertRaises(ValueError) as context:
       len(unknown_fields)
     self.assertIn('UnknownFields does not exist.',
                   str(context.exception))
     unknown_fields = destination.UnknownFields()
     self.assertEqual(2, len(unknown_fields))
     destination.MergeFrom(source)
     self.assertEqual(4, len(unknown_fields))
     # Check that the fields where correctly merged, even stored in the unknown
     # fields set.
     message.ParseFromString(destination.SerializeToString())
     self.assertEqual(message.optional_int32, 1)
     self.assertEqual(message.optional_uint32, 2)
     self.assertEqual(message.optional_int64, 3)

   def testClear(self):
     unknown_fields = self.empty_message.UnknownFields()
     self.empty_message.Clear()
     # All cleared, even unknown fields.
     self.assertEqual(self.empty_message.SerializeToString(), b'')
     with self.assertRaises(ValueError) as context:
       len(unknown_fields)
     self.assertIn('UnknownFields does not exist.',
                   str(context.exception))

   def testSubUnknownFields(self):
     message = unittest_pb2.TestAllTypes()
     message.optionalgroup.a = 123
     destination = unittest_pb2.TestEmptyMessage()
     destination.ParseFromString(message.SerializeToString())
     sub_unknown_fields = destination.UnknownFields()[0].data
     self.assertEqual(1, len(sub_unknown_fields))
     self.assertEqual(sub_unknown_fields[0].data, 123)
     destination.Clear()
     with self.assertRaises(ValueError) as context:
       len(sub_unknown_fields)
     self.assertIn('UnknownFields does not exist.',
                   str(context.exception))
     with self.assertRaises(ValueError) as context:
       # pylint: disable=pointless-statement
       sub_unknown_fields[0]
     self.assertIn('UnknownFields does not exist.',
                   str(context.exception))
     message.Clear()
     message.optional_uint32 = 456
     nested_message = unittest_pb2.NestedTestAllTypes()
     nested_message.payload.optional_nested_message.ParseFromString(
         message.SerializeToString())
     unknown_fields = (
         nested_message.payload.optional_nested_message.UnknownFields())
     self.assertEqual(unknown_fields[0].data, 456)
     nested_message.ClearField('payload')
     self.assertEqual(unknown_fields[0].data, 456)
     unknown_fields = (
         nested_message.payload.optional_nested_message.UnknownFields())
     self.assertEqual(0, len(unknown_fields))

   def testUnknownField(self):
     message = unittest_pb2.TestAllTypes()
     message.optional_int32 = 123
     destination = unittest_pb2.TestEmptyMessage()
     destination.ParseFromString(message.SerializeToString())
     unknown_field = destination.UnknownFields()[0]
     destination.Clear()
     with self.assertRaises(ValueError) as context:
       unknown_field.data    # pylint: disable=pointless-statement
     self.assertIn('The parent message might be cleared.',
                   str(context.exception))

   def testUnknownExtensions(self):
     message = unittest_pb2.TestEmptyMessageWithExtensions()
     message.ParseFromString(self.all_fields_data)
     self.assertEqual(message.SerializeToString(), self.all_fields_data)


 @testing_refleaks.TestCase
 class UnknownEnumValuesTest(unittest.TestCase):

   def setUp(self):
     self.descriptor = missing_enum_values_pb2.TestEnumValues.DESCRIPTOR

     self.message = missing_enum_values_pb2.TestEnumValues()
     # TestEnumValues.ZERO = 0, but does not exist in the other NestedEnum.
     self.message.optional_nested_enum = (
         missing_enum_values_pb2.TestEnumValues.ZERO)
     self.message.repeated_nested_enum.extend([
         missing_enum_values_pb2.TestEnumValues.ZERO,
         missing_enum_values_pb2.TestEnumValues.ONE,
         ])
     self.message.packed_nested_enum.extend([
         missing_enum_values_pb2.TestEnumValues.ZERO,
         missing_enum_values_pb2.TestEnumValues.ONE,
         ])
     self.message_data = self.message.SerializeToString()
     self.missing_message = missing_enum_values_pb2.TestMissingEnumValues()
     self.missing_message.ParseFromString(self.message_data)

   # CheckUnknownField() is an additional Pure Python check which checks
   # a detail of unknown fields. It cannot be used by the C++
   # implementation because some protect members are called.
   # The test is added for historical reasons. It is not necessary as
   # serialized string is checked.

   def CheckUnknownField(self, name, expected_value):
     field_descriptor = self.descriptor.fields_by_name[name]
     unknown_fields = self.missing_message.UnknownFields()
     for field in unknown_fields:
       if field.field_number == field_descriptor.number:
         if field_descriptor.label == descriptor.FieldDescriptor.LABEL_REPEATED:
           self.assertIn(field.data, expected_value)
         else:
           self.assertEqual(expected_value, field.data)

   def testUnknownParseMismatchEnumValue(self):
     just_string = missing_enum_values_pb2.JustString()
     just_string.dummy = 'blah'

     missing = missing_enum_values_pb2.TestEnumValues()
     # The parse is invalid, storing the string proto into the set of
     # unknown fields.
     missing.ParseFromString(just_string.SerializeToString())

     # Fetching the enum field shouldn't crash, instead returning the
     # default value.
     self.assertEqual(missing.optional_nested_enum, 0)

   def testUnknownEnumValue(self):
     self.assertFalse(self.missing_message.HasField('optional_nested_enum'))
     self.assertEqual(self.missing_message.optional_nested_enum, 2)
     # Clear does not do anything.
     serialized = self.missing_message.SerializeToString()
     self.missing_message.ClearField('optional_nested_enum')
     self.assertEqual(self.missing_message.SerializeToString(), serialized)

   def testUnknownRepeatedEnumValue(self):
     self.assertEqual([], self.missing_message.repeated_nested_enum)

   def testUnknownPackedEnumValue(self):
     self.assertEqual([], self.missing_message.packed_nested_enum)

   def testCheckUnknownFieldValueForEnum(self):
     self.CheckUnknownField('optional_nested_enum',
                            self.message.optional_nested_enum)
     self.CheckUnknownField('repeated_nested_enum',
                            self.message.repeated_nested_enum)
     self.CheckUnknownField('packed_nested_enum',
                            self.message.packed_nested_enum)

   def testRoundTrip(self):
     new_message = missing_enum_values_pb2.TestEnumValues()
     new_message.ParseFromString(self.missing_message.SerializeToString())
     self.assertEqual(self.message, new_message)


 if __name__ == '__main__':
   unittest.main()
	#! /usr/bin/env python
	# -- coding: utf-8 --
	#
	# Protocol Buffers - Google's data interchange format
	# Copyright 2008 Google Inc. All rights reserved.
	# https://developers.google.com/protocol-buffers/
	#
	# Redistribution and use in source and binary forms, with or without
	# modification, are permitted provided that the following conditions are
	# met:
	#
	# * Redistributions of source code must retain the above copyright
	# notice, this list of conditions and the following disclaimer.
	# * Redistributions in binary form must reproduce the above
	# copyright notice, this list of conditions and the following disclaimer
	# in the documentation and/or other materials provided with the
	# distribution.
	# * Neither the name of Google Inc. nor the names of its
	# contributors may be used to endorse or promote products derived from
	# this software without specific prior written permission.
	#
	# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	"""Test for preservation of unknown fields in the pure Python implementation."""

	__author__ = 'bohdank@google.com (Bohdan Koval)'

	try:
	import unittest2 as unittest #PY26
	except ImportError:
	import unittest
	from google.protobuf import map_unittest_pb2
	from google.protobuf import unittest_mset_pb2
	from google.protobuf import unittest_pb2
	from google.protobuf import unittest_proto3_arena_pb2
	from google.protobuf.internal import api_implementation
	from google.protobuf.internal import encoder
	from google.protobuf.internal import message_set_extensions_pb2
	from google.protobuf.internal import missing_enum_values_pb2
	from google.protobuf.internal import test_util
	from google.protobuf.internal import testing_refleaks
	from google.protobuf.internal import type_checkers
	from google.protobuf import descriptor


	@testing_refleaks.TestCase
	class UnknownFieldsTest(unittest.TestCase):

	def setUp(self):
	self.descriptor = unittest_pb2.TestAllTypes.DESCRIPTOR
	self.all_fields = unittest_pb2.TestAllTypes()
	test_util.SetAllFields(self.all_fields)
	self.all_fields_data = self.all_fields.SerializeToString()
	self.empty_message = unittest_pb2.TestEmptyMessage()
	self.empty_message.ParseFromString(self.all_fields_data)

	def testSerialize(self):
	data = self.empty_message.SerializeToString()

	# Don't use assertEqual because we don't want to dump raw binary data to
	# stdout.
	self.assertTrue(data == self.all_fields_data)

	def testSerializeProto3(self):
	# Verify proto3 unknown fields behavior.
	message = unittest_proto3_arena_pb2.TestEmptyMessage()
	message.ParseFromString(self.all_fields_data)
	self.assertEqual(self.all_fields_data, message.SerializeToString())

	def testByteSize(self):
	self.assertEqual(self.all_fields.ByteSize(), self.empty_message.ByteSize())

	def testListFields(self):
	# Make sure ListFields doesn't return unknown fields.
	self.assertEqual(0, len(self.empty_message.ListFields()))

	def testSerializeMessageSetWireFormatUnknownExtension(self):
	# Create a message using the message set wire format with an unknown
	# message.
	raw = unittest_mset_pb2.RawMessageSet()

	# Add an unknown extension.
	item = raw.item.add()
	item.type_id = 98418603
	message1 = message_set_extensions_pb2.TestMessageSetExtension1()
	message1.i = 12345
	item.message = message1.SerializeToString()

	serialized = raw.SerializeToString()

	# Parse message using the message set wire format.
	proto = message_set_extensions_pb2.TestMessageSet()
	proto.MergeFromString(serialized)

	# Verify that the unknown extension is serialized unchanged
	reserialized = proto.SerializeToString()
	new_raw = unittest_mset_pb2.RawMessageSet()
	new_raw.MergeFromString(reserialized)
	self.assertEqual(raw, new_raw)

	def testEquals(self):
	message = unittest_pb2.TestEmptyMessage()
	message.ParseFromString(self.all_fields_data)
	self.assertEqual(self.empty_message, message)

	self.all_fields.ClearField('optional_string')
	message.ParseFromString(self.all_fields.SerializeToString())
	self.assertNotEqual(self.empty_message, message)

	def testDiscardUnknownFields(self):
	self.empty_message.DiscardUnknownFields()
	self.assertEqual(b'', self.empty_message.SerializeToString())
	# Test message field and repeated message field.
	message = unittest_pb2.TestAllTypes()
	other_message = unittest_pb2.TestAllTypes()
	other_message.optional_string = 'discard'
	message.optional_nested_message.ParseFromString(
	other_message.SerializeToString())
	message.repeated_nested_message.add().ParseFromString(
	other_message.SerializeToString())
	self.assertNotEqual(
	b'', message.optional_nested_message.SerializeToString())
	self.assertNotEqual(
	b'', message.repeated_nested_message[0].SerializeToString())
	message.DiscardUnknownFields()
	self.assertEqual(b'', message.optional_nested_message.SerializeToString())
	self.assertEqual(
	b'', message.repeated_nested_message[0].SerializeToString())

	msg = map_unittest_pb2.TestMap()
	msg.map_int32_all_types[1].optional_nested_message.ParseFromString(
	other_message.SerializeToString())
	msg.map_string_string['1'] = 'test'
	self.assertNotEqual(
	b'',
	msg.map_int32_all_types[1].optional_nested_message.SerializeToString())
	msg.DiscardUnknownFields()
	self.assertEqual(
	b'',
	msg.map_int32_all_types[1].optional_nested_message.SerializeToString())


	@testing_refleaks.TestCase
	class UnknownFieldsAccessorsTest(unittest.TestCase):

	def setUp(self):
	self.descriptor = unittest_pb2.TestAllTypes.DESCRIPTOR
	self.all_fields = unittest_pb2.TestAllTypes()
	test_util.SetAllFields(self.all_fields)
	self.all_fields_data = self.all_fields.SerializeToString()
	self.empty_message = unittest_pb2.TestEmptyMessage()
	self.empty_message.ParseFromString(self.all_fields_data)

	# InternalCheckUnknownField() is an additional Pure Python check which checks
	# a detail of unknown fields. It cannot be used by the C++
	# implementation because some protect members are called.
	# The test is added for historical reasons. It is not necessary as
	# serialized string is checked.
	# TODO(jieluo): Remove message._unknown_fields.
	def InternalCheckUnknownField(self, name, expected_value):
	if api_implementation.Type() == 'cpp':
	return
	field_descriptor = self.descriptor.fields_by_name[name]
	wire_type = type_checkers.FIELD_TYPE_TO_WIRE_TYPE[field_descriptor.type]
	field_tag = encoder.TagBytes(field_descriptor.number, wire_type)
	result_dict = {}
	for tag_bytes, value in self.empty_message._unknown_fields:
	if tag_bytes == field_tag:
	decoder = unittest_pb2.TestAllTypes._decoders_by_tag[tag_bytes][0]
	decoder(memoryview(value), 0, len(value), self.all_fields, result_dict)
	self.assertEqual(expected_value, result_dict[field_descriptor])

	def CheckUnknownField(self, name, unknown_fields, expected_value):
	field_descriptor = self.descriptor.fields_by_name[name]
	expected_type = type_checkers.FIELD_TYPE_TO_WIRE_TYPE[
	field_descriptor.type]
	for unknown_field in unknown_fields:
	if unknown_field.field_number == field_descriptor.number:
	self.assertEqual(expected_type, unknown_field.wire_type)
	if expected_type == 3:
	# Check group
	self.assertEqual(expected_value[0],
	unknown_field.data[0].field_number)
	self.assertEqual(expected_value[1], unknown_field.data[0].wire_type)
	self.assertEqual(expected_value[2], unknown_field.data[0].data)
	continue
	if field_descriptor.label == descriptor.FieldDescriptor.LABEL_REPEATED:
	self.assertIn(unknown_field.data, expected_value)
	else:
	self.assertEqual(expected_value, unknown_field.data)

	def testCheckUnknownFieldValue(self):
	unknown_fields = self.empty_message.UnknownFields()
	# Test enum.
	self.CheckUnknownField('optional_nested_enum',
	unknown_fields,
	self.all_fields.optional_nested_enum)
	self.InternalCheckUnknownField('optional_nested_enum',
	self.all_fields.optional_nested_enum)

	# Test repeated enum.
	self.CheckUnknownField('repeated_nested_enum',
	unknown_fields,
	self.all_fields.repeated_nested_enum)
	self.InternalCheckUnknownField('repeated_nested_enum',
	self.all_fields.repeated_nested_enum)

	# Test varint.
	self.CheckUnknownField('optional_int32',
	unknown_fields,
	self.all_fields.optional_int32)
	self.InternalCheckUnknownField('optional_int32',
	self.all_fields.optional_int32)

	# Test fixed32.
	self.CheckUnknownField('optional_fixed32',
	unknown_fields,
	self.all_fields.optional_fixed32)
	self.InternalCheckUnknownField('optional_fixed32',
	self.all_fields.optional_fixed32)

	# Test fixed64.
	self.CheckUnknownField('optional_fixed64',
	unknown_fields,
	self.all_fields.optional_fixed64)
	self.InternalCheckUnknownField('optional_fixed64',
	self.all_fields.optional_fixed64)

	# Test lengthd elimited.
	self.CheckUnknownField('optional_string',
	unknown_fields,
	self.all_fields.optional_string.encode('utf-8'))
	self.InternalCheckUnknownField('optional_string',
	self.all_fields.optional_string)

	# Test group.
	self.CheckUnknownField('optionalgroup',
	unknown_fields,
	(17, 0, 117))
	self.InternalCheckUnknownField('optionalgroup',
	self.all_fields.optionalgroup)

	self.assertEqual(97, len(unknown_fields))

	def testCopyFrom(self):
	message = unittest_pb2.TestEmptyMessage()
	message.CopyFrom(self.empty_message)
	self.assertEqual(message.SerializeToString(), self.all_fields_data)

	def testMergeFrom(self):
	message = unittest_pb2.TestAllTypes()
	message.optional_int32 = 1
	message.optional_uint32 = 2
	source = unittest_pb2.TestEmptyMessage()
	source.ParseFromString(message.SerializeToString())

	message.ClearField('optional_int32')
	message.optional_int64 = 3
	message.optional_uint32 = 4
	destination = unittest_pb2.TestEmptyMessage()
	unknown_fields = destination.UnknownFields()
	self.assertEqual(0, len(unknown_fields))
	destination.ParseFromString(message.SerializeToString())
	# ParseFromString clears the message thus unknown fields is invalid.
	with self.assertRaises(ValueError) as context:
	len(unknown_fields)
	self.assertIn('UnknownFields does not exist.',
	str(context.exception))
	unknown_fields = destination.UnknownFields()
	self.assertEqual(2, len(unknown_fields))
	destination.MergeFrom(source)
	self.assertEqual(4, len(unknown_fields))
	# Check that the fields where correctly merged, even stored in the unknown
	# fields set.
	message.ParseFromString(destination.SerializeToString())
	self.assertEqual(message.optional_int32, 1)
	self.assertEqual(message.optional_uint32, 2)
	self.assertEqual(message.optional_int64, 3)

	def testClear(self):
	unknown_fields = self.empty_message.UnknownFields()
	self.empty_message.Clear()
	# All cleared, even unknown fields.
	self.assertEqual(self.empty_message.SerializeToString(), b'')
	with self.assertRaises(ValueError) as context:
	len(unknown_fields)
	self.assertIn('UnknownFields does not exist.',
	str(context.exception))

	def testSubUnknownFields(self):
	message = unittest_pb2.TestAllTypes()
	message.optionalgroup.a = 123
	destination = unittest_pb2.TestEmptyMessage()
	destination.ParseFromString(message.SerializeToString())
	sub_unknown_fields = destination.UnknownFields()[0].data
	self.assertEqual(1, len(sub_unknown_fields))
	self.assertEqual(sub_unknown_fields[0].data, 123)
	destination.Clear()
	with self.assertRaises(ValueError) as context:
	len(sub_unknown_fields)
	self.assertIn('UnknownFields does not exist.',
	str(context.exception))
	with self.assertRaises(ValueError) as context:
	# pylint: disable=pointless-statement
	sub_unknown_fields[0]
	self.assertIn('UnknownFields does not exist.',
	str(context.exception))
	message.Clear()
	message.optional_uint32 = 456
	nested_message = unittest_pb2.NestedTestAllTypes()
	nested_message.payload.optional_nested_message.ParseFromString(
	message.SerializeToString())
	unknown_fields = (
	nested_message.payload.optional_nested_message.UnknownFields())
	self.assertEqual(unknown_fields[0].data, 456)
	nested_message.ClearField('payload')
	self.assertEqual(unknown_fields[0].data, 456)
	unknown_fields = (
	nested_message.payload.optional_nested_message.UnknownFields())
	self.assertEqual(0, len(unknown_fields))

	def testUnknownField(self):
	message = unittest_pb2.TestAllTypes()
	message.optional_int32 = 123
	destination = unittest_pb2.TestEmptyMessage()
	destination.ParseFromString(message.SerializeToString())
	unknown_field = destination.UnknownFields()[0]
	destination.Clear()
	with self.assertRaises(ValueError) as context:
	unknown_field.data # pylint: disable=pointless-statement
	self.assertIn('The parent message might be cleared.',
	str(context.exception))

	def testUnknownExtensions(self):
	message = unittest_pb2.TestEmptyMessageWithExtensions()
	message.ParseFromString(self.all_fields_data)
	self.assertEqual(message.SerializeToString(), self.all_fields_data)


	@testing_refleaks.TestCase
	class UnknownEnumValuesTest(unittest.TestCase):

	def setUp(self):
	self.descriptor = missing_enum_values_pb2.TestEnumValues.DESCRIPTOR

	self.message = missing_enum_values_pb2.TestEnumValues()
	# TestEnumValues.ZERO = 0, but does not exist in the other NestedEnum.
	self.message.optional_nested_enum = (
	missing_enum_values_pb2.TestEnumValues.ZERO)
	self.message.repeated_nested_enum.extend([
	missing_enum_values_pb2.TestEnumValues.ZERO,
	missing_enum_values_pb2.TestEnumValues.ONE,
	])
	self.message.packed_nested_enum.extend([
	missing_enum_values_pb2.TestEnumValues.ZERO,
	missing_enum_values_pb2.TestEnumValues.ONE,
	])
	self.message_data = self.message.SerializeToString()
	self.missing_message = missing_enum_values_pb2.TestMissingEnumValues()
	self.missing_message.ParseFromString(self.message_data)

	# CheckUnknownField() is an additional Pure Python check which checks
	# a detail of unknown fields. It cannot be used by the C++
	# implementation because some protect members are called.
	# The test is added for historical reasons. It is not necessary as
	# serialized string is checked.

	def CheckUnknownField(self, name, expected_value):
	field_descriptor = self.descriptor.fields_by_name[name]
	unknown_fields = self.missing_message.UnknownFields()
	for field in unknown_fields:
	if field.field_number == field_descriptor.number:
	if field_descriptor.label == descriptor.FieldDescriptor.LABEL_REPEATED:
	self.assertIn(field.data, expected_value)
	else:
	self.assertEqual(expected_value, field.data)

	def testUnknownParseMismatchEnumValue(self):
	just_string = missing_enum_values_pb2.JustString()
	just_string.dummy = 'blah'

	missing = missing_enum_values_pb2.TestEnumValues()
	# The parse is invalid, storing the string proto into the set of
	# unknown fields.
	missing.ParseFromString(just_string.SerializeToString())

	# Fetching the enum field shouldn't crash, instead returning the
	# default value.
	self.assertEqual(missing.optional_nested_enum, 0)

	def testUnknownEnumValue(self):
	self.assertFalse(self.missing_message.HasField('optional_nested_enum'))
	self.assertEqual(self.missing_message.optional_nested_enum, 2)
	# Clear does not do anything.
	serialized = self.missing_message.SerializeToString()
	self.missing_message.ClearField('optional_nested_enum')
	self.assertEqual(self.missing_message.SerializeToString(), serialized)

	def testUnknownRepeatedEnumValue(self):
	self.assertEqual([], self.missing_message.repeated_nested_enum)

	def testUnknownPackedEnumValue(self):
	self.assertEqual([], self.missing_message.packed_nested_enum)

	def testCheckUnknownFieldValueForEnum(self):
	self.CheckUnknownField('optional_nested_enum',
	self.message.optional_nested_enum)
	self.CheckUnknownField('repeated_nested_enum',
	self.message.repeated_nested_enum)
	self.CheckUnknownField('packed_nested_enum',
	self.message.packed_nested_enum)

	def testRoundTrip(self):
	new_message = missing_enum_values_pb2.TestEnumValues()
	new_message.ParseFromString(self.missing_message.SerializeToString())
	self.assertEqual(self.message, new_message)


	if __name__ == '__main__':
	unittest.main()