catapult/third_party/gsutil/third_party/protorpc/protorpc/protobuf.py - platform/external/chromium-trace - Git at Google

 #!/usr/bin/env python
 #
 # Copyright 2010 Google 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.
 #

 """Protocol buffer support for message types.

 For more details about protocol buffer encoding and decoding please see:

   http://code.google.com/apis/protocolbuffers/docs/encoding.html

 Public Exceptions:
   DecodeError: Raised when a decode error occurs from incorrect protobuf format.

 Public Functions:
   encode_message: Encodes a message in to a protocol buffer string.
   decode_message: Decode from a protocol buffer string to a message.
 """
 import six

 __author__ = 'rafek@google.com (Rafe Kaplan)'


 import array

 from . import message_types
 from . import messages
 from . import util
 from .google_imports import ProtocolBuffer


 __all__ = ['ALTERNATIVE_CONTENT_TYPES',
            'CONTENT_TYPE',
            'encode_message',
            'decode_message',
           ]

 CONTENT_TYPE = 'application/octet-stream'

 ALTERNATIVE_CONTENT_TYPES = ['application/x-google-protobuf']


 class _Encoder(ProtocolBuffer.Encoder):
   """Extension of protocol buffer encoder.

   Original protocol buffer encoder does not have complete set of methods
   for handling required encoding.  This class adds them.
   """

   # TODO(rafek): Implement the missing encoding types.
   def no_encoding(self, value):
     """No encoding available for type.

     Args:
       value: Value to encode.

     Raises:
       NotImplementedError at all times.
     """
     raise NotImplementedError()

   def encode_enum(self, value):
     """Encode an enum value.

     Args:
       value: Enum to encode.
     """
     self.putVarInt32(value.number)

   def encode_message(self, value):
     """Encode a Message in to an embedded message.

     Args:
       value: Message instance to encode.
     """
     self.putPrefixedString(encode_message(value))


   def encode_unicode_string(self, value):
     """Helper to properly pb encode unicode strings to UTF-8.

     Args:
       value: String value to encode.
     """
     if isinstance(value, six.text_type):
       value = value.encode('utf-8')
     self.putPrefixedString(value)


 class _Decoder(ProtocolBuffer.Decoder):
   """Extension of protocol buffer decoder.

   Original protocol buffer decoder does not have complete set of methods
   for handling required decoding.  This class adds them.
   """

   # TODO(rafek): Implement the missing encoding types.
   def no_decoding(self):
     """No decoding available for type.

     Raises:
       NotImplementedError at all times.
     """
     raise NotImplementedError()

   def decode_string(self):
     """Decode a unicode string.

     Returns:
       Next value in stream as a unicode string.
     """
     return self.getPrefixedString().decode('UTF-8')

   def decode_boolean(self):
     """Decode a boolean value.

     Returns:
       Next value in stream as a boolean.
     """
     return bool(self.getBoolean())


 # Number of bits used to describe a protocol buffer bits used for the variant.
 _WIRE_TYPE_BITS = 3
 _WIRE_TYPE_MASK = 7


 # Maps variant to underlying wire type.  Many variants map to same type.
 _VARIANT_TO_WIRE_TYPE = {
     messages.Variant.DOUBLE: _Encoder.DOUBLE,
     messages.Variant.FLOAT: _Encoder.FLOAT,
     messages.Variant.INT64: _Encoder.NUMERIC,
     messages.Variant.UINT64: _Encoder.NUMERIC,
     messages.Variant.INT32:  _Encoder.NUMERIC,
     messages.Variant.BOOL: _Encoder.NUMERIC,
     messages.Variant.STRING: _Encoder.STRING,
     messages.Variant.MESSAGE: _Encoder.STRING,
     messages.Variant.BYTES: _Encoder.STRING,
     messages.Variant.UINT32: _Encoder.NUMERIC,
     messages.Variant.ENUM:  _Encoder.NUMERIC,
     messages.Variant.SINT32: _Encoder.NUMERIC,
     messages.Variant.SINT64: _Encoder.NUMERIC,
 }


 # Maps variant to encoder method.
 _VARIANT_TO_ENCODER_MAP = {
     messages.Variant.DOUBLE: _Encoder.putDouble,
     messages.Variant.FLOAT: _Encoder.putFloat,
     messages.Variant.INT64: _Encoder.putVarInt64,
     messages.Variant.UINT64: _Encoder.putVarUint64,
     messages.Variant.INT32: _Encoder.putVarInt32,
     messages.Variant.BOOL: _Encoder.putBoolean,
     messages.Variant.STRING: _Encoder.encode_unicode_string,
     messages.Variant.MESSAGE: _Encoder.encode_message,
     messages.Variant.BYTES: _Encoder.encode_unicode_string,
     messages.Variant.UINT32: _Encoder.no_encoding,
     messages.Variant.ENUM: _Encoder.encode_enum,
     messages.Variant.SINT32: _Encoder.no_encoding,
     messages.Variant.SINT64: _Encoder.no_encoding,
 }


 # Basic wire format decoders.  Used for reading unknown values.
 _WIRE_TYPE_TO_DECODER_MAP = {
   _Encoder.NUMERIC: _Decoder.getVarInt64,
   _Encoder.DOUBLE: _Decoder.getDouble,
   _Encoder.STRING: _Decoder.getPrefixedString,
   _Encoder.FLOAT: _Decoder.getFloat,
 }


 # Map wire type to variant.  Used to find a variant for unknown values.
 _WIRE_TYPE_TO_VARIANT_MAP = {
   _Encoder.NUMERIC: messages.Variant.INT64,
   _Encoder.DOUBLE: messages.Variant.DOUBLE,
   _Encoder.STRING: messages.Variant.STRING,
   _Encoder.FLOAT: messages.Variant.FLOAT,
 }


 # Wire type to name mapping for error messages.
 _WIRE_TYPE_NAME = {
   _Encoder.NUMERIC: 'NUMERIC',
   _Encoder.DOUBLE: 'DOUBLE',
   _Encoder.STRING: 'STRING',
   _Encoder.FLOAT: 'FLOAT',
 }


 # Maps variant to decoder method.
 _VARIANT_TO_DECODER_MAP = {
     messages.Variant.DOUBLE: _Decoder.getDouble,
     messages.Variant.FLOAT: _Decoder.getFloat,
     messages.Variant.INT64: _Decoder.getVarInt64,
     messages.Variant.UINT64: _Decoder.getVarUint64,
     messages.Variant.INT32:  _Decoder.getVarInt32,
     messages.Variant.BOOL: _Decoder.decode_boolean,
     messages.Variant.STRING: _Decoder.decode_string,
     messages.Variant.MESSAGE: _Decoder.getPrefixedString,
     messages.Variant.BYTES: _Decoder.getPrefixedString,
     messages.Variant.UINT32: _Decoder.no_decoding,
     messages.Variant.ENUM:  _Decoder.getVarInt32,
     messages.Variant.SINT32: _Decoder.no_decoding,
     messages.Variant.SINT64: _Decoder.no_decoding,
 }


 def encode_message(message):
   """Encode Message instance to protocol buffer.

   Args:
     Message instance to encode in to protocol buffer.

   Returns:
     String encoding of Message instance in protocol buffer format.

   Raises:
     messages.ValidationError if message is not initialized.
   """
   message.check_initialized()
   encoder = _Encoder()

   # Get all fields, from the known fields we parsed and the unknown fields
   # we saved.  Note which ones were known, so we can process them differently.
   all_fields = [(field.number, field) for field in message.all_fields()]
   all_fields.extend((key, None)
                     for key in message.all_unrecognized_fields()
                     if isinstance(key, six.integer_types))
   all_fields.sort()
   for field_num, field in all_fields:
     if field:
       # Known field.
       value = message.get_assigned_value(field.name)
       if value is None:
         continue
       variant = field.variant
       repeated = field.repeated
     else:
       # Unrecognized field.
       value, variant = message.get_unrecognized_field_info(field_num)
       if not isinstance(variant, messages.Variant):
         continue
       repeated = isinstance(value, (list, tuple))

     tag = ((field_num << _WIRE_TYPE_BITS) | _VARIANT_TO_WIRE_TYPE[variant])

     # Write value to wire.
     if repeated:
       values = value
     else:
       values = [value]
     for next in values:
       encoder.putVarInt32(tag)
       if isinstance(field, messages.MessageField):
         next = field.value_to_message(next)
       field_encoder = _VARIANT_TO_ENCODER_MAP[variant]
       field_encoder(encoder, next)

   return encoder.buffer().tostring()


 def decode_message(message_type, encoded_message):
   """Decode protocol buffer to Message instance.

   Args:
     message_type: Message type to decode data to.
     encoded_message: Encoded version of message as string.

   Returns:
     Decoded instance of message_type.

   Raises:
     DecodeError if an error occurs during decoding, such as incompatible
       wire format for a field.
     messages.ValidationError if merged message is not initialized.
   """
   message = message_type()
   message_array = array.array('B')
   message_array.fromstring(encoded_message)
   try:
     decoder = _Decoder(message_array, 0, len(message_array))

     while decoder.avail() > 0:
       # Decode tag and variant information.
       encoded_tag = decoder.getVarInt32()
       tag = encoded_tag >> _WIRE_TYPE_BITS
       wire_type = encoded_tag & _WIRE_TYPE_MASK
       try:
         found_wire_type_decoder = _WIRE_TYPE_TO_DECODER_MAP[wire_type]
       except:
         raise messages.DecodeError('No such wire type %d' % wire_type)

       if tag < 1:
         raise messages.DecodeError('Invalid tag value %d' % tag)

       try:
         field = message.field_by_number(tag)
       except KeyError:
         # Unexpected tags are ok.
         field = None
         wire_type_decoder = found_wire_type_decoder
       else:
         expected_wire_type = _VARIANT_TO_WIRE_TYPE[field.variant]
         if expected_wire_type != wire_type:
           raise messages.DecodeError('Expected wire type %s but found %s' % (
               _WIRE_TYPE_NAME[expected_wire_type],
               _WIRE_TYPE_NAME[wire_type]))

         wire_type_decoder = _VARIANT_TO_DECODER_MAP[field.variant]

       value = wire_type_decoder(decoder)

       # Save unknown fields and skip additional processing.
       if not field:
         # When saving this, save it under the tag number (which should
         # be unique), and set the variant and value so we know how to
         # interpret the value later.
         variant = _WIRE_TYPE_TO_VARIANT_MAP.get(wire_type)
         if variant:
           message.set_unrecognized_field(tag, value, variant)
         continue

       # Special case Enum and Message types.
       if isinstance(field, messages.EnumField):
         try:
           value = field.type(value)
         except TypeError:
           raise messages.DecodeError('Invalid enum value %s' % value)
       elif isinstance(field, messages.MessageField):
         value = decode_message(field.message_type, value)
         value = field.value_from_message(value)

       # Merge value in to message.
       if field.repeated:
         values = getattr(message, field.name)
         if values is None:
           setattr(message, field.name, [value])
         else:
           values.append(value)
       else:
         setattr(message, field.name, value)
   except ProtocolBuffer.ProtocolBufferDecodeError as err:
     raise messages.DecodeError('Decoding error: %s' % str(err))

   message.check_initialized()
   return message
	#!/usr/bin/env python
	#
	# Copyright 2010 Google 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.
	#

	"""Protocol buffer support for message types.

	For more details about protocol buffer encoding and decoding please see:

	http://code.google.com/apis/protocolbuffers/docs/encoding.html

	Public Exceptions:
	DecodeError: Raised when a decode error occurs from incorrect protobuf format.

	Public Functions:
	encode_message: Encodes a message in to a protocol buffer string.
	decode_message: Decode from a protocol buffer string to a message.
	"""
	import six

	__author__ = 'rafek@google.com (Rafe Kaplan)'


	import array

	from . import message_types
	from . import messages
	from . import util
	from .google_imports import ProtocolBuffer


	__all__ = ['ALTERNATIVE_CONTENT_TYPES',
	'CONTENT_TYPE',
	'encode_message',
	'decode_message',
	]

	CONTENT_TYPE = 'application/octet-stream'

	ALTERNATIVE_CONTENT_TYPES = ['application/x-google-protobuf']


	class _Encoder(ProtocolBuffer.Encoder):
	"""Extension of protocol buffer encoder.

	Original protocol buffer encoder does not have complete set of methods
	for handling required encoding. This class adds them.
	"""

	# TODO(rafek): Implement the missing encoding types.
	def no_encoding(self, value):
	"""No encoding available for type.

	Args:
	value: Value to encode.

	Raises:
	NotImplementedError at all times.
	"""
	raise NotImplementedError()

	def encode_enum(self, value):
	"""Encode an enum value.

	Args:
	value: Enum to encode.
	"""
	self.putVarInt32(value.number)

	def encode_message(self, value):
	"""Encode a Message in to an embedded message.

	Args:
	value: Message instance to encode.
	"""
	self.putPrefixedString(encode_message(value))


	def encode_unicode_string(self, value):
	"""Helper to properly pb encode unicode strings to UTF-8.

	Args:
	value: String value to encode.
	"""
	if isinstance(value, six.text_type):
	value = value.encode('utf-8')
	self.putPrefixedString(value)


	class _Decoder(ProtocolBuffer.Decoder):
	"""Extension of protocol buffer decoder.

	Original protocol buffer decoder does not have complete set of methods
	for handling required decoding. This class adds them.
	"""

	# TODO(rafek): Implement the missing encoding types.
	def no_decoding(self):
	"""No decoding available for type.

	Raises:
	NotImplementedError at all times.
	"""
	raise NotImplementedError()

	def decode_string(self):
	"""Decode a unicode string.

	Returns:
	Next value in stream as a unicode string.
	"""
	return self.getPrefixedString().decode('UTF-8')

	def decode_boolean(self):
	"""Decode a boolean value.

	Returns:
	Next value in stream as a boolean.
	"""
	return bool(self.getBoolean())


	# Number of bits used to describe a protocol buffer bits used for the variant.
	_WIRE_TYPE_BITS = 3
	_WIRE_TYPE_MASK = 7


	# Maps variant to underlying wire type. Many variants map to same type.
	_VARIANT_TO_WIRE_TYPE = {
	messages.Variant.DOUBLE: _Encoder.DOUBLE,
	messages.Variant.FLOAT: _Encoder.FLOAT,
	messages.Variant.INT64: _Encoder.NUMERIC,
	messages.Variant.UINT64: _Encoder.NUMERIC,
	messages.Variant.INT32: _Encoder.NUMERIC,
	messages.Variant.BOOL: _Encoder.NUMERIC,
	messages.Variant.STRING: _Encoder.STRING,
	messages.Variant.MESSAGE: _Encoder.STRING,
	messages.Variant.BYTES: _Encoder.STRING,
	messages.Variant.UINT32: _Encoder.NUMERIC,
	messages.Variant.ENUM: _Encoder.NUMERIC,
	messages.Variant.SINT32: _Encoder.NUMERIC,
	messages.Variant.SINT64: _Encoder.NUMERIC,
	}


	# Maps variant to encoder method.
	_VARIANT_TO_ENCODER_MAP = {
	messages.Variant.DOUBLE: _Encoder.putDouble,
	messages.Variant.FLOAT: _Encoder.putFloat,
	messages.Variant.INT64: _Encoder.putVarInt64,
	messages.Variant.UINT64: _Encoder.putVarUint64,
	messages.Variant.INT32: _Encoder.putVarInt32,
	messages.Variant.BOOL: _Encoder.putBoolean,
	messages.Variant.STRING: _Encoder.encode_unicode_string,
	messages.Variant.MESSAGE: _Encoder.encode_message,
	messages.Variant.BYTES: _Encoder.encode_unicode_string,
	messages.Variant.UINT32: _Encoder.no_encoding,
	messages.Variant.ENUM: _Encoder.encode_enum,
	messages.Variant.SINT32: _Encoder.no_encoding,
	messages.Variant.SINT64: _Encoder.no_encoding,
	}


	# Basic wire format decoders. Used for reading unknown values.
	_WIRE_TYPE_TO_DECODER_MAP = {
	_Encoder.NUMERIC: _Decoder.getVarInt64,
	_Encoder.DOUBLE: _Decoder.getDouble,
	_Encoder.STRING: _Decoder.getPrefixedString,
	_Encoder.FLOAT: _Decoder.getFloat,
	}


	# Map wire type to variant. Used to find a variant for unknown values.
	_WIRE_TYPE_TO_VARIANT_MAP = {
	_Encoder.NUMERIC: messages.Variant.INT64,
	_Encoder.DOUBLE: messages.Variant.DOUBLE,
	_Encoder.STRING: messages.Variant.STRING,
	_Encoder.FLOAT: messages.Variant.FLOAT,
	}


	# Wire type to name mapping for error messages.
	_WIRE_TYPE_NAME = {
	_Encoder.NUMERIC: 'NUMERIC',
	_Encoder.DOUBLE: 'DOUBLE',
	_Encoder.STRING: 'STRING',
	_Encoder.FLOAT: 'FLOAT',
	}


	# Maps variant to decoder method.
	_VARIANT_TO_DECODER_MAP = {
	messages.Variant.DOUBLE: _Decoder.getDouble,
	messages.Variant.FLOAT: _Decoder.getFloat,
	messages.Variant.INT64: _Decoder.getVarInt64,
	messages.Variant.UINT64: _Decoder.getVarUint64,
	messages.Variant.INT32: _Decoder.getVarInt32,
	messages.Variant.BOOL: _Decoder.decode_boolean,
	messages.Variant.STRING: _Decoder.decode_string,
	messages.Variant.MESSAGE: _Decoder.getPrefixedString,
	messages.Variant.BYTES: _Decoder.getPrefixedString,
	messages.Variant.UINT32: _Decoder.no_decoding,
	messages.Variant.ENUM: _Decoder.getVarInt32,
	messages.Variant.SINT32: _Decoder.no_decoding,
	messages.Variant.SINT64: _Decoder.no_decoding,
	}


	def encode_message(message):
	"""Encode Message instance to protocol buffer.

	Args:
	Message instance to encode in to protocol buffer.

	Returns:
	String encoding of Message instance in protocol buffer format.

	Raises:
	messages.ValidationError if message is not initialized.
	"""
	message.check_initialized()
	encoder = _Encoder()

	# Get all fields, from the known fields we parsed and the unknown fields
	# we saved. Note which ones were known, so we can process them differently.
	all_fields = [(field.number, field) for field in message.all_fields()]
	all_fields.extend((key, None)
	for key in message.all_unrecognized_fields()
	if isinstance(key, six.integer_types))
	all_fields.sort()
	for field_num, field in all_fields:
	if field:
	# Known field.
	value = message.get_assigned_value(field.name)
	if value is None:
	continue
	variant = field.variant
	repeated = field.repeated
	else:
	# Unrecognized field.
	value, variant = message.get_unrecognized_field_info(field_num)
	if not isinstance(variant, messages.Variant):
	continue
	repeated = isinstance(value, (list, tuple))

	tag = ((field_num << _WIRE_TYPE_BITS) \| _VARIANT_TO_WIRE_TYPE[variant])

	# Write value to wire.
	if repeated:
	values = value
	else:
	values = [value]
	for next in values:
	encoder.putVarInt32(tag)
	if isinstance(field, messages.MessageField):
	next = field.value_to_message(next)
	field_encoder = _VARIANT_TO_ENCODER_MAP[variant]
	field_encoder(encoder, next)

	return encoder.buffer().tostring()


	def decode_message(message_type, encoded_message):
	"""Decode protocol buffer to Message instance.

	Args:
	message_type: Message type to decode data to.
	encoded_message: Encoded version of message as string.

	Returns:
	Decoded instance of message_type.

	Raises:
	DecodeError if an error occurs during decoding, such as incompatible
	wire format for a field.
	messages.ValidationError if merged message is not initialized.
	"""
	message = message_type()
	message_array = array.array('B')
	message_array.fromstring(encoded_message)
	try:
	decoder = _Decoder(message_array, 0, len(message_array))

	while decoder.avail() > 0:
	# Decode tag and variant information.
	encoded_tag = decoder.getVarInt32()
	tag = encoded_tag >> _WIRE_TYPE_BITS
	wire_type = encoded_tag & _WIRE_TYPE_MASK
	try:
	found_wire_type_decoder = _WIRE_TYPE_TO_DECODER_MAP[wire_type]
	except:
	raise messages.DecodeError('No such wire type %d' % wire_type)

	if tag < 1:
	raise messages.DecodeError('Invalid tag value %d' % tag)

	try:
	field = message.field_by_number(tag)
	except KeyError:
	# Unexpected tags are ok.
	field = None
	wire_type_decoder = found_wire_type_decoder
	else:
	expected_wire_type = _VARIANT_TO_WIRE_TYPE[field.variant]
	if expected_wire_type != wire_type:
	raise messages.DecodeError('Expected wire type %s but found %s' % (
	_WIRE_TYPE_NAME[expected_wire_type],
	_WIRE_TYPE_NAME[wire_type]))

	wire_type_decoder = _VARIANT_TO_DECODER_MAP[field.variant]

	value = wire_type_decoder(decoder)

	# Save unknown fields and skip additional processing.
	if not field:
	# When saving this, save it under the tag number (which should
	# be unique), and set the variant and value so we know how to
	# interpret the value later.
	variant = _WIRE_TYPE_TO_VARIANT_MAP.get(wire_type)
	if variant:
	message.set_unrecognized_field(tag, value, variant)
	continue

	# Special case Enum and Message types.
	if isinstance(field, messages.EnumField):
	try:
	value = field.type(value)
	except TypeError:
	raise messages.DecodeError('Invalid enum value %s' % value)
	elif isinstance(field, messages.MessageField):
	value = decode_message(field.message_type, value)
	value = field.value_from_message(value)

	# Merge value in to message.
	if field.repeated:
	values = getattr(message, field.name)
	if values is None:
	setattr(message, field.name, [value])
	else:
	values.append(value)
	else:
	setattr(message, field.name, value)
	except ProtocolBuffer.ProtocolBufferDecodeError as err:
	raise messages.DecodeError('Decoding error: %s' % str(err))

	message.check_initialized()
	return message