def SpecificDecoder(field_number, is_repeated, is_packed, key,
new_default):
if is_packed:
local_DecodeVarint = _DecodeVarint
def DecodePackedField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
(endpoint, pos) = local_DecodeVarint(buffer, pos)
endpoint += pos
if endpoint > end:
raise _DecodeError('Truncated message.')
while pos < endpoint:
(element, pos) = decode_value(buffer, pos)
value.append(element)
if pos > endpoint:
del value[-1]
raise _DecodeError('Packed element was truncated.')
return pos
return DecodePackedField
elif is_repeated:
tag_bytes = encoder.TagBytes(field_number, wire_type)
tag_len = len(tag_bytes)
def DecodeRepeatedField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
while 1:
(element, new_pos) = decode_value(buffer, pos)
value.append(element)
pos = new_pos + tag_len
if buffer[new_pos:pos] != tag_bytes or new_pos >= end:
if new_pos > end:
raise _DecodeError('Truncated message.')
return new_pos
return DecodeRepeatedField
else:
def DecodeField(buffer, pos, end, message, field_dict):
(field_dict[key], pos) = decode_value(buffer, pos)
if pos > end:
del field_dict[key]
raise _DecodeError('Truncated message.')
return pos
return DecodeField
def MessageDecoder(field_number, is_repeated, is_packed, key, new_default):
"""Returns a decoder for a message field."""
local_DecodeVarint = _DecodeVarint
assert not is_packed
if is_repeated:
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_LENGTH_DELIMITED)
tag_len = len(tag_bytes)
def DecodeRepeatedField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
while 1:
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated message.')
if value.add()._InternalParse(buffer, pos, new_pos) != new_pos:
raise _DecodeError('Unexpected end-group tag.')
pos = new_pos + tag_len
if buffer[new_pos:pos] != tag_bytes or new_pos == end:
return new_pos
return DecodeRepeatedField
else:
def DecodeField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated message.')
if value._InternalParse(buffer, pos, new_pos) != new_pos:
raise _DecodeError('Unexpected end-group tag.')
return new_pos
return DecodeField
def DecodePackedField(buffer, pos, end, message, field_dict):
"""Decode serialized packed enum to its value and a new position.
Args:
buffer: memoryview of the serialized bytes.
pos: int, position in the memory view to start at.
end: int, end position of serialized data
message: Message object to store unknown fields in
field_dict: Map[Descriptor, Any] to store decoded values in.
Returns:
int, new position in serialized data.
"""
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
(endpoint, pos) = local_DecodeVarint(buffer, pos)
endpoint += pos
if endpoint > end:
raise _DecodeError('Truncated message.')
while pos < endpoint:
value_start_pos = pos
(element, pos) = _DecodeSignedVarint32(buffer, pos)
if element in enum_type.values_by_number:
value.append(element)
else:
if not message._unknown_fields:
message._unknown_fields = []
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_VARINT)
message._unknown_fields.append(
(tag_bytes, buffer[value_start_pos:pos].tobytes()))
if message._unknown_field_set is None:
message._unknown_field_set = containers.UnknownFieldSet(
)
message._unknown_field_set._add(
field_number, wire_format.WIRETYPE_VARINT, element)
if pos > endpoint:
if element in enum_type.values_by_number:
del value[-1]
else:
del message._unknown_fields[-1]
del message._unknown_field_set._values[-1]
raise _DecodeError('Packed element was truncated.')
return pos
def DecodeField(buffer, pos, end, message, field_dict):
value_start_pos = pos
(enum_value, pos) = _DecodeSignedVarint32(buffer, pos)
if pos > end:
raise _DecodeError('Truncated message.')
if enum_value in enum_type.values_by_number:
field_dict[key] = enum_value
else:
if not message._unknown_fields:
message._unknown_fields = []
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_VARINT)
message._unknown_fields.append(
(tag_bytes, buffer[value_start_pos:pos]))
return pos
def StringDecoder(field_number, is_repeated, is_packed, key, new_default):
"""Returns a decoder for a string field."""
local_DecodeVarint = _DecodeVarint
local_unicode = six.text_type
def _ConvertToUnicode(byte_str):
try:
return local_unicode(byte_str, 'utf-8')
except UnicodeDecodeError as e:
e.reason = '%s in field: %s' % (e, key.full_name)
raise
assert not is_packed
if is_repeated:
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_LENGTH_DELIMITED)
tag_len = len(tag_bytes)
def DecodeRepeatedField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
while 1:
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated string.')
value.append(_ConvertToUnicode(buffer[pos:new_pos]))
pos = new_pos + tag_len
if buffer[new_pos:pos] != tag_bytes or new_pos == end:
return new_pos
return DecodeRepeatedField
else:
def DecodeField(buffer, pos, end, message, field_dict):
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated string.')
field_dict[key] = _ConvertToUnicode(buffer[pos:new_pos])
return new_pos
return DecodeField
def AddDecoder(wiretype, is_packed):
tag_bytes = encoder.TagBytes(field_descriptor.number, wiretype)
decode_type = field_descriptor.type
if (decode_type == _FieldDescriptor.TYPE_ENUM
and type_checkers.SupportsOpenEnums(field_descriptor)):
decode_type = _FieldDescriptor.TYPE_INT32
oneof_descriptor = None
if field_descriptor.containing_oneof is not None:
oneof_descriptor = field_descriptor
field_decoder = type_checkers.TYPE_TO_DECODER[decode_type](
field_descriptor.number, is_repeated, is_packed, field_descriptor,
field_descriptor._default_constructor)
cls._decoders_by_tag[tag_bytes] = (field_decoder, oneof_descriptor)
def MapDecoder(field_descriptor, new_default, is_message_map):
"""Returns a decoder for a map field."""
key = field_descriptor
tag_bytes = encoder.TagBytes(field_descriptor.number,
wire_format.WIRETYPE_LENGTH_DELIMITED)
tag_len = len(tag_bytes)
local_DecodeVarint = _DecodeVarint
message_type = field_descriptor.message_type
def DecodeMap(buffer, pos, end, message, field_dict):
submsg = message_type._concrete_class()
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
while 1:
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated message.')
submsg.Clear()
if submsg._InternalParse(buffer, pos, new_pos) != new_pos:
raise _DecodeError('Unexpected end-group tag.')
if is_message_map:
value[submsg.key].CopyFrom(submsg.value)
else:
value[submsg.key] = submsg.value
pos = new_pos + tag_len
if buffer[new_pos:pos] != tag_bytes or new_pos == end:
return new_pos
return DecodeMap
def StringDecoder(field_number, is_repeated, is_packed, key, new_default):
"""Returns a decoder for a string field."""
local_DecodeVarint = _DecodeVarint
local_unicode = unicode
assert not is_packed
if is_repeated:
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_LENGTH_DELIMITED)
tag_len = len(tag_bytes)
def DecodeRepeatedField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
while 1:
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated string.')
value.append(local_unicode(buffer[pos:new_pos], 'utf-8'))
pos = new_pos + tag_len
if buffer[new_pos:pos] != tag_bytes or new_pos == end:
return new_pos
return DecodeRepeatedField
else:
def DecodeField(buffer, pos, end, message, field_dict):
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated string.')
field_dict[key] = local_unicode(buffer[pos:new_pos], 'utf-8')
return new_pos
return DecodeField
def MessageSetItemDecoder(extensions_by_number):
"""Returns a decoder for a MessageSet item.
The parameter is the _extensions_by_number map for the message class.
The message set message looks like this:
message MessageSet {
repeated group Item = 1 {
required int32 type_id = 2;
required string message = 3;
}
}
"""
type_id_tag_bytes = encoder.TagBytes(2, wire_format.WIRETYPE_VARINT)
message_tag_bytes = encoder.TagBytes(3, wire_format.WIRETYPE_LENGTH_DELIMITED)
item_end_tag_bytes = encoder.TagBytes(1, wire_format.WIRETYPE_END_GROUP)
local_ReadTag = ReadTag
local_DecodeVarint = _DecodeVarint
local_SkipField = SkipField
def DecodeItem(buffer, pos, end, message, field_dict):
message_set_item_start = pos
type_id = -1
message_start = -1
message_end = -1
while 1:
(tag_bytes, pos) = local_ReadTag(buffer, pos)
if tag_bytes == type_id_tag_bytes:
(type_id, pos) = local_DecodeVarint(buffer, pos)
elif tag_bytes == message_tag_bytes:
(size, message_start) = local_DecodeVarint(buffer, pos)
pos = message_end = message_start + size
elif tag_bytes == item_end_tag_bytes:
break
else:
pos = SkipField(buffer, pos, end, tag_bytes)
if pos == -1:
raise _DecodeError('Missing group end tag.')
if pos > end:
raise _DecodeError('Truncated message.')
if type_id == -1:
raise _DecodeError('MessageSet item missing type_id.')
if message_start == -1:
raise _DecodeError('MessageSet item missing message.')
extension = extensions_by_number.get(type_id)
if extension is not None:
value = field_dict.get(extension)
if value is None:
value = field_dict.setdefault(
extension, extension.message_type._concrete_class())
if value._InternalParse(buffer, message_start,message_end) != message_end:
raise _DecodeError('Unexpected end-group tag.')
else:
if not message._unknown_fields:
message._unknown_fields = []
message._unknown_fields.append((MESSAGE_SET_ITEM_TAG,
buffer[message_set_item_start:pos]))
return pos
return DecodeItem
def EnumDecoder(field_number, is_repeated, is_packed, key, new_default):
enum_type = key.enum_type
if is_packed:
local_DecodeVarint = _DecodeVarint
def DecodePackedField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
(endpoint, pos) = local_DecodeVarint(buffer, pos)
endpoint += pos
if endpoint > end:
raise _DecodeError('Truncated message.')
while pos < endpoint:
value_start_pos = pos
(element, pos) = _DecodeSignedVarint32(buffer, pos)
if element in enum_type.values_by_number:
value.append(element)
else:
if not message._unknown_fields:
message._unknown_fields = []
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_VARINT)
message._unknown_fields.append(
(tag_bytes, buffer[value_start_pos:pos]))
if pos > endpoint:
if element in enum_type.values_by_number:
del value[-1]
else:
del message._unknown_fields[-1]
raise _DecodeError('Packed element was truncated.')
return pos
return DecodePackedField
elif is_repeated:
tag_bytes = encoder.TagBytes(field_number, wire_format.WIRETYPE_VARINT)
tag_len = len(tag_bytes)
def DecodeRepeatedField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
while 1:
(element, new_pos) = _DecodeSignedVarint32(buffer, pos)
if element in enum_type.values_by_number:
value.append(element)
else:
if not message._unknown_fields:
message._unknown_fields = []
message._unknown_fields.append(
(tag_bytes, buffer[pos:new_pos]))
pos = new_pos + tag_len
if buffer[new_pos:pos] != tag_bytes or new_pos >= end:
if new_pos > end:
raise _DecodeError('Truncated message.')
return new_pos
return DecodeRepeatedField
else:
def DecodeField(buffer, pos, end, message, field_dict):
value_start_pos = pos
(enum_value, pos) = _DecodeSignedVarint32(buffer, pos)
if pos > end:
raise _DecodeError('Truncated message.')
if enum_value in enum_type.values_by_number:
field_dict[key] = enum_value
else:
if not message._unknown_fields:
message._unknown_fields = []
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_VARINT)
message._unknown_fields.append(
(tag_bytes, buffer[value_start_pos:pos]))
return pos
return DecodeField
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated message.')
if value._InternalParse(buffer, pos, new_pos) != new_pos:
raise _DecodeError('Unexpected end-group tag.')
return new_pos
return DecodeField
MESSAGE_SET_ITEM_TAG = encoder.TagBytes(1, wire_format.WIRETYPE_START_GROUP)
def MessageSetItemDecoder(extensions_by_number):
"""Returns a decoder for a MessageSet item.
The parameter is the _extensions_by_number map for the message class.
The message set message looks like this:
message MessageSet {
repeated group Item = 1 {
required int32 type_id = 2;
required string message = 3;
}
}
"""
"""Returns a decoder for a string field."""
local_DecodeVarint = _DecodeVarint
local_unicode = unicode
def _ConvertToUnicode(byte_str):
try:
return local_unicode(byte_str, 'utf-8')
except UnicodeDecodeError, e:
e.reason = '%s in field: %s' % (e, key.full_name)
raise
assert not is_packed
if is_repeated:
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_LENGTH_DELIMITED)
tag_len = len(tag_bytes)
def DecodeRepeatedField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
while 1:
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated string.')
value.append(_ConvertToUnicode(buffer[pos:new_pos]))
pos = new_pos + tag_len
if buffer[new_pos:pos] != tag_bytes or new_pos == end:
def AddDecoder(wiretype, is_packed):
tag_bytes = encoder.TagBytes(field_descriptor.number, wiretype)
cls._decoders_by_tag[tag_bytes] = (
type_checkers.TYPE_TO_DECODER[field_descriptor.type](
field_descriptor.number, is_repeated, is_packed,
field_descriptor, field_descriptor._default_constructor))
def MessageSetItemDecoder(descriptor):
"""Returns a decoder for a MessageSet item.
The parameter is the message Descriptor.
The message set message looks like this:
message MessageSet {
repeated group Item = 1 {
required int32 type_id = 2;
required string message = 3;
}
}
"""
type_id_tag_bytes = encoder.TagBytes(2, wire_format.WIRETYPE_VARINT)
message_tag_bytes = encoder.TagBytes(3,
wire_format.WIRETYPE_LENGTH_DELIMITED)
item_end_tag_bytes = encoder.TagBytes(1, wire_format.WIRETYPE_END_GROUP)
local_ReadTag = ReadTag
local_DecodeVarint = _DecodeVarint
local_SkipField = SkipField
def DecodeItem(buffer, pos, end, message, field_dict):
"""Decode serialized message set to its value and new position.
Args:
buffer: memoryview of the serialized bytes.
pos: int, position in the memory view to start at.
end: int, end position of serialized data
message: Message object to store unknown fields in
field_dict: Map[Descriptor, Any] to store decoded values in.
Returns:
int, new position in serialized data.
"""
message_set_item_start = pos
type_id = -1
message_start = -1
message_end = -1
while 1:
(tag_bytes, pos) = local_ReadTag(buffer, pos)
if tag_bytes == type_id_tag_bytes:
(type_id, pos) = local_DecodeVarint(buffer, pos)
elif tag_bytes == message_tag_bytes:
(size, message_start) = local_DecodeVarint(buffer, pos)
pos = message_end = message_start + size
elif tag_bytes == item_end_tag_bytes:
break
else:
pos = SkipField(buffer, pos, end, tag_bytes)
if pos == -1:
raise _DecodeError('Missing group end tag.')
if pos > end:
raise _DecodeError('Truncated message.')
if type_id == -1:
raise _DecodeError('MessageSet item missing type_id.')
if message_start == -1:
raise _DecodeError('MessageSet item missing message.')
extension = message.Extensions._FindExtensionByNumber(type_id)
if extension is not None:
value = field_dict.get(extension)
if value is None:
value = field_dict.setdefault(
extension, extension.message_type._concrete_class())
if value._InternalParse(buffer, message_start,
message_end) != message_end:
raise _DecodeError('Unexpected end-group tag.')
else:
if not message._unknown_fields:
message._unknown_fields = []
message._unknown_fields.append(
(MESSAGE_SET_ITEM_TAG,
buffer[message_set_item_start:pos].tobytes()))
return pos
return DecodeItem
def StringDecoder(field_number,
is_repeated,
is_packed,
key,
new_default,
is_strict_utf8=False):
"""Returns a decoder for a string field."""
local_DecodeVarint = _DecodeVarint
local_unicode = six.text_type
def _ConvertToUnicode(memview):
"""Convert byte to unicode."""
byte_str = memview.tobytes()
try:
value = local_unicode(byte_str, 'utf-8')
except UnicodeDecodeError as e:
e.reason = '%s in field: %s' % (e, key.full_name)
raise
if is_strict_utf8 and six.PY2 and sys.maxunicode > _UCS2_MAXUNICODE:
if _SURROGATE_PATTERN.search(value):
reason = (
'String field %s contains invalid UTF-8 data when parsing'
'a protocol buffer: surrogates not allowed. Use'
'the bytes type if you intend to send raw bytes.') % (
key.full_name)
raise message.DecodeError(reason)
return value
assert not is_packed
if is_repeated:
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_LENGTH_DELIMITED)
tag_len = len(tag_bytes)
def DecodeRepeatedField(buffer, pos, end, message, field_dict):
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
while 1:
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated string.')
value.append(_ConvertToUnicode(buffer[pos:new_pos]))
pos = new_pos + tag_len
if buffer[new_pos:pos] != tag_bytes or new_pos == end:
return new_pos
return DecodeRepeatedField
else:
def DecodeField(buffer, pos, end, message, field_dict):
(size, pos) = local_DecodeVarint(buffer, pos)
new_pos = pos + size
if new_pos > end:
raise _DecodeError('Truncated string.')
field_dict[key] = _ConvertToUnicode(buffer[pos:new_pos])
return new_pos
return DecodeField
def EnumDecoder(field_number, is_repeated, is_packed, key, new_default):
enum_type = key.enum_type
if is_packed:
local_DecodeVarint = _DecodeVarint
def DecodePackedField(buffer, pos, end, message, field_dict):
"""Decode serialized packed enum to its value and a new position.
Args:
buffer: memoryview of the serialized bytes.
pos: int, position in the memory view to start at.
end: int, end position of serialized data
message: Message object to store unknown fields in
field_dict: Map[Descriptor, Any] to store decoded values in.
Returns:
int, new position in serialized data.
"""
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
(endpoint, pos) = local_DecodeVarint(buffer, pos)
endpoint += pos
if endpoint > end:
raise _DecodeError('Truncated message.')
while pos < endpoint:
value_start_pos = pos
(element, pos) = _DecodeSignedVarint32(buffer, pos)
if element in enum_type.values_by_number:
value.append(element)
else:
if not message._unknown_fields:
message._unknown_fields = []
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_VARINT)
message._unknown_fields.append(
(tag_bytes, buffer[value_start_pos:pos].tobytes()))
if pos > endpoint:
if element in enum_type.values_by_number:
del value[-1]
else:
del message._unknown_fields[-1]
raise _DecodeError('Packed element was truncated.')
return pos
return DecodePackedField
elif is_repeated:
tag_bytes = encoder.TagBytes(field_number, wire_format.WIRETYPE_VARINT)
tag_len = len(tag_bytes)
def DecodeRepeatedField(buffer, pos, end, message, field_dict):
"""Decode serialized repeated enum to its value and a new position.
Args:
buffer: memoryview of the serialized bytes.
pos: int, position in the memory view to start at.
end: int, end position of serialized data
message: Message object to store unknown fields in
field_dict: Map[Descriptor, Any] to store decoded values in.
Returns:
int, new position in serialized data.
"""
value = field_dict.get(key)
if value is None:
value = field_dict.setdefault(key, new_default(message))
while 1:
(element, new_pos) = _DecodeSignedVarint32(buffer, pos)
if element in enum_type.values_by_number:
value.append(element)
else:
if not message._unknown_fields:
message._unknown_fields = []
message._unknown_fields.append(
(tag_bytes, buffer[pos:new_pos].tobytes()))
pos = new_pos + tag_len
if buffer[new_pos:pos] != tag_bytes or new_pos >= end:
if new_pos > end:
raise _DecodeError('Truncated message.')
return new_pos
return DecodeRepeatedField
else:
def DecodeField(buffer, pos, end, message, field_dict):
"""Decode serialized repeated enum to its value and a new position.
Args:
buffer: memoryview of the serialized bytes.
pos: int, position in the memory view to start at.
end: int, end position of serialized data
message: Message object to store unknown fields in
field_dict: Map[Descriptor, Any] to store decoded values in.
Returns:
int, new position in serialized data.
"""
value_start_pos = pos
(enum_value, pos) = _DecodeSignedVarint32(buffer, pos)
if pos > end:
raise _DecodeError('Truncated message.')
if enum_value in enum_type.values_by_number:
field_dict[key] = enum_value
else:
if not message._unknown_fields:
message._unknown_fields = []
tag_bytes = encoder.TagBytes(field_number,
wire_format.WIRETYPE_VARINT)
message._unknown_fields.append(
(tag_bytes, buffer[value_start_pos:pos].tobytes()))
return pos
return DecodeField