# Copyright 2009-present MongoDB, 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. from __future__ import annotations import struct from enum import Enum from typing import TYPE_CHECKING, Any, Optional, Sequence, Tuple, Type, Union, overload from uuid import UUID """Tools for representing BSON binary data. """ BINARY_SUBTYPE = 0 """BSON binary subtype for binary data. This is the default subtype for binary data. """ FUNCTION_SUBTYPE = 1 """BSON binary subtype for functions. """ OLD_BINARY_SUBTYPE = 2 """Old BSON binary subtype for binary data. This is the old default subtype, the current default is :data:`BINARY_SUBTYPE`. """ OLD_UUID_SUBTYPE = 3 """Old BSON binary subtype for a UUID. :class:`uuid.UUID` instances will automatically be encoded by :mod:`bson` using this subtype when using :data:`UuidRepresentation.PYTHON_LEGACY`, :data:`UuidRepresentation.JAVA_LEGACY`, or :data:`UuidRepresentation.CSHARP_LEGACY`. .. versionadded:: 2.1 """ UUID_SUBTYPE = 4 """BSON binary subtype for a UUID. This is the standard BSON binary subtype for UUIDs. :class:`uuid.UUID` instances will automatically be encoded by :mod:`bson` using this subtype when using :data:`UuidRepresentation.STANDARD`. """ if TYPE_CHECKING: from array import array as _array from mmap import mmap as _mmap class UuidRepresentation: UNSPECIFIED = 0 """An unspecified UUID representation. When configured, :class:`uuid.UUID` instances will **not** be automatically encoded to or decoded from :class:`~bson.binary.Binary`. When encoding a :class:`uuid.UUID` instance, an error will be raised. To encode a :class:`uuid.UUID` instance with this configuration, it must be wrapped in the :class:`~bson.binary.Binary` class by the application code. When decoding a BSON binary field with a UUID subtype, a :class:`~bson.binary.Binary` instance will be returned instead of a :class:`uuid.UUID` instance. See :ref:`unspecified-representation-details` for details. .. versionadded:: 3.11 """ STANDARD = UUID_SUBTYPE """The standard UUID representation. :class:`uuid.UUID` instances will automatically be encoded to and decoded from BSON binary, using RFC-4122 byte order with binary subtype :data:`UUID_SUBTYPE`. See :ref:`standard-representation-details` for details. .. versionadded:: 3.11 """ PYTHON_LEGACY = OLD_UUID_SUBTYPE """The Python legacy UUID representation. :class:`uuid.UUID` instances will automatically be encoded to and decoded from BSON binary, using RFC-4122 byte order with binary subtype :data:`OLD_UUID_SUBTYPE`. See :ref:`python-legacy-representation-details` for details. .. versionadded:: 3.11 """ JAVA_LEGACY = 5 """The Java legacy UUID representation. :class:`uuid.UUID` instances will automatically be encoded to and decoded from BSON binary subtype :data:`OLD_UUID_SUBTYPE`, using the Java driver's legacy byte order. See :ref:`java-legacy-representation-details` for details. .. versionadded:: 3.11 """ CSHARP_LEGACY = 6 """The C#/.net legacy UUID representation. :class:`uuid.UUID` instances will automatically be encoded to and decoded from BSON binary subtype :data:`OLD_UUID_SUBTYPE`, using the C# driver's legacy byte order. See :ref:`csharp-legacy-representation-details` for details. .. versionadded:: 3.11 """ STANDARD = UuidRepresentation.STANDARD """An alias for :data:`UuidRepresentation.STANDARD`. .. versionadded:: 3.0 """ PYTHON_LEGACY = UuidRepresentation.PYTHON_LEGACY """An alias for :data:`UuidRepresentation.PYTHON_LEGACY`. .. versionadded:: 3.0 """ JAVA_LEGACY = UuidRepresentation.JAVA_LEGACY """An alias for :data:`UuidRepresentation.JAVA_LEGACY`. .. versionchanged:: 3.6 BSON binary subtype 4 is decoded using RFC-4122 byte order. .. versionadded:: 2.3 """ CSHARP_LEGACY = UuidRepresentation.CSHARP_LEGACY """An alias for :data:`UuidRepresentation.CSHARP_LEGACY`. .. versionchanged:: 3.6 BSON binary subtype 4 is decoded using RFC-4122 byte order. .. versionadded:: 2.3 """ ALL_UUID_SUBTYPES = (OLD_UUID_SUBTYPE, UUID_SUBTYPE) ALL_UUID_REPRESENTATIONS = ( UuidRepresentation.UNSPECIFIED, UuidRepresentation.STANDARD, UuidRepresentation.PYTHON_LEGACY, UuidRepresentation.JAVA_LEGACY, UuidRepresentation.CSHARP_LEGACY, ) UUID_REPRESENTATION_NAMES = { UuidRepresentation.UNSPECIFIED: "UuidRepresentation.UNSPECIFIED", UuidRepresentation.STANDARD: "UuidRepresentation.STANDARD", UuidRepresentation.PYTHON_LEGACY: "UuidRepresentation.PYTHON_LEGACY", UuidRepresentation.JAVA_LEGACY: "UuidRepresentation.JAVA_LEGACY", UuidRepresentation.CSHARP_LEGACY: "UuidRepresentation.CSHARP_LEGACY", } MD5_SUBTYPE = 5 """BSON binary subtype for an MD5 hash. """ COLUMN_SUBTYPE = 7 """BSON binary subtype for columns. .. versionadded:: 4.0 """ SENSITIVE_SUBTYPE = 8 """BSON binary subtype for sensitive data. .. versionadded:: 4.5 """ VECTOR_SUBTYPE = 9 """BSON binary subtype for densely packed vector data. .. versionadded:: 4.10 """ USER_DEFINED_SUBTYPE = 128 """BSON binary subtype for any user defined structure. """ class BinaryVectorDtype(Enum): """Datatypes of vector subtype. :param FLOAT32: (0x27) Pack list of :class:`float` as float32 :param INT8: (0x03) Pack list of :class:`int` in [-128, 127] as signed int8 :param PACKED_BIT: (0x10) Pack list of :class:`int` in [0, 255] as unsigned uint8 The `PACKED_BIT` value represents a special case where vector values themselves can only be of two values (0 or 1) but these are packed together into groups of 8, a byte. In Python, these are displayed as ints in range [0, 255] Each value is of type bytes with a length of one. .. versionadded:: 4.10 """ INT8 = b"\x03" FLOAT32 = b"\x27" PACKED_BIT = b"\x10" class BinaryVector: """Vector of numbers along with metadata for binary interoperability. .. versionadded:: 4.10 """ __slots__ = ("data", "dtype", "padding") def __init__(self, data: Sequence[float | int], dtype: BinaryVectorDtype, padding: int = 0): """ :param data: Sequence of numbers representing the mathematical vector. :param dtype: The data type stored in binary :param padding: The number of bits in the final byte that are to be ignored when a vector element's size is less than a byte and the length of the vector is not a multiple of 8. """ self.data = data self.dtype = dtype self.padding = padding def __repr__(self) -> str: return f"BinaryVector(dtype={self.dtype}, padding={self.padding}, data={self.data})" def __eq__(self, other: Any) -> bool: if not isinstance(other, BinaryVector): return False return ( self.dtype == other.dtype and self.padding == other.padding and self.data == other.data ) class Binary(bytes): """Representation of BSON binary data. We want to represent Python strings as the BSON string type. We need to wrap binary data so that we can tell the difference between what should be considered binary data and what should be considered a string when we encode to BSON. Subtype 9 provides a space-efficient representation of 1-dimensional vector data. Its data is prepended with two bytes of metadata. The first (dtype) describes its data type, such as float32 or int8. The second (padding) prescribes the number of bits to ignore in the final byte. This is relevant when the element size of the dtype is not a multiple of 8. Raises TypeError if `subtype` is not an instance of :class:`int`. Raises ValueError if `subtype` is not in [0, 256). .. note:: Instances of Binary with subtype 0 will be decoded directly to :class:`bytes`. :param data: the binary data to represent. Can be any bytes-like type that implements the buffer protocol. :param subtype: the `binary subtype `_ to use .. versionchanged:: 3.9 Support any bytes-like type that implements the buffer protocol. .. versionchanged:: 4.10 Addition of vector subtype. """ _type_marker = 5 __subtype: int def __new__( cls: Type[Binary], data: Union[memoryview, bytes, _mmap, _array[Any]], subtype: int = BINARY_SUBTYPE, ) -> Binary: if not isinstance(subtype, int): raise TypeError(f"subtype must be an instance of int, not {type(subtype)}") if subtype >= 256 or subtype < 0: raise ValueError("subtype must be contained in [0, 256)") # Support any type that implements the buffer protocol. self = bytes.__new__(cls, memoryview(data).tobytes()) self.__subtype = subtype return self @classmethod def from_uuid( cls: Type[Binary], uuid: UUID, uuid_representation: int = UuidRepresentation.STANDARD ) -> Binary: """Create a BSON Binary object from a Python UUID. Creates a :class:`~bson.binary.Binary` object from a :class:`uuid.UUID` instance. Assumes that the native :class:`uuid.UUID` instance uses the byte-order implied by the provided ``uuid_representation``. Raises :exc:`TypeError` if `uuid` is not an instance of :class:`~uuid.UUID`. :param uuid: A :class:`uuid.UUID` instance. :param uuid_representation: A member of :class:`~bson.binary.UuidRepresentation`. Default: :const:`~bson.binary.UuidRepresentation.STANDARD`. See :ref:`handling-uuid-data-example` for details. .. versionadded:: 3.11 """ if not isinstance(uuid, UUID): raise TypeError(f"uuid must be an instance of uuid.UUID, not {type(uuid)}") if uuid_representation not in ALL_UUID_REPRESENTATIONS: raise ValueError( "uuid_representation must be a value from bson.binary.UuidRepresentation" ) if uuid_representation == UuidRepresentation.UNSPECIFIED: raise ValueError( "cannot encode native uuid.UUID with " "UuidRepresentation.UNSPECIFIED. UUIDs can be manually " "converted to bson.Binary instances using " "bson.Binary.from_uuid() or a different UuidRepresentation " "can be configured. See the documentation for " "UuidRepresentation for more information." ) subtype = OLD_UUID_SUBTYPE if uuid_representation == UuidRepresentation.PYTHON_LEGACY: payload = uuid.bytes elif uuid_representation == UuidRepresentation.JAVA_LEGACY: from_uuid = uuid.bytes payload = from_uuid[0:8][::-1] + from_uuid[8:16][::-1] elif uuid_representation == UuidRepresentation.CSHARP_LEGACY: payload = uuid.bytes_le else: # uuid_representation == UuidRepresentation.STANDARD subtype = UUID_SUBTYPE payload = uuid.bytes return cls(payload, subtype) def as_uuid(self, uuid_representation: int = UuidRepresentation.STANDARD) -> UUID: """Create a Python UUID from this BSON Binary object. Decodes this binary object as a native :class:`uuid.UUID` instance with the provided ``uuid_representation``. Raises :exc:`ValueError` if this :class:`~bson.binary.Binary` instance does not contain a UUID. :param uuid_representation: A member of :class:`~bson.binary.UuidRepresentation`. Default: :const:`~bson.binary.UuidRepresentation.STANDARD`. See :ref:`handling-uuid-data-example` for details. .. versionadded:: 3.11 """ if self.subtype not in ALL_UUID_SUBTYPES: raise ValueError(f"cannot decode subtype {self.subtype} as a uuid") if uuid_representation not in ALL_UUID_REPRESENTATIONS: raise ValueError( "uuid_representation must be a value from bson.binary.UuidRepresentation" ) if uuid_representation == UuidRepresentation.UNSPECIFIED: raise ValueError("uuid_representation cannot be UNSPECIFIED") elif uuid_representation == UuidRepresentation.PYTHON_LEGACY: if self.subtype == OLD_UUID_SUBTYPE: return UUID(bytes=self) elif uuid_representation == UuidRepresentation.JAVA_LEGACY: if self.subtype == OLD_UUID_SUBTYPE: return UUID(bytes=self[0:8][::-1] + self[8:16][::-1]) elif uuid_representation == UuidRepresentation.CSHARP_LEGACY: if self.subtype == OLD_UUID_SUBTYPE: return UUID(bytes_le=self) else: # uuid_representation == UuidRepresentation.STANDARD if self.subtype == UUID_SUBTYPE: return UUID(bytes=self) raise ValueError( f"cannot decode subtype {self.subtype} to {UUID_REPRESENTATION_NAMES[uuid_representation]}" ) @classmethod @overload def from_vector(cls: Type[Binary], vector: BinaryVector) -> Binary: ... @classmethod @overload def from_vector( cls: Type[Binary], vector: Union[list[int], list[float]], dtype: BinaryVectorDtype, padding: int = 0, ) -> Binary: ... @classmethod def from_vector( cls: Type[Binary], vector: Union[BinaryVector, list[int], list[float]], dtype: Optional[BinaryVectorDtype] = None, padding: Optional[int] = None, ) -> Binary: """Create a BSON :class:`~bson.binary.Binary` of Vector subtype. To interpret the representation of the numbers, a data type must be included. See :class:`~bson.binary.BinaryVectorDtype` for available types and descriptions. The dtype and padding are prepended to the binary data's value. :param vector: Either a List of values, or a :class:`~bson.binary.BinaryVector` dataclass. :param dtype: Data type of the values :param padding: For fractional bytes, number of bits to ignore at end of vector. :return: Binary packed data identified by dtype and padding. .. versionadded:: 4.10 """ if isinstance(vector, BinaryVector): if dtype or padding: raise ValueError( "The first argument, vector, has type BinaryVector. " "dtype or padding cannot be separately defined, but were." ) dtype = vector.dtype padding = vector.padding vector = vector.data # type: ignore padding = 0 if padding is None else padding if dtype == BinaryVectorDtype.INT8: # pack ints in [-128, 127] as signed int8 format_str = "b" if padding: raise ValueError(f"padding does not apply to {dtype=}") elif dtype == BinaryVectorDtype.PACKED_BIT: # pack ints in [0, 255] as unsigned uint8 format_str = "B" if 0 <= padding > 7: raise ValueError(f"{padding=}. It must be in [0,1, ..7].") if padding and not vector: raise ValueError("Empty vector with non-zero padding.") elif dtype == BinaryVectorDtype.FLOAT32: # pack floats as float32 format_str = "f" if padding: raise ValueError(f"padding does not apply to {dtype=}") else: raise NotImplementedError("%s not yet supported" % dtype) metadata = struct.pack(" BinaryVector: """From the Binary, create a list of numbers, along with dtype and padding. :return: BinaryVector .. versionadded:: 4.10 """ if self.subtype != VECTOR_SUBTYPE: raise ValueError(f"Cannot decode subtype {self.subtype} as a vector") position = 0 dtype, padding = struct.unpack_from(" int: """Subtype of this binary data.""" return self.__subtype def __getnewargs__(self) -> Tuple[bytes, int]: # type: ignore[override] # Work around http://bugs.python.org/issue7382 data = super().__getnewargs__()[0] if not isinstance(data, bytes): data = data.encode("latin-1") return data, self.__subtype def __eq__(self, other: Any) -> bool: if isinstance(other, Binary): return (self.__subtype, bytes(self)) == (other.subtype, bytes(other)) # We don't return NotImplemented here because if we did then # Binary("foo") == "foo" would return True, since Binary is a # subclass of str... return False def __hash__(self) -> int: return super().__hash__() ^ hash(self.__subtype) def __ne__(self, other: Any) -> bool: return not self == other def __repr__(self) -> str: if self.__subtype == SENSITIVE_SUBTYPE: return f"" else: return f"Binary({bytes.__repr__(self)}, {self.__subtype})"