Reticulum/RNS/vendor/umsgpack.py

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# u-msgpack-python v2.7.1 - v at sergeev.io
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# https://github.com/vsergeev/u-msgpack-python
#
# u-msgpack-python is a lightweight MessagePack serializer and deserializer
# module, compatible with both Python 2 and 3, as well CPython and PyPy
# implementations of Python. u-msgpack-python is fully compliant with the
# latest MessagePack specification.com/msgpack/msgpack/blob/master/spec.md). In
# particular, it supports the new binary, UTF-8 string, and application ext
# types.
#
# MIT License
#
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# Copyright (c) 2013-2020 vsergeev / Ivan (Vanya) A. Sergeev
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#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
#
"""
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u-msgpack-python v2.7.1 - v at sergeev.io
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https://github.com/vsergeev/u-msgpack-python
u-msgpack-python is a lightweight MessagePack serializer and deserializer
module, compatible with both Python 2 and 3, as well CPython and PyPy
implementations of Python. u-msgpack-python is fully compliant with the
latest MessagePack specification.com/msgpack/msgpack/blob/master/spec.md). In
particular, it supports the new binary, UTF-8 string, and application ext
types.
License: MIT
"""
import struct
import collections
import datetime
import sys
import io
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if sys.version_info[0:2] >= (3, 3):
from collections.abc import Hashable
else:
from collections import Hashable
__version__ = "2.7.1"
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"Module version string"
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version = (2, 7, 1)
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"Module version tuple"
##############################################################################
# Ext Class
##############################################################################
# Extension type for application-defined types and data
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class Ext(object):
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"""
The Ext class facilitates creating a serializable extension object to store
an application-defined type and data byte array.
"""
def __init__(self, type, data):
"""
Construct a new Ext object.
Args:
type: application-defined type integer
data: application-defined data byte array
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TypeError:
Type is not an integer.
ValueError:
Type is out of range of -128 to 127.
TypeError::
Data is not type 'bytes' (Python 3) or not type 'str' (Python 2).
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Example:
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>>> foo = umsgpack.Ext(5, b"\x01\x02\x03")
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>>> umsgpack.packb({u"special stuff": foo, u"awesome": True})
'\x82\xa7awesome\xc3\xadspecial stuff\xc7\x03\x05\x01\x02\x03'
>>> bar = umsgpack.unpackb(_)
>>> print(bar["special stuff"])
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Ext Object (Type: 5, Data: 01 02 03)
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>>>
"""
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# Check type is type int and in range
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if not isinstance(type, int):
raise TypeError("ext type is not type integer")
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elif not (-2**7 <= type <= 2**7 - 1):
raise ValueError("ext type value {:d} is out of range (-128 to 127)".format(type))
# Check data is type bytes or str
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elif sys.version_info[0] == 3 and not isinstance(data, bytes):
raise TypeError("ext data is not type \'bytes\'")
elif sys.version_info[0] == 2 and not isinstance(data, str):
raise TypeError("ext data is not type \'str\'")
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self.type = type
self.data = data
def __eq__(self, other):
"""
Compare this Ext object with another for equality.
"""
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return isinstance(other, self.__class__) \
and self.type == other.type and self.data == other.data
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def __ne__(self, other):
"""
Compare this Ext object with another for inequality.
"""
return not self.__eq__(other)
def __str__(self):
"""
String representation of this Ext object.
"""
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s = "Ext Object (Type: {:d}, Data: ".format(self.type)
s += " ".join(["0x{:02}".format(ord(self.data[i:i + 1]))
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for i in xrange(min(len(self.data), 8))])
if len(self.data) > 8:
s += " ..."
s += ")"
return s
def __hash__(self):
"""
Provide a hash of this Ext object.
"""
return hash((self.type, self.data))
class InvalidString(bytes):
"""Subclass of bytes to hold invalid UTF-8 strings."""
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##############################################################################
# Ext Serializable Decorator
##############################################################################
_ext_class_to_type = {}
_ext_type_to_class = {}
def ext_serializable(ext_type):
"""
Return a decorator to register a class for automatic packing and unpacking
with the specified Ext type code. The application class should implement a
`packb()` method that returns serialized bytes, and an `unpackb()` class
method or static method that accepts serialized bytes and returns an
instance of the application class.
Args:
ext_type: application-defined Ext type code
Raises:
TypeError:
Ext type is not an integer.
ValueError:
Ext type is out of range of -128 to 127.
ValueError:
Ext type or class already registered.
"""
def wrapper(cls):
if not isinstance(ext_type, int):
raise TypeError("Ext type is not type integer")
elif not (-2**7 <= ext_type <= 2**7 - 1):
raise ValueError("Ext type value {:d} is out of range of -128 to 127".format(ext_type))
elif ext_type in _ext_type_to_class:
raise ValueError("Ext type {:d} already registered with class {:s}".format(ext_type, repr(_ext_type_to_class[ext_type])))
elif cls in _ext_class_to_type:
raise ValueError("Class {:s} already registered with Ext type {:d}".format(repr(cls), ext_type))
_ext_type_to_class[ext_type] = cls
_ext_class_to_type[cls] = ext_type
return cls
return wrapper
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##############################################################################
# Exceptions
##############################################################################
# Base Exception classes
class PackException(Exception):
"Base class for exceptions encountered during packing."
class UnpackException(Exception):
"Base class for exceptions encountered during unpacking."
# Packing error
class UnsupportedTypeException(PackException):
"Object type not supported for packing."
# Unpacking error
class InsufficientDataException(UnpackException):
"Insufficient data to unpack the serialized object."
class InvalidStringException(UnpackException):
"Invalid UTF-8 string encountered during unpacking."
class UnsupportedTimestampException(UnpackException):
"Unsupported timestamp format encountered during unpacking."
class ReservedCodeException(UnpackException):
"Reserved code encountered during unpacking."
class UnhashableKeyException(UnpackException):
"""
Unhashable key encountered during map unpacking.
The serialized map cannot be deserialized into a Python dictionary.
"""
class DuplicateKeyException(UnpackException):
"Duplicate key encountered during map unpacking."
# Backwards compatibility
KeyNotPrimitiveException = UnhashableKeyException
KeyDuplicateException = DuplicateKeyException
#############################################################################
# Exported Functions and Glob
#############################################################################
# Exported functions and variables, set up in __init()
pack = None
packb = None
unpack = None
unpackb = None
dump = None
dumps = None
load = None
loads = None
compatibility = False
"""
Compatibility mode boolean.
When compatibility mode is enabled, u-msgpack-python will serialize both
unicode strings and bytes into the old "raw" msgpack type, and deserialize the
"raw" msgpack type into bytes. This provides backwards compatibility with the
old MessagePack specification.
Example:
>>> umsgpack.compatibility = True
>>>
>>> umsgpack.packb([u"some string", b"some bytes"])
b'\x92\xabsome string\xaasome bytes'
>>> umsgpack.unpackb(_)
[b'some string', b'some bytes']
>>>
"""
##############################################################################
# Packing
##############################################################################
# You may notice struct.pack("B", obj) instead of the simpler chr(obj) in the
# code below. This is to allow for seamless Python 2 and 3 compatibility, as
# chr(obj) has a str return type instead of bytes in Python 3, and
# struct.pack(...) has the right return type in both versions.
def _pack_integer(obj, fp, options):
if obj < 0:
if obj >= -32:
fp.write(struct.pack("b", obj))
elif obj >= -2**(8 - 1):
fp.write(b"\xd0" + struct.pack("b", obj))
elif obj >= -2**(16 - 1):
fp.write(b"\xd1" + struct.pack(">h", obj))
elif obj >= -2**(32 - 1):
fp.write(b"\xd2" + struct.pack(">i", obj))
elif obj >= -2**(64 - 1):
fp.write(b"\xd3" + struct.pack(">q", obj))
else:
raise UnsupportedTypeException("huge signed int")
else:
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if obj < 128:
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fp.write(struct.pack("B", obj))
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elif obj < 2**8:
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fp.write(b"\xcc" + struct.pack("B", obj))
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elif obj < 2**16:
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fp.write(b"\xcd" + struct.pack(">H", obj))
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elif obj < 2**32:
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fp.write(b"\xce" + struct.pack(">I", obj))
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elif obj < 2**64:
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fp.write(b"\xcf" + struct.pack(">Q", obj))
else:
raise UnsupportedTypeException("huge unsigned int")
def _pack_nil(obj, fp, options):
fp.write(b"\xc0")
def _pack_boolean(obj, fp, options):
fp.write(b"\xc3" if obj else b"\xc2")
def _pack_float(obj, fp, options):
float_precision = options.get('force_float_precision', _float_precision)
if float_precision == "double":
fp.write(b"\xcb" + struct.pack(">d", obj))
elif float_precision == "single":
fp.write(b"\xca" + struct.pack(">f", obj))
else:
raise ValueError("invalid float precision")
def _pack_string(obj, fp, options):
obj = obj.encode('utf-8')
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obj_len = len(obj)
if obj_len < 32:
fp.write(struct.pack("B", 0xa0 | obj_len) + obj)
elif obj_len < 2**8:
fp.write(b"\xd9" + struct.pack("B", obj_len) + obj)
elif obj_len < 2**16:
fp.write(b"\xda" + struct.pack(">H", obj_len) + obj)
elif obj_len < 2**32:
fp.write(b"\xdb" + struct.pack(">I", obj_len) + obj)
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else:
raise UnsupportedTypeException("huge string")
def _pack_binary(obj, fp, options):
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obj_len = len(obj)
if obj_len < 2**8:
fp.write(b"\xc4" + struct.pack("B", obj_len) + obj)
elif obj_len < 2**16:
fp.write(b"\xc5" + struct.pack(">H", obj_len) + obj)
elif obj_len < 2**32:
fp.write(b"\xc6" + struct.pack(">I", obj_len) + obj)
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else:
raise UnsupportedTypeException("huge binary string")
def _pack_oldspec_raw(obj, fp, options):
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obj_len = len(obj)
if obj_len < 32:
fp.write(struct.pack("B", 0xa0 | obj_len) + obj)
elif obj_len < 2**16:
fp.write(b"\xda" + struct.pack(">H", obj_len) + obj)
elif obj_len < 2**32:
fp.write(b"\xdb" + struct.pack(">I", obj_len) + obj)
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else:
raise UnsupportedTypeException("huge raw string")
def _pack_ext(obj, fp, options):
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obj_len = len(obj.data)
if obj_len == 1:
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fp.write(b"\xd4" + struct.pack("B", obj.type & 0xff) + obj.data)
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elif obj_len == 2:
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fp.write(b"\xd5" + struct.pack("B", obj.type & 0xff) + obj.data)
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elif obj_len == 4:
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fp.write(b"\xd6" + struct.pack("B", obj.type & 0xff) + obj.data)
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elif obj_len == 8:
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fp.write(b"\xd7" + struct.pack("B", obj.type & 0xff) + obj.data)
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elif obj_len == 16:
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fp.write(b"\xd8" + struct.pack("B", obj.type & 0xff) + obj.data)
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elif obj_len < 2**8:
fp.write(b"\xc7" + struct.pack("BB", obj_len, obj.type & 0xff) + obj.data)
elif obj_len < 2**16:
fp.write(b"\xc8" + struct.pack(">HB", obj_len, obj.type & 0xff) + obj.data)
elif obj_len < 2**32:
fp.write(b"\xc9" + struct.pack(">IB", obj_len, obj.type & 0xff) + obj.data)
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else:
raise UnsupportedTypeException("huge ext data")
def _pack_ext_timestamp(obj, fp, options):
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if not obj.tzinfo:
# Object is naive datetime, convert to aware date time,
# assuming UTC timezone
delta = obj.replace(tzinfo=_utc_tzinfo) - _epoch
else:
# Object is aware datetime
delta = obj - _epoch
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seconds = delta.seconds + delta.days * 86400
microseconds = delta.microseconds
if microseconds == 0 and 0 <= seconds <= 2**32 - 1:
# 32-bit timestamp
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fp.write(b"\xd6\xff" + struct.pack(">I", seconds))
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elif 0 <= seconds <= 2**34 - 1:
# 64-bit timestamp
value = ((microseconds * 1000) << 34) | seconds
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fp.write(b"\xd7\xff" + struct.pack(">Q", value))
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elif -2**63 <= abs(seconds) <= 2**63 - 1:
# 96-bit timestamp
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fp.write(b"\xc7\x0c\xff" + struct.pack(">Iq", microseconds * 1000, seconds))
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else:
raise UnsupportedTypeException("huge timestamp")
def _pack_array(obj, fp, options):
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obj_len = len(obj)
if obj_len < 16:
fp.write(struct.pack("B", 0x90 | obj_len))
elif obj_len < 2**16:
fp.write(b"\xdc" + struct.pack(">H", obj_len))
elif obj_len < 2**32:
fp.write(b"\xdd" + struct.pack(">I", obj_len))
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else:
raise UnsupportedTypeException("huge array")
for e in obj:
pack(e, fp, **options)
def _pack_map(obj, fp, options):
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obj_len = len(obj)
if obj_len < 16:
fp.write(struct.pack("B", 0x80 | obj_len))
elif obj_len < 2**16:
fp.write(b"\xde" + struct.pack(">H", obj_len))
elif obj_len < 2**32:
fp.write(b"\xdf" + struct.pack(">I", obj_len))
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else:
raise UnsupportedTypeException("huge array")
for k, v in obj.items():
pack(k, fp, **options)
pack(v, fp, **options)
########################################
# Pack for Python 2, with 'unicode' type, 'str' type, and 'long' type
def _pack2(obj, fp, **options):
"""
Serialize a Python object into MessagePack bytes.
Args:
obj: a Python object
fp: a .write()-supporting file-like object
Kwargs:
ext_handlers (dict): dictionary of Ext handlers, mapping a custom type
to a callable that packs an instance of the type
into an Ext object
force_float_precision (str): "single" to force packing floats as
IEEE-754 single-precision floats,
"double" to force packing floats as
IEEE-754 double-precision floats.
Returns:
None.
Raises:
UnsupportedType(PackException):
Object type not supported for packing.
Example:
>>> f = open('test.bin', 'wb')
>>> umsgpack.pack({u"compact": True, u"schema": 0}, f)
>>>
"""
global compatibility
ext_handlers = options.get("ext_handlers")
if obj is None:
_pack_nil(obj, fp, options)
elif ext_handlers and obj.__class__ in ext_handlers:
_pack_ext(ext_handlers[obj.__class__](obj), fp, options)
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elif obj.__class__ in _ext_class_to_type:
try:
_pack_ext(Ext(_ext_class_to_type[obj.__class__], obj.packb()), fp, options)
except AttributeError:
raise NotImplementedError("Ext serializable class {:s} is missing implementation of packb()".format(repr(obj.__class__)))
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elif isinstance(obj, bool):
_pack_boolean(obj, fp, options)
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elif isinstance(obj, (int, long)):
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_pack_integer(obj, fp, options)
elif isinstance(obj, float):
_pack_float(obj, fp, options)
elif compatibility and isinstance(obj, unicode):
_pack_oldspec_raw(bytes(obj), fp, options)
elif compatibility and isinstance(obj, bytes):
_pack_oldspec_raw(obj, fp, options)
elif isinstance(obj, unicode):
_pack_string(obj, fp, options)
elif isinstance(obj, str):
_pack_binary(obj, fp, options)
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elif isinstance(obj, (list, tuple)):
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_pack_array(obj, fp, options)
elif isinstance(obj, dict):
_pack_map(obj, fp, options)
elif isinstance(obj, datetime.datetime):
_pack_ext_timestamp(obj, fp, options)
elif isinstance(obj, Ext):
_pack_ext(obj, fp, options)
elif ext_handlers:
# Linear search for superclass
t = next((t for t in ext_handlers.keys() if isinstance(obj, t)), None)
if t:
_pack_ext(ext_handlers[t](obj), fp, options)
else:
raise UnsupportedTypeException(
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"unsupported type: {:s}".format(str(type(obj))))
elif _ext_class_to_type:
# Linear search for superclass
t = next((t for t in _ext_class_to_type if isinstance(obj, t)), None)
if t:
try:
_pack_ext(Ext(_ext_class_to_type[t], obj.packb()), fp, options)
except AttributeError:
raise NotImplementedError("Ext serializable class {:s} is missing implementation of packb()".format(repr(t)))
else:
raise UnsupportedTypeException("unsupported type: {:s}".format(str(type(obj))))
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else:
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raise UnsupportedTypeException("unsupported type: {:s}".format(str(type(obj))))
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# Pack for Python 3, with unicode 'str' type, 'bytes' type, and no 'long' type
def _pack3(obj, fp, **options):
"""
Serialize a Python object into MessagePack bytes.
Args:
obj: a Python object
fp: a .write()-supporting file-like object
Kwargs:
ext_handlers (dict): dictionary of Ext handlers, mapping a custom type
to a callable that packs an instance of the type
into an Ext object
force_float_precision (str): "single" to force packing floats as
IEEE-754 single-precision floats,
"double" to force packing floats as
IEEE-754 double-precision floats.
Returns:
None.
Raises:
UnsupportedType(PackException):
Object type not supported for packing.
Example:
>>> f = open('test.bin', 'wb')
>>> umsgpack.pack({u"compact": True, u"schema": 0}, f)
>>>
"""
global compatibility
ext_handlers = options.get("ext_handlers")
if obj is None:
_pack_nil(obj, fp, options)
elif ext_handlers and obj.__class__ in ext_handlers:
_pack_ext(ext_handlers[obj.__class__](obj), fp, options)
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elif obj.__class__ in _ext_class_to_type:
try:
_pack_ext(Ext(_ext_class_to_type[obj.__class__], obj.packb()), fp, options)
except AttributeError:
raise NotImplementedError("Ext serializable class {:s} is missing implementation of packb()".format(repr(obj.__class__)))
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elif isinstance(obj, bool):
_pack_boolean(obj, fp, options)
elif isinstance(obj, int):
_pack_integer(obj, fp, options)
elif isinstance(obj, float):
_pack_float(obj, fp, options)
elif compatibility and isinstance(obj, str):
_pack_oldspec_raw(obj.encode('utf-8'), fp, options)
elif compatibility and isinstance(obj, bytes):
_pack_oldspec_raw(obj, fp, options)
elif isinstance(obj, str):
_pack_string(obj, fp, options)
elif isinstance(obj, bytes):
_pack_binary(obj, fp, options)
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elif isinstance(obj, (list, tuple)):
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_pack_array(obj, fp, options)
elif isinstance(obj, dict):
_pack_map(obj, fp, options)
elif isinstance(obj, datetime.datetime):
_pack_ext_timestamp(obj, fp, options)
elif isinstance(obj, Ext):
_pack_ext(obj, fp, options)
elif ext_handlers:
# Linear search for superclass
t = next((t for t in ext_handlers.keys() if isinstance(obj, t)), None)
if t:
_pack_ext(ext_handlers[t](obj), fp, options)
else:
raise UnsupportedTypeException(
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"unsupported type: {:s}".format(str(type(obj))))
elif _ext_class_to_type:
# Linear search for superclass
t = next((t for t in _ext_class_to_type if isinstance(obj, t)), None)
if t:
try:
_pack_ext(Ext(_ext_class_to_type[t], obj.packb()), fp, options)
except AttributeError:
raise NotImplementedError("Ext serializable class {:s} is missing implementation of packb()".format(repr(t)))
else:
raise UnsupportedTypeException("unsupported type: {:s}".format(str(type(obj))))
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else:
raise UnsupportedTypeException(
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"unsupported type: {:s}".format(str(type(obj))))
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def _packb2(obj, **options):
"""
Serialize a Python object into MessagePack bytes.
Args:
obj: a Python object
Kwargs:
ext_handlers (dict): dictionary of Ext handlers, mapping a custom type
to a callable that packs an instance of the type
into an Ext object
force_float_precision (str): "single" to force packing floats as
IEEE-754 single-precision floats,
"double" to force packing floats as
IEEE-754 double-precision floats.
Returns:
A 'str' containing serialized MessagePack bytes.
Raises:
UnsupportedType(PackException):
Object type not supported for packing.
Example:
>>> umsgpack.packb({u"compact": True, u"schema": 0})
'\x82\xa7compact\xc3\xa6schema\x00'
>>>
"""
fp = io.BytesIO()
_pack2(obj, fp, **options)
return fp.getvalue()
def _packb3(obj, **options):
"""
Serialize a Python object into MessagePack bytes.
Args:
obj: a Python object
Kwargs:
ext_handlers (dict): dictionary of Ext handlers, mapping a custom type
to a callable that packs an instance of the type
into an Ext object
force_float_precision (str): "single" to force packing floats as
IEEE-754 single-precision floats,
"double" to force packing floats as
IEEE-754 double-precision floats.
Returns:
A 'bytes' containing serialized MessagePack bytes.
Raises:
UnsupportedType(PackException):
Object type not supported for packing.
Example:
>>> umsgpack.packb({u"compact": True, u"schema": 0})
b'\x82\xa7compact\xc3\xa6schema\x00'
>>>
"""
fp = io.BytesIO()
_pack3(obj, fp, **options)
return fp.getvalue()
#############################################################################
# Unpacking
#############################################################################
def _read_except(fp, n):
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if n == 0:
return b""
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data = fp.read(n)
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if len(data) == 0:
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raise InsufficientDataException()
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while len(data) < n:
chunk = fp.read(n - len(data))
if len(chunk) == 0:
raise InsufficientDataException()
data += chunk
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return data
def _unpack_integer(code, fp, options):
if (ord(code) & 0xe0) == 0xe0:
return struct.unpack("b", code)[0]
elif code == b'\xd0':
return struct.unpack("b", _read_except(fp, 1))[0]
elif code == b'\xd1':
return struct.unpack(">h", _read_except(fp, 2))[0]
elif code == b'\xd2':
return struct.unpack(">i", _read_except(fp, 4))[0]
elif code == b'\xd3':
return struct.unpack(">q", _read_except(fp, 8))[0]
elif (ord(code) & 0x80) == 0x00:
return struct.unpack("B", code)[0]
elif code == b'\xcc':
return struct.unpack("B", _read_except(fp, 1))[0]
elif code == b'\xcd':
return struct.unpack(">H", _read_except(fp, 2))[0]
elif code == b'\xce':
return struct.unpack(">I", _read_except(fp, 4))[0]
elif code == b'\xcf':
return struct.unpack(">Q", _read_except(fp, 8))[0]
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raise Exception("logic error, not int: 0x{:02x}".format(ord(code)))
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def _unpack_reserved(code, fp, options):
if code == b'\xc1':
raise ReservedCodeException(
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"encountered reserved code: 0x{:02x}".format(ord(code)))
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raise Exception(
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"logic error, not reserved code: 0x{:02x}".format(ord(code)))
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def _unpack_nil(code, fp, options):
if code == b'\xc0':
return None
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raise Exception("logic error, not nil: 0x{:02x}".format(ord(code)))
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def _unpack_boolean(code, fp, options):
if code == b'\xc2':
return False
elif code == b'\xc3':
return True
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raise Exception("logic error, not boolean: 0x{:02x}".format(ord(code)))
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def _unpack_float(code, fp, options):
if code == b'\xca':
return struct.unpack(">f", _read_except(fp, 4))[0]
elif code == b'\xcb':
return struct.unpack(">d", _read_except(fp, 8))[0]
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raise Exception("logic error, not float: 0x{:02x}".format(ord(code)))
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def _unpack_string(code, fp, options):
if (ord(code) & 0xe0) == 0xa0:
length = ord(code) & ~0xe0
elif code == b'\xd9':
length = struct.unpack("B", _read_except(fp, 1))[0]
elif code == b'\xda':
length = struct.unpack(">H", _read_except(fp, 2))[0]
elif code == b'\xdb':
length = struct.unpack(">I", _read_except(fp, 4))[0]
else:
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raise Exception("logic error, not string: 0x{:02x}".format(ord(code)))
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# Always return raw bytes in compatibility mode
global compatibility
if compatibility:
return _read_except(fp, length)
data = _read_except(fp, length)
try:
return bytes.decode(data, 'utf-8')
except UnicodeDecodeError:
if options.get("allow_invalid_utf8"):
return InvalidString(data)
raise InvalidStringException("unpacked string is invalid utf-8")
def _unpack_binary(code, fp, options):
if code == b'\xc4':
length = struct.unpack("B", _read_except(fp, 1))[0]
elif code == b'\xc5':
length = struct.unpack(">H", _read_except(fp, 2))[0]
elif code == b'\xc6':
length = struct.unpack(">I", _read_except(fp, 4))[0]
else:
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raise Exception("logic error, not binary: 0x{:02x}".format(ord(code)))
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return _read_except(fp, length)
def _unpack_ext(code, fp, options):
if code == b'\xd4':
length = 1
elif code == b'\xd5':
length = 2
elif code == b'\xd6':
length = 4
elif code == b'\xd7':
length = 8
elif code == b'\xd8':
length = 16
elif code == b'\xc7':
length = struct.unpack("B", _read_except(fp, 1))[0]
elif code == b'\xc8':
length = struct.unpack(">H", _read_except(fp, 2))[0]
elif code == b'\xc9':
length = struct.unpack(">I", _read_except(fp, 4))[0]
else:
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raise Exception("logic error, not ext: 0x{:02x}".format(ord(code)))
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ext_type = struct.unpack("b", _read_except(fp, 1))[0]
ext_data = _read_except(fp, length)
# Unpack with ext handler, if we have one
ext_handlers = options.get("ext_handlers")
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if ext_handlers and ext_type in ext_handlers:
return ext_handlers[ext_type](Ext(ext_type, ext_data))
# Unpack with ext classes, if type is registered
if ext_type in _ext_type_to_class:
try:
return _ext_type_to_class[ext_type].unpackb(ext_data)
except AttributeError:
raise NotImplementedError("Ext serializable class {:s} is missing implementation of unpackb()".format(repr(_ext_type_to_class[ext_type])))
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# Timestamp extension
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if ext_type == -1:
return _unpack_ext_timestamp(ext_data, options)
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return Ext(ext_type, ext_data)
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def _unpack_ext_timestamp(ext_data, options):
obj_len = len(ext_data)
if obj_len == 4:
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# 32-bit timestamp
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seconds = struct.unpack(">I", ext_data)[0]
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microseconds = 0
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elif obj_len == 8:
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# 64-bit timestamp
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value = struct.unpack(">Q", ext_data)[0]
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seconds = value & 0x3ffffffff
microseconds = (value >> 34) // 1000
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elif obj_len == 12:
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# 96-bit timestamp
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seconds = struct.unpack(">q", ext_data[4:12])[0]
microseconds = struct.unpack(">I", ext_data[0:4])[0] // 1000
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else:
raise UnsupportedTimestampException(
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"unsupported timestamp with data length {:d}".format(len(ext_data)))
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return _epoch + datetime.timedelta(seconds=seconds,
microseconds=microseconds)
def _unpack_array(code, fp, options):
if (ord(code) & 0xf0) == 0x90:
length = (ord(code) & ~0xf0)
elif code == b'\xdc':
length = struct.unpack(">H", _read_except(fp, 2))[0]
elif code == b'\xdd':
length = struct.unpack(">I", _read_except(fp, 4))[0]
else:
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raise Exception("logic error, not array: 0x{:02x}".format(ord(code)))
if options.get('use_tuple'):
return tuple((_unpack(fp, options) for i in xrange(length)))
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return [_unpack(fp, options) for i in xrange(length)]
def _deep_list_to_tuple(obj):
if isinstance(obj, list):
return tuple([_deep_list_to_tuple(e) for e in obj])
return obj
def _unpack_map(code, fp, options):
if (ord(code) & 0xf0) == 0x80:
length = (ord(code) & ~0xf0)
elif code == b'\xde':
length = struct.unpack(">H", _read_except(fp, 2))[0]
elif code == b'\xdf':
length = struct.unpack(">I", _read_except(fp, 4))[0]
else:
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raise Exception("logic error, not map: 0x{:02x}".format(ord(code)))
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d = {} if not options.get('use_ordered_dict') else collections.OrderedDict()
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for _ in xrange(length):
# Unpack key
k = _unpack(fp, options)
if isinstance(k, list):
# Attempt to convert list into a hashable tuple
k = _deep_list_to_tuple(k)
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elif not isinstance(k, Hashable):
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raise UnhashableKeyException(
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"encountered unhashable key: \"{:s}\" ({:s})".format(str(k), str(type(k))))
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elif k in d:
raise DuplicateKeyException(
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"encountered duplicate key: \"{:s}\" ({:s})".format(str(k), str(type(k))))
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# Unpack value
v = _unpack(fp, options)
try:
d[k] = v
except TypeError:
raise UnhashableKeyException(
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"encountered unhashable key: \"{:s}\"".format(str(k)))
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return d
def _unpack(fp, options):
code = _read_except(fp, 1)
return _unpack_dispatch_table[code](code, fp, options)
########################################
def _unpack2(fp, **options):
"""
Deserialize MessagePack bytes into a Python object.
Args:
fp: a .read()-supporting file-like object
Kwargs:
ext_handlers (dict): dictionary of Ext handlers, mapping integer Ext
type to a callable that unpacks an instance of
Ext into an object
use_ordered_dict (bool): unpack maps into OrderedDict, instead of
unordered dict (default False)
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use_tuple (bool): unpacks arrays into tuples, instead of lists (default
False)
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allow_invalid_utf8 (bool): unpack invalid strings into instances of
InvalidString, for access to the bytes
(default False)
Returns:
A Python object.
Raises:
InsufficientDataException(UnpackException):
Insufficient data to unpack the serialized object.
InvalidStringException(UnpackException):
Invalid UTF-8 string encountered during unpacking.
UnsupportedTimestampException(UnpackException):
Unsupported timestamp format encountered during unpacking.
ReservedCodeException(UnpackException):
Reserved code encountered during unpacking.
UnhashableKeyException(UnpackException):
Unhashable key encountered during map unpacking.
The serialized map cannot be deserialized into a Python dictionary.
DuplicateKeyException(UnpackException):
Duplicate key encountered during map unpacking.
Example:
>>> f = open('test.bin', 'rb')
>>> umsgpack.unpackb(f)
{u'compact': True, u'schema': 0}
>>>
"""
return _unpack(fp, options)
def _unpack3(fp, **options):
"""
Deserialize MessagePack bytes into a Python object.
Args:
fp: a .read()-supporting file-like object
Kwargs:
ext_handlers (dict): dictionary of Ext handlers, mapping integer Ext
type to a callable that unpacks an instance of
Ext into an object
use_ordered_dict (bool): unpack maps into OrderedDict, instead of
unordered dict (default False)
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use_tuple (bool): unpacks arrays into tuples, instead of lists (default
False)
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allow_invalid_utf8 (bool): unpack invalid strings into instances of
InvalidString, for access to the bytes
(default False)
Returns:
A Python object.
Raises:
InsufficientDataException(UnpackException):
Insufficient data to unpack the serialized object.
InvalidStringException(UnpackException):
Invalid UTF-8 string encountered during unpacking.
UnsupportedTimestampException(UnpackException):
Unsupported timestamp format encountered during unpacking.
ReservedCodeException(UnpackException):
Reserved code encountered during unpacking.
UnhashableKeyException(UnpackException):
Unhashable key encountered during map unpacking.
The serialized map cannot be deserialized into a Python dictionary.
DuplicateKeyException(UnpackException):
Duplicate key encountered during map unpacking.
Example:
>>> f = open('test.bin', 'rb')
>>> umsgpack.unpackb(f)
{'compact': True, 'schema': 0}
>>>
"""
return _unpack(fp, options)
# For Python 2, expects a str object
def _unpackb2(s, **options):
"""
Deserialize MessagePack bytes into a Python object.
Args:
s: a 'str' or 'bytearray' containing serialized MessagePack bytes
Kwargs:
ext_handlers (dict): dictionary of Ext handlers, mapping integer Ext
type to a callable that unpacks an instance of
Ext into an object
use_ordered_dict (bool): unpack maps into OrderedDict, instead of
unordered dict (default False)
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use_tuple (bool): unpacks arrays into tuples, instead of lists (default
False)
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allow_invalid_utf8 (bool): unpack invalid strings into instances of
InvalidString, for access to the bytes
(default False)
Returns:
A Python object.
Raises:
TypeError:
Packed data type is neither 'str' nor 'bytearray'.
InsufficientDataException(UnpackException):
Insufficient data to unpack the serialized object.
InvalidStringException(UnpackException):
Invalid UTF-8 string encountered during unpacking.
UnsupportedTimestampException(UnpackException):
Unsupported timestamp format encountered during unpacking.
ReservedCodeException(UnpackException):
Reserved code encountered during unpacking.
UnhashableKeyException(UnpackException):
Unhashable key encountered during map unpacking.
The serialized map cannot be deserialized into a Python dictionary.
DuplicateKeyException(UnpackException):
Duplicate key encountered during map unpacking.
Example:
>>> umsgpack.unpackb(b'\x82\xa7compact\xc3\xa6schema\x00')
{u'compact': True, u'schema': 0}
>>>
"""
if not isinstance(s, (str, bytearray)):
raise TypeError("packed data must be type 'str' or 'bytearray'")
return _unpack(io.BytesIO(s), options)
# For Python 3, expects a bytes object
def _unpackb3(s, **options):
"""
Deserialize MessagePack bytes into a Python object.
Args:
s: a 'bytes' or 'bytearray' containing serialized MessagePack bytes
Kwargs:
ext_handlers (dict): dictionary of Ext handlers, mapping integer Ext
type to a callable that unpacks an instance of
Ext into an object
use_ordered_dict (bool): unpack maps into OrderedDict, instead of
unordered dict (default False)
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use_tuple (bool): unpacks arrays into tuples, instead of lists (default
False)
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allow_invalid_utf8 (bool): unpack invalid strings into instances of
InvalidString, for access to the bytes
(default False)
Returns:
A Python object.
Raises:
TypeError:
Packed data type is neither 'bytes' nor 'bytearray'.
InsufficientDataException(UnpackException):
Insufficient data to unpack the serialized object.
InvalidStringException(UnpackException):
Invalid UTF-8 string encountered during unpacking.
UnsupportedTimestampException(UnpackException):
Unsupported timestamp format encountered during unpacking.
ReservedCodeException(UnpackException):
Reserved code encountered during unpacking.
UnhashableKeyException(UnpackException):
Unhashable key encountered during map unpacking.
The serialized map cannot be deserialized into a Python dictionary.
DuplicateKeyException(UnpackException):
Duplicate key encountered during map unpacking.
Example:
>>> umsgpack.unpackb(b'\x82\xa7compact\xc3\xa6schema\x00')
{'compact': True, 'schema': 0}
>>>
"""
if not isinstance(s, (bytes, bytearray)):
raise TypeError("packed data must be type 'bytes' or 'bytearray'")
return _unpack(io.BytesIO(s), options)
#############################################################################
# Module Initialization
#############################################################################
def __init():
global pack
global packb
global unpack
global unpackb
global dump
global dumps
global load
global loads
global compatibility
global _epoch
global _utc_tzinfo
global _float_precision
global _unpack_dispatch_table
global xrange
# Compatibility mode for handling strings/bytes with the old specification
compatibility = False
if sys.version_info[0] == 3:
_utc_tzinfo = datetime.timezone.utc
else:
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class UTC(datetime.tzinfo):
ZERO = datetime.timedelta(0)
def utcoffset(self, dt):
return UTC.ZERO
def tzname(self, dt):
return "UTC"
def dst(self, dt):
return UTC.ZERO
_utc_tzinfo = UTC()
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# Calculate an aware epoch datetime
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_epoch = datetime.datetime(1970, 1, 1, tzinfo=_utc_tzinfo)
# Auto-detect system float precision
if sys.float_info.mant_dig == 53:
_float_precision = "double"
else:
_float_precision = "single"
# Map packb and unpackb to the appropriate version
if sys.version_info[0] == 3:
pack = _pack3
packb = _packb3
dump = _pack3
dumps = _packb3
unpack = _unpack3
unpackb = _unpackb3
load = _unpack3
loads = _unpackb3
xrange = range
else:
pack = _pack2
packb = _packb2
dump = _pack2
dumps = _packb2
unpack = _unpack2
unpackb = _unpackb2
load = _unpack2
loads = _unpackb2
# Build a dispatch table for fast lookup of unpacking function
_unpack_dispatch_table = {}
# Fix uint
for code in range(0, 0x7f + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_integer
# Fix map
for code in range(0x80, 0x8f + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_map
# Fix array
for code in range(0x90, 0x9f + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_array
# Fix str
for code in range(0xa0, 0xbf + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_string
# Nil
_unpack_dispatch_table[b'\xc0'] = _unpack_nil
# Reserved
_unpack_dispatch_table[b'\xc1'] = _unpack_reserved
# Boolean
_unpack_dispatch_table[b'\xc2'] = _unpack_boolean
_unpack_dispatch_table[b'\xc3'] = _unpack_boolean
# Bin
for code in range(0xc4, 0xc6 + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_binary
# Ext
for code in range(0xc7, 0xc9 + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_ext
# Float
_unpack_dispatch_table[b'\xca'] = _unpack_float
_unpack_dispatch_table[b'\xcb'] = _unpack_float
# Uint
for code in range(0xcc, 0xcf + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_integer
# Int
for code in range(0xd0, 0xd3 + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_integer
# Fixext
for code in range(0xd4, 0xd8 + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_ext
# String
for code in range(0xd9, 0xdb + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_string
# Array
_unpack_dispatch_table[b'\xdc'] = _unpack_array
_unpack_dispatch_table[b'\xdd'] = _unpack_array
# Map
_unpack_dispatch_table[b'\xde'] = _unpack_map
_unpack_dispatch_table[b'\xdf'] = _unpack_map
# Negative fixint
for code in range(0xe0, 0xff + 1):
_unpack_dispatch_table[struct.pack("B", code)] = _unpack_integer
__init()