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#!/usr/bin/python -OOOO
# vim: set fileencoding=utf8 shiftwidth=4 tabstop=4 textwidth=80 foldmethod=marker :
# Copyright (c) 2010, Kou Man Tong. All rights reserved.
# Copyright (c) 2015, Ayun Park. All rights reserved.
# For licensing, see LICENSE file included in the package.
"""
Base codec functions for bson.
"""
import struct
import warnings
from datetime import datetime
from abc import ABCMeta, abstractmethod
from uuid import UUID
from decimal import Decimal
try:
from io import BytesIO as StringIO
except ImportError:
from cStringIO import StringIO
import calendar
from dateutil.tz import tzutc
from binascii import b2a_hex
from six import integer_types, iterkeys, text_type, PY3
from six.moves import xrange
utc = tzutc()
class MissingClassDefinition(ValueError):
def __init__(self, class_name):
super(MissingClassDefinition,
self).__init__("No class definition for class %s" % (class_name,))
class UnknownSerializerError(ValueError):
def __init__(self, key, value):
super(UnknownSerializerError,
self).__init__("Unable to serialize: key '%s' value: %s type: %s" % (key,value, type(value)))
class MissingTimezoneWarning(RuntimeWarning):
def __init__(self, *args):
args = list(args)
if len(args) < 1:
args.append("Input datetime object has no tzinfo, assuming UTC.")
super(MissingTimezoneWarning, self).__init__(*args)
class TraversalStep(object):
def __init__(self, parent, key):
self.parent = parent
self.key = key
class BSONCoding(object):
__metaclass__ = ABCMeta
@abstractmethod
def bson_encode(self):
pass
@abstractmethod
def bson_init(self, raw_values):
pass
classes = {}
def import_class(cls):
if not issubclass(cls, BSONCoding):
return
global classes
classes[cls.__name__] = cls
def import_classes(*args):
for cls in args:
import_class(cls)
def import_classes_from_modules(*args):
for module in args:
for item in module.__dict__:
if hasattr(item, "__new__") and hasattr(item, "__name__"):
import_class(item)
def encode_object(obj, traversal_stack, generator_func, on_unknown=None):
values = obj.bson_encode()
class_name = obj.__class__.__name__
values["$$__CLASS_NAME__$$"] = class_name
return encode_document(values, traversal_stack, obj,
generator_func, on_unknown)
def encode_object_element(name, value, traversal_stack,
generator_func, on_unknown):
return b"\x03" + encode_cstring(name) + \
encode_object(value, traversal_stack,
generator_func=generator_func, on_unknown=on_unknown)
class _EmptyClass(object):
pass
def decode_object(raw_values):
global classes
class_name = raw_values["$$__CLASS_NAME__$$"]
try:
cls = classes[class_name]
except KeyError:
raise MissingClassDefinition(class_name)
retval = _EmptyClass()
retval.__class__ = cls
alt_retval = retval.bson_init(raw_values)
return alt_retval or retval
def encode_string(value):
value = value.encode("utf-8")
length = len(value)
return struct.pack("<i%dsb" % (length,), length + 1, value, 0)
def encode_cstring(value):
if not isinstance(value, bytes):
value = text_type(value).encode("utf-8")
if b"\x00" in value:
raise ValueError("Element names may not include NUL bytes.")
# A NUL byte is used to delimit our string, accepting one would cause
# our string to terminate early.
return value + b"\x00"
def encode_binary(value, binary_subtype=0):
length = len(value)
return struct.pack("<ib", length, binary_subtype) + value
def encode_double(value):
return struct.pack("<d", value)
ELEMENT_TYPES = {
0x01: "double",
0x02: "string",
0x03: "document",
0x04: "array",
0x05: "binary",
0x07: "object_id",
0x08: "boolean",
0x09: "UTCdatetime",
0x0A: "none",
0x10: "int32",
0x11: "uint64",
0x12: "int64"
}
def encode_double_element(name, value):
return b"\x01" + encode_cstring(name) + encode_double(value)
def encode_string_element(name, value):
return b"\x02" + encode_cstring(name) + encode_string(value)
def _is_string(value):
if isinstance(value, text_type):
return True
elif isinstance(value, str) or isinstance(value, bytes):
try:
unicode(value, errors='strict')
return True
except:
pass
return False
def encode_value(name, value, buf, traversal_stack,
generator_func, on_unknown=None):
if isinstance(value, bool):
buf.write(encode_boolean_element(name, value))
elif isinstance(value, integer_types):
if value < -0x80000000 or 0x7FFFFFFFFFFFFFFF >= value > 0x7fffffff:
buf.write(encode_int64_element(name, value))
elif value > 0x7FFFFFFFFFFFFFFF:
if value > 0xFFFFFFFFFFFFFFFF:
raise Exception("BSON format supports only int value < %s" % 0xFFFFFFFFFFFFFFFF)
buf.write(encode_uint64_element(name, value))
else:
buf.write(encode_int32_element(name, value))
elif isinstance(value, float):
buf.write(encode_double_element(name, value))
elif _is_string(value):
buf.write(encode_string_element(name, value))
elif isinstance(value, str) or isinstance(value, bytes):
buf.write(encode_binary_element(name, value))
elif isinstance(value, UUID):
buf.write(encode_binary_element(name, value.bytes, binary_subtype=4))
elif isinstance(value, datetime):
buf.write(encode_utc_datetime_element(name, value))
elif value is None:
buf.write(encode_none_element(name, value))
elif isinstance(value, dict):
buf.write(encode_document_element(name, value, traversal_stack,
generator_func, on_unknown))
elif isinstance(value, list) or isinstance(value, tuple):
buf.write(encode_array_element(name, value, traversal_stack,
generator_func, on_unknown))
elif isinstance(value, BSONCoding):
buf.write(encode_object_element(name, value, traversal_stack,
generator_func, on_unknown))
elif isinstance(value, Decimal):
buf.write(encode_double_element(name, float(value)))
else:
if on_unknown is not None:
encode_value(name, on_unknown(value), buf, traversal_stack,
generator_func, on_unknown)
else:
raise UnknownSerializerError(name, value)
def encode_document(obj, traversal_stack, traversal_parent=None,
generator_func=None, on_unknown=None):
buf = StringIO()
key_iter = iterkeys(obj)
if generator_func is not None:
key_iter = generator_func(obj, traversal_stack)
for name in key_iter:
value = obj[name]
traversal_stack.append(TraversalStep(traversal_parent or obj, name))
encode_value(name, value, buf, traversal_stack,
generator_func, on_unknown)
traversal_stack.pop()
e_list = buf.getvalue()
e_list_length = len(e_list)
return struct.pack("<i%dsb" % (e_list_length,),
e_list_length + 4 + 1, e_list, 0)
def encode_array(array, traversal_stack, traversal_parent=None,
generator_func=None, on_unknown=None):
buf = StringIO()
for i in xrange(0, len(array)):
value = array[i]
traversal_stack.append(TraversalStep(traversal_parent or array, i))
encode_value(str(i), value, buf, traversal_stack,
generator_func, on_unknown)
traversal_stack.pop()
e_list = buf.getvalue()
e_list_length = len(e_list)
return struct.pack("<i%dsb" % (e_list_length,),
e_list_length + 4 + 1, e_list, 0)
def decode_binary_subtype(value, binary_subtype):
if binary_subtype in [0x03, 0x04]: # legacy UUID, UUID
return UUID(bytes=value)
return value
def decode_document(data, base, as_array=False):
# Create all the struct formats we might use.
double_struct = struct.Struct("<d")
int_struct = struct.Struct("<i")
char_struct = struct.Struct("<b")
long_struct = struct.Struct("<q")
uint64_struct = struct.Struct("<Q")
int_char_struct = struct.Struct("<ib")
length = struct.unpack("<i", data[base:base + 4])[0]
end_point = base + length
if data[end_point - 1] not in ('\0', 0):
raise ValueError('missing null-terminator in document')
base += 4
retval = [] if as_array else {}
decode_name = not as_array
while base < end_point - 1:
element_type = char_struct.unpack(data[base:base + 1])[0]
if PY3:
ll = data.index(0, base + 1) + 1
else:
ll = data.index("\x00", base + 1) + 1
if decode_name:
name = data[base + 1:ll - 1]
try:
name = name.decode("utf-8")
except UnicodeDecodeError:
pass
else:
name = None
base = ll
if element_type == 0x01: # double
value = double_struct.unpack(data[base: base + 8])[0]
base += 8
elif element_type == 0x02: # string
length = int_struct.unpack(data[base:base + 4])[0]
value = data[base + 4: base + 4 + length - 1]
value = value.decode("utf-8")
base += 4 + length
elif element_type == 0x03: # document
base, value = decode_document(data, base)
elif element_type == 0x04: # array
base, value = decode_document(data, base, as_array=True)
elif element_type == 0x05: # binary
length, binary_subtype = int_char_struct.unpack(
data[base:base + 5])
value = data[base + 5:base + 5 + length]
value = decode_binary_subtype(value, binary_subtype)
base += 5 + length
elif element_type == 0x07: # object_id
value = b2a_hex(data[base:base + 12])
base += 12
elif element_type == 0x08: # boolean
value = bool(char_struct.unpack(data[base:base + 1])[0])
base += 1
elif element_type == 0x09: # UTCdatetime
value = datetime.fromtimestamp(
long_struct.unpack(data[base:base + 8])[0] / 1000.0, utc)
base += 8
elif element_type == 0x0A: # none
value = None
elif element_type == 0x10: # int32
value = int_struct.unpack(data[base:base + 4])[0]
base += 4
elif element_type == 0x11: # uint64
value = uint64_struct.unpack(data[base:base + 8])[0]
base += 8
elif element_type == 0x12: # int64
value = long_struct.unpack(data[base:base + 8])[0]
base += 8
if as_array:
retval.append(value)
else:
retval[name] = value
if "$$__CLASS_NAME__$$" in retval:
retval = decode_object(retval)
return end_point, retval
def encode_document_element(name, value, traversal_stack,
generator_func, on_unknown):
return b"\x03" + encode_cstring(name) + \
encode_document(value, traversal_stack,
generator_func=generator_func, on_unknown=on_unknown)
def encode_array_element(name, value, traversal_stack,
generator_func, on_unknown):
return b"\x04" + encode_cstring(name) + \
encode_array(value, traversal_stack,
generator_func=generator_func, on_unknown=on_unknown)
def encode_binary_element(name, value, binary_subtype=0):
return b"\x05" + encode_cstring(name) + encode_binary(value, binary_subtype=binary_subtype)
def encode_boolean_element(name, value):
return b"\x08" + encode_cstring(name) + struct.pack("<b", value)
def encode_utc_datetime_element(name, value):
if value.tzinfo is None:
warnings.warn(MissingTimezoneWarning(), None, 4)
value = int(round(calendar.timegm(value.utctimetuple()) * 1000 +
(value.microsecond / 1000.0)))
return b"\x09" + encode_cstring(name) + struct.pack("<q", value)
def encode_none_element(name, value):
return b"\x0a" + encode_cstring(name)
def encode_int32_element(name, value):
value = struct.pack("<i", value)
return b"\x10" + encode_cstring(name) + value
def encode_uint64_element(name, value):
return b"\x11" + encode_cstring(name) + struct.pack("<Q", value)
def encode_int64_element(name, value):
return b"\x12" + encode_cstring(name) + struct.pack("<q", value)
def encode_object_id_element(name, value):
return b"\x07" + encode_cstring(name) + value
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