with_colours,
))
if with_blob:
- if isinstance(pp.blob, binary_type):
+ if pp.blob.__class__ == binary_type:
cols.append(hexenc(pp.blob))
- elif isinstance(pp.blob, tuple):
+ elif pp.blob.__class__ == tuple:
cols.append(", ".join(pp.blob))
if pp.optional:
cols.append(_colourize("OPTIONAL", "red", with_colours))
decode_path_len = len(pp.decode_path) - decode_path_len_decrease
if decode_path_len > 0:
cols.append(" ." * (decode_path_len + 1))
- if isinstance(pp.blob, binary_type):
+ if pp.blob.__class__ == binary_type:
blob = hexenc(pp.blob).upper()
for i in six_xrange(0, len(blob), 32):
chunk = blob[i:i + 32]
yield " ".join(cols + [colonize_hex(chunk)])
- elif isinstance(pp.blob, tuple):
+ elif pp.blob.__class__ == tuple:
yield " ".join(cols + [", ".join(pp.blob)])
self._value = default
def _value_sanitize(self, value):
- if isinstance(value, bool):
+ if value.__class__ == bool:
return value
if issubclass(value.__class__, Boolean):
return value._value
return self._value
def __eq__(self, their):
- if isinstance(their, bool):
+ if their.__class__ == bool:
return self._value == their
if not issubclass(their.__class__, Boolean):
return False
super(Integer, self).__init__(impl, expl, default, optional, _decoded)
self._value = value
specs = getattr(self, "schema", {}) if _specs is None else _specs
- self.specs = specs if isinstance(specs, dict) else dict(specs)
+ self.specs = specs if specs.__class__ == dict else dict(specs)
self._bound_min, self._bound_max = getattr(
self,
"bounds",
pass
elif issubclass(value.__class__, Integer):
value = value._value
- elif isinstance(value, str):
+ elif value.__class__ == str:
value = self.specs.get(value)
if value is None:
raise ObjUnknown("integer value: %s" % value)
"""
super(BitString, self).__init__(impl, expl, default, optional, _decoded)
specs = getattr(self, "schema", {}) if _specs is None else _specs
- self.specs = specs if isinstance(specs, dict) else dict(specs)
+ self.specs = specs if specs.__class__ == dict else dict(specs)
self._value = None if value is None else self._value_sanitize(value)
if default is not None:
default = self._value_sanitize(default)
len(value) * 4,
hexdec(value + ("" if len(value) % 2 == 0 else "0")),
)
- if isinstance(value, binary_type):
+ if value.__class__ == binary_type:
return (len(value) * 8, value)
raise InvalidValueType((self.__class__, string_types, binary_type))
- if isinstance(value, tuple):
+ if value.__class__ == tuple:
if (
len(value) == 2 and
isinstance(value[0], integer_types) and
- isinstance(value[1], binary_type)
+ value[1].__class__ == binary_type
):
return value
bits = []
return self._value[1]
def __eq__(self, their):
- if isinstance(their, bytes):
+ if their.__class__ == bytes:
return self._value[1] == their
if not issubclass(their.__class__, BitString):
return False
)
def __getitem__(self, key):
- if isinstance(key, int):
+ if key.__class__ == int:
bit_len, octets = self._value
if key >= bit_len:
return False
)
def _value_sanitize(self, value):
- if isinstance(value, binary_type):
+ if value.__class__ == binary_type:
pass
elif issubclass(value.__class__, OctetString):
value = value._value
return self._value
def __eq__(self, their):
- if isinstance(their, binary_type):
+ if their.__class__ == binary_type:
return self._value == their
if not issubclass(their.__class__, OctetString):
return False
self.defines = defines
def __add__(self, their):
+ if their.__class__ == tuple:
+ return self.__class__(self._value + their)
if isinstance(their, self.__class__):
return self.__class__(self._value + their._value)
- if isinstance(their, tuple):
- return self.__class__(self._value + their)
raise InvalidValueType((self.__class__, tuple))
def _value_sanitize(self, value):
value = tuple(pureint(arc) for arc in value.split("."))
except ValueError:
raise InvalidOID("unacceptable arcs values")
- if isinstance(value, tuple):
+ if value.__class__ == tuple:
if len(value) < 2:
raise InvalidOID("less than 2 arcs")
first_arc = value[0]
)
def __eq__(self, their):
- if isinstance(their, tuple):
+ if their.__class__ == tuple:
return self._value == their
if not issubclass(their.__class__, ObjectIdentifier):
return False
value_decoded = None
if isinstance(value, self.__class__):
value_raw = value._value
- elif isinstance(value, text_type):
+ elif value.__class__ == text_type:
value_decoded = value
- elif isinstance(value, binary_type):
+ elif value.__class__ == binary_type:
value_raw = value
else:
raise InvalidValueType((self.__class__, text_type, binary_type))
return value_raw
def __eq__(self, their):
- if isinstance(their, binary_type):
+ if their.__class__ == binary_type:
return self._value == their
- if isinstance(their, text_type):
+ if their.__class__ == text_type:
return self._value == their.encode(self.encoding)
if not isinstance(their, self.__class__):
return False
>>> UTCTime(datetime(2057, 9, 30, 22, 7, 50)).todatetime()
datetime.datetime(1957, 9, 30, 22, 7, 50)
+ If BER encoded value was met, then ``ber_raw`` attribute will hold
+ its raw representation.
+
.. warning::
Pay attention that UTCTime can not hold full year, so all years
* minutes are not exceeding 60
* offset value is not exceeding 14 hours
"""
- __slots__ = ("_ber_raw",)
+ __slots__ = ("ber_raw",)
tag_default = tag_encode(23)
encoding = "ascii"
asn1_type_name = "UTCTime"
None, None, impl, expl, None, optional, _decoded, ctx,
)
self._value = value
- self._ber_raw = None
+ self.ber_raw = None
if value is not None:
- self._value, self._ber_raw = self._value_sanitize(value, ctx)
- self.ber_encoded = self._ber_raw is not None
+ self._value, self.ber_raw = self._value_sanitize(value, ctx)
+ self.ber_encoded = self.ber_raw is not None
if default is not None:
default, _ = self._value_sanitize(default)
self.default = self.__class__(
return value.replace(microsecond=0)
def _value_sanitize(self, value, ctx=None):
- if isinstance(value, binary_type):
+ if value.__class__ == binary_type:
try:
value_decoded = value.decode("ascii")
except (UnicodeEncodeError, UnicodeDecodeError) as err:
try:
offset, _value = self._strptime_bered(value_decoded)
_value = _value - timedelta(seconds=offset)
- return self._dt_sanitize(_value), value_decoded
+ return self._dt_sanitize(_value), value
except (TypeError, ValueError, OverflowError) as _err:
err = _err
raise DecodeError(
)
if isinstance(value, self.__class__):
return value._value, None
- if isinstance(value, datetime):
+ if value.__class__ == datetime:
return self._dt_sanitize(value), None
raise InvalidValueType((self.__class__, datetime))
if self.ready:
value = self._value.isoformat()
if self.ber_encoded:
- value += " (%s)" % self._ber_raw
+ value += " (%s)" % self.ber_raw
return value
def __unicode__(self):
if self.ready:
value = self._value.isoformat()
if self.ber_encoded:
- value += " (%s)" % self._ber_raw
+ value += " (%s)" % self.ber_raw
return value
return text_type(self._pp_value())
def __getstate__(self):
return UTCTimeState(
*super(UTCTime, self).__getstate__(),
- **{"ber_raw": self._ber_raw}
+ **{"ber_raw": self.ber_raw}
)
def __setstate__(self, state):
super(UTCTime, self).__setstate__(state)
- self._ber_raw = state.ber_raw
+ self.ber_raw = state.ber_raw
def __bytes__(self):
self._assert_ready()
return self._encode_time()
def __eq__(self, their):
- if isinstance(their, binary_type):
+ if their.__class__ == binary_type:
return self._encode_time() == their
- if isinstance(their, datetime):
+ if their.__class__ == datetime:
return self.todatetime() == their
if not isinstance(their, self.__class__):
return False
if len(schema) == 0:
raise ValueError("schema must be specified")
self.specs = (
- schema if isinstance(schema, OrderedDict) else OrderedDict(schema)
+ schema if schema.__class__ == OrderedDict else OrderedDict(schema)
)
self._value = None
if value is not None:
self._value = copy(default_obj._value)
def _value_sanitize(self, value):
- if isinstance(value, tuple) and len(value) == 2:
+ if (value.__class__ == tuple) and len(value) == 2:
choice, obj = value
spec = self.specs.get(choice)
if spec is None:
self.ber_encoded = state.ber_encoded
def __eq__(self, their):
- if isinstance(their, tuple) and len(their) == 2:
+ if (their.__class__ == tuple) and len(their) == 2:
return self._value == their
if not isinstance(their, self.__class__):
return False
self.defined = None
def _value_sanitize(self, value):
- if isinstance(value, binary_type):
+ if value.__class__ == binary_type:
return value
if isinstance(value, self.__class__):
return value._value
self.defined = state.defined
def __eq__(self, their):
- if isinstance(their, binary_type):
+ if their.__class__ == binary_type:
return self._value == their
if issubclass(their.__class__, Any):
return self._value == their._value
if schema is None:
schema = getattr(self, "schema", ())
self.specs = (
- schema if isinstance(schema, OrderedDict) else OrderedDict(schema)
+ schema if schema.__class__ == OrderedDict else OrderedDict(schema)
)
self._value = {}
if value is not None: