.. autoclass:: pyderasn.DecodeError
:members: __init__
.. autoclass:: pyderasn.NotEnoughData
+.. autoclass:: pyderasn.ExceedingData
.. autoclass:: pyderasn.LenIndefForm
.. autoclass:: pyderasn.TagMismatch
.. autoclass:: pyderasn.InvalidLength
from os import environ
from string import ascii_letters
from string import digits
+from unicodedata import category as unicat
from six import add_metaclass
from six import binary_type
def colored(what, *args, **kwargs):
return what
-__version__ = "5.5"
+__version__ = "5.6"
__all__ = (
"Any",
"DecodeError",
"DecodePathDefBy",
"Enumerated",
+ "ExceedingData",
"GeneralizedTime",
"GeneralString",
"GraphicString",
pass
+class ExceedingData(ASN1Error):
+ def __init__(self, nbytes):
+ super(ExceedingData, self).__init__()
+ self.nbytes = nbytes
+
+ def __str__(self):
+ return "%d trailing bytes" % self.nbytes
+
+ def __repr__(self):
+ return "%s(%s)" % (self.__class__.__name__, self)
+
+
class LenIndefForm(DecodeError):
pass
)
return obj, (tail if leavemm else tail.tobytes())
+ def decod(self, data, offset=0, decode_path=(), ctx=None):
+ """Decode the data, check that tail is empty
+
+ :raises ExceedingData: if tail is not empty
+
+ This is just a wrapper over :py:meth:`pyderasn.Obj.decode`
+ (decode without tail) that also checks that there is no
+ trailing data left.
+ """
+ obj, tail = self.decode(
+ data,
+ offset=offset,
+ decode_path=decode_path,
+ ctx=ctx,
+ leavemm=True,
+ )
+ if len(tail) > 0:
+ raise ExceedingData(len(tail))
+ return obj
+
@property
def expled(self):
"""See :ref:`decoding`
:param default: set default value. Type same as in ``value``
:param bool optional: is object ``OPTIONAL`` in sequence
"""
- super(OctetString, self).__init__(
- impl,
- expl,
- default,
- optional,
- _decoded,
- )
+ super(OctetString, self).__init__(impl, expl, default, optional, _decoded)
self._value = value
self._bound_min, self._bound_max = getattr(
self,
:param default: set default value. Type same as in ``value``
:param bool optional: is object ``OPTIONAL`` in sequence
"""
- super(ObjectIdentifier, self).__init__(
- impl,
- expl,
- default,
- optional,
- _decoded,
- )
+ super(ObjectIdentifier, self).__init__(impl, expl, default, optional, _decoded)
self._value = value
if value is not None:
self._value = self._value_sanitize(value)
bounds=None, # dummy argument, workability for Integer.decode
):
super(Enumerated, self).__init__(
- value=value,
- impl=impl,
- expl=expl,
- default=default,
- optional=optional,
- _specs=_specs,
- _decoded=_decoded,
+ value, bounds, impl, expl,default, optional, _specs, _decoded,
)
if len(self.specs) == 0:
raise ValueError("schema must be specified")
)
+def escape_control_unicode(c):
+ if unicat(c).startswith("C"):
+ c = repr(c).lstrip("u").strip("'")
+ return c
+
+
class CommonString(OctetString):
"""Common class for all strings
def pps(self, decode_path=(), no_unicode=False):
value = None
if self.ready:
- value = hexenc(bytes(self)) if no_unicode else self.__unicode__()
+ value = (
+ hexenc(bytes(self)) if no_unicode else
+ "".join(escape_control_unicode(c) for c in self.__unicode__())
+ )
yield _pp(
obj=self,
asn1_type_name=self.asn1_type_name,
:param bool optional: is object ``OPTIONAL`` in sequence
"""
super(UTCTime, self).__init__(
- impl=impl,
- expl=expl,
- default=default,
- optional=optional,
- _decoded=_decoded,
+ None, None, impl, expl, default, optional, _decoded,
)
self._value = value
if value is not None:
optional=False,
_decoded=(0, 0, 0),
):
- super(SequenceOf, self).__init__(
- impl,
- expl,
- default,
- optional,
- _decoded,
- )
+ super(SequenceOf, self).__init__(impl, expl, default, optional, _decoded)
if schema is None:
schema = getattr(self, "schema", None)
if schema is None: