* :ref:`allow_default_values <allow_default_values_ctx>`
* :ref:`allow_expl_oob <allow_expl_oob_ctx>`
+* :ref:`allow_unordered_set <allow_unordered_set_ctx>`
* :ref:`bered <bered_ctx>`
* :ref:`defines_by_path <defines_by_path_ctx>`
"""``SET`` structure type
Its usage is identical to :py:class:`pyderasn.Sequence`.
+
+ .. _allow_unordered_set_ctx:
+
+ DER prohibits unordered values encoding and will raise an error
+ during decode. If If :ref:`bered <bered_ctx>` context option is set,
+ then no error will occure. Also you can disable strict values
+ ordering check by setting ``"allow_unordered_set": True``
+ :ref:`context <ctx>` option.
"""
__slots__ = ()
tag_default = tag_encode(form=TagFormConstructed, num=17)
values = {}
bered = False
ctx_allow_default_values = ctx.get("allow_default_values", False)
+ ctx_allow_unordered_set = ctx.get("allow_unordered_set", False)
+ value_prev = memoryview(v[:0])
specs_items = self.specs.items
while len(v) > 0:
if lenindef and v[:EOC_LEN].tobytes() == EOC:
ctx=ctx,
)
value_len = value.fulllen
- sub_offset += value_len
- vlen += value_len
- v = v_tail
+ if value_prev.tobytes() > v[:value_len].tobytes():
+ if ctx_bered or ctx_allow_unordered_set:
+ bered = True
+ else:
+ raise DecodeError(
+ "unordered " + self.asn1_type_name,
+ klass=self.__class__,
+ decode_path=sub_decode_path,
+ offset=sub_offset,
+ )
if spec.default is None or value != spec.default:
pass
elif ctx_bered or ctx_allow_default_values:
offset=sub_offset,
)
values[name] = value
+ value_prev = v[:value_len]
+ sub_offset += value_len
+ vlen += value_len
+ v = v_tail
obj = self.__class__(
schema=self.specs,
impl=self.tag,
optional=self.optional,
_decoded=(offset, llen, vlen + (EOC_LEN if lenindef else 0)),
)
- obj._value = values
- obj.bered = bered
if lenindef:
if v[:EOC_LEN].tobytes() != EOC:
raise DecodeError(
)
tail = v[EOC_LEN:]
obj.lenindef = True
+ obj._value = values
if not obj.ready:
raise DecodeError(
"not all values are ready",
decode_path=decode_path,
offset=offset,
)
+ obj.bered = bered
return obj, tail
v = b"".join(self._encoded_values())
return b"".join((self.tag, len_encode(len(v)), v))
- def _decode(self, tlv, offset, decode_path, ctx, tag_only):
+ def _decode(self, tlv, offset, decode_path, ctx, tag_only, ordering_check=False):
try:
t, tlen, lv = tag_strip(tlv)
except DecodeError as err:
if tag_only:
return
lenindef = False
+ ctx_bered = ctx.get("bered", False)
try:
l, llen, v = len_decode(lv)
except LenIndefForm as err:
- if not ctx.get("bered", False):
+ if not ctx_bered:
raise err.__class__(
msg=err.msg,
klass=self.__class__,
vlen = 0
sub_offset = offset + tlen + llen
_value = []
+ ctx_allow_unordered_set = ctx.get("allow_unordered_set", False)
+ value_prev = memoryview(v[:0])
+ bered = False
spec = self.spec
while len(v) > 0:
if lenindef and v[:EOC_LEN].tobytes() == EOC:
break
+ sub_decode_path = decode_path + (str(len(_value)),)
value, v_tail = spec.decode(
v,
sub_offset,
leavemm=True,
- decode_path=decode_path + (str(len(_value)),),
+ decode_path=sub_decode_path,
ctx=ctx,
)
value_len = value.fulllen
+ if ordering_check:
+ if value_prev.tobytes() > v[:value_len].tobytes():
+ if ctx_bered or ctx_allow_unordered_set:
+ bered = True
+ else:
+ raise DecodeError(
+ "unordered " + self.asn1_type_name,
+ klass=self.__class__,
+ decode_path=sub_decode_path,
+ offset=sub_offset,
+ )
+ value_prev = v[:value_len]
+ _value.append(value)
sub_offset += value_len
vlen += value_len
v = v_tail
- _value.append(value)
try:
obj = self.__class__(
value=_value,
)
obj.lenindef = True
tail = v[EOC_LEN:]
+ obj.bered = bered
return obj, tail
def __repr__(self):
v = b"".join(raws)
return b"".join((self.tag, len_encode(len(v)), v))
+ def _decode(self, tlv, offset, decode_path, ctx, tag_only):
+ return super(SetOf, self)._decode(
+ tlv,
+ offset,
+ decode_path,
+ ctx,
+ tag_only,
+ ordering_check=True,
+ )
+
def obj_by_path(pypath): # pragma: no cover
"""Import object specified as string Python path