278 lines
10 KiB
Python
278 lines
10 KiB
Python
"""STIX2 core versioning methods."""
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import copy
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import datetime as dt
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import itertools
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import uuid
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import six
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from six.moves.collections_abc import Mapping
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import stix2.base
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from stix2.utils import get_timestamp, parse_into_datetime
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import stix2.v20
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from .exceptions import (
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InvalidValueError, RevokeError, UnmodifiablePropertyError,
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)
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# STIX object properties that cannot be modified
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STIX_UNMOD_PROPERTIES = ['created', 'created_by_ref', 'id', 'type']
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_VERSIONING_PROPERTIES = {"created", "modified", "revoked"}
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def _fudge_modified(old_modified, new_modified, use_stix21):
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"""
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Ensures a new modified timestamp is newer than the old. When they are
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too close together, new_modified must be pushed further ahead to ensure
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it is distinct and later, after JSON serialization (which may mean it's
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actually being pushed a little ways into the future). JSON serialization
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can remove precision, which can cause distinct timestamps to accidentally
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become equal, if we're not careful.
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:param old_modified: A previous "modified" timestamp, as a datetime object
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:param new_modified: A candidate new "modified" timestamp, as a datetime
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object
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:param use_stix21: Whether to use STIX 2.1+ versioning timestamp precision
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rules (boolean). This is important so that we are aware of how
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timestamp precision will be truncated, so we know how close together
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the timestamps can be, and how far ahead to potentially push the new
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one.
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:return: A suitable new "modified" timestamp. This may be different from
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what was passed in, if it had to be pushed ahead.
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"""
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if use_stix21:
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# 2.1+: we can use full precision
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if new_modified <= old_modified:
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new_modified = old_modified + dt.timedelta(microseconds=1)
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else:
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# 2.0: we must use millisecond precision
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one_ms = dt.timedelta(milliseconds=1)
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if new_modified - old_modified < one_ms:
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new_modified = old_modified + one_ms
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return new_modified
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def _is_versionable(data):
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"""
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Determine whether the given object is versionable. This check is done on
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the basis of support for three properties for the object type: "created",
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"modified", and "revoked". If all three are supported, the object is
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versionable; otherwise it is not. Dicts must have a "type" property whose
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value is for a registered object type. This is used to determine a
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complete set of supported properties for the type.
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Also, detect whether it represents a STIX 2.1 or greater spec version.
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:param data: The object to check. Must be either a stix object, or a dict
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with a "type" property.
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:return: A 2-tuple of bools: the first is True if the object is versionable
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and False if not; the second is True if the object is STIX 2.1+ and
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False if not.
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"""
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is_versionable = False
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is_21 = False
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stix_vid = None
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if isinstance(data, Mapping):
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# First, determine spec version. It's easy for our stix2 objects; more
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# work for dicts.
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is_21 = False
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if isinstance(data, stix2.base._STIXBase) and \
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not isinstance(data, stix2.v20._STIXBase20):
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# (is_21 means 2.1 or later; try not to be 2.1-specific)
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is_21 = True
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elif isinstance(data, dict):
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stix_vid = stix2.parsing._detect_spec_version(data)
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is_21 = stix_vid != "v20"
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# Then, determine versionability.
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if six.PY2:
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# dumb python2 compatibility: map.keys() returns a list, not a set!
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# six.viewkeys() compatibility function uses dict.viewkeys() on
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# python2, which is not a Mapping mixin method, so that doesn't
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# work either (for our stix2 objects).
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keys = set(data)
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else:
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keys = data.keys()
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# This should be sufficient for STIX objects; maybe we get lucky with
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# dicts here but probably not.
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if keys >= _VERSIONING_PROPERTIES:
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is_versionable = True
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# Tougher to handle dicts. We need to consider STIX version, map to a
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# registered class, and from that get a more complete picture of its
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# properties.
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elif isinstance(data, dict):
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class_maps = stix2.parsing.STIX2_OBJ_MAPS[stix_vid]
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obj_type = data["type"]
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if obj_type in class_maps["objects"]:
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# Should we bother checking properties for SDOs/SROs?
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# They were designed to be versionable.
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is_versionable = True
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elif obj_type in class_maps["observables"]:
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# but do check SCOs
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cls = class_maps["observables"][obj_type]
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is_versionable = _VERSIONING_PROPERTIES.issubset(
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cls._properties,
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)
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return is_versionable, is_21
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def new_version(data, allow_custom=None, **kwargs):
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"""
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Create a new version of a STIX object, by modifying properties and
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updating the ``modified`` property.
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:param data: The object to create a new version of. Maybe a stix2 object
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or dict.
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:param allow_custom: Whether to allow custom properties on the new object.
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If True, allow them (regardless of whether the original had custom
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properties); if False disallow them; if None, propagate the preference
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from the original object.
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:param kwargs: The properties to change. Setting to None requests property
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removal.
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:return: The new object.
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"""
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is_versionable, is_21 = _is_versionable(data)
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if not is_versionable:
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raise ValueError(
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"cannot create new version of object of this type! "
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"Try a dictionary or instance of an SDO or SRO class.",
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)
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if data.get('revoked'):
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raise RevokeError("new_version")
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try:
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new_obj_inner = copy.deepcopy(data._inner)
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except AttributeError:
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new_obj_inner = copy.deepcopy(data)
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# Make sure certain properties aren't trying to change
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# ID contributing properties of 2.1+ SCOs may also not change if a UUIDv5
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# is in use (depending on whether they were used to create it... but they
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# probably were). That would imply an ID change, which is not allowed
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# across versions.
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sco_locked_props = []
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if is_21 and isinstance(data, stix2.base._Observable):
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uuid_ = uuid.UUID(data["id"][-36:])
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if uuid_.variant == uuid.RFC_4122 and uuid_.version == 5:
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sco_locked_props = data._id_contributing_properties
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unchangable_properties = set()
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for prop in itertools.chain(STIX_UNMOD_PROPERTIES, sco_locked_props):
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if prop in kwargs:
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unchangable_properties.add(prop)
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if unchangable_properties:
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raise UnmodifiablePropertyError(unchangable_properties)
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# Different versioning precision rules in STIX 2.0 vs 2.1, so we need
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# to know which rules to apply.
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precision_constraint = "min" if is_21 else "exact"
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cls = type(data)
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if 'modified' not in kwargs:
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old_modified = parse_into_datetime(
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data["modified"], precision="millisecond",
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precision_constraint=precision_constraint,
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)
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new_modified = get_timestamp()
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new_modified = _fudge_modified(old_modified, new_modified, is_21)
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kwargs['modified'] = new_modified
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elif 'modified' in data:
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old_modified_property = parse_into_datetime(
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data.get('modified'), precision='millisecond',
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precision_constraint=precision_constraint,
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)
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new_modified_property = parse_into_datetime(
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kwargs['modified'], precision='millisecond',
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precision_constraint=precision_constraint,
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)
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if new_modified_property <= old_modified_property:
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raise InvalidValueError(
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cls, 'modified',
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"The new modified datetime cannot be before than or equal to the current modified datetime."
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"It cannot be equal, as according to STIX 2 specification, objects that are different "
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"but have the same id and modified timestamp do not have defined consumer behavior.",
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)
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new_obj_inner.update(kwargs)
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# Set allow_custom appropriately if versioning an object. We will ignore
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# it for dicts.
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if isinstance(data, stix2.base._STIXBase):
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if allow_custom is None:
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new_obj_inner["allow_custom"] = data._allow_custom
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else:
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new_obj_inner["allow_custom"] = allow_custom
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# Exclude properties with a value of 'None' in case data is not an instance of a _STIXBase subclass
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return cls(**{k: v for k, v in new_obj_inner.items() if v is not None})
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def revoke(data):
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"""Revoke a STIX object.
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Returns:
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A new version of the object with ``revoked`` set to ``True``.
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"""
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if not isinstance(data, Mapping):
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raise ValueError(
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"cannot revoke object of this type! Try a dictionary "
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"or instance of an SDO or SRO class.",
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)
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if data.get('revoked'):
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raise RevokeError("revoke")
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return new_version(data, revoked=True)
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def remove_custom_stix(stix_obj):
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"""Remove any custom STIX objects or properties.
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Warnings:
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This function is a best effort utility, in that it will remove custom
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objects and properties based on the type names; i.e. if "x-" prefixes
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object types, and "x\\_" prefixes property types. According to the
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STIX2 spec, those naming conventions are a SHOULDs not MUSTs, meaning
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that valid custom STIX content may ignore those conventions and in
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effect render this utility function invalid when used on that STIX
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content.
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Args:
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stix_obj (dict OR python-stix obj): a single python-stix object
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or dict of a STIX object
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Returns:
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A new version of the object with any custom content removed
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"""
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if stix_obj['type'].startswith('x-'):
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# if entire object is custom, discard
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return None
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custom_props = {
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k: None
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for k in stix_obj if k.startswith("x_")
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}
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if custom_props:
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new_obj = new_version(stix_obj, allow_custom=False, **custom_props)
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return new_obj
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else:
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return stix_obj
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