cti-python-stix2/stix2/base.py

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"""Base classes for type definitions in the stix2 library."""
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import collections
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import copy
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import datetime as dt
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import simplejson as json
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from .exceptions import (AtLeastOnePropertyError, CustomContentError,
DependentPropertiesError, ExtraPropertiesError,
ImmutableError, InvalidObjRefError, InvalidValueError,
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MissingPropertiesError,
MutuallyExclusivePropertiesError)
from .markings.utils import validate
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from .utils import NOW, find_property_index, format_datetime, get_timestamp
from .utils import new_version as _new_version
from .utils import revoke as _revoke
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__all__ = ['STIXJSONEncoder', '_STIXBase']
DEFAULT_ERROR = "{type} must have {property}='{expected}'."
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class STIXJSONEncoder(json.JSONEncoder):
"""Custom JSONEncoder subclass for serializing Python ``stix2`` objects.
If an optional property with a default value specified in the STIX 2 spec
is set to that default value, it will be left out of the serialized output.
An example of this type of property include the ``revoked`` common property.
"""
def default(self, obj):
if isinstance(obj, (dt.date, dt.datetime)):
return format_datetime(obj)
elif isinstance(obj, _STIXBase):
tmp_obj = dict(copy.deepcopy(obj))
for prop_name in obj._defaulted_optional_properties:
del tmp_obj[prop_name]
return tmp_obj
else:
return super(STIXJSONEncoder, self).default(obj)
class STIXJSONIncludeOptionalDefaultsEncoder(json.JSONEncoder):
"""Custom JSONEncoder subclass for serializing Python ``stix2`` objects.
Differs from ``STIXJSONEncoder`` in that if an optional property with a default
value specified in the STIX 2 spec is set to that default value, it will be
included in the serialized output.
"""
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def default(self, obj):
if isinstance(obj, (dt.date, dt.datetime)):
return format_datetime(obj)
elif isinstance(obj, _STIXBase):
return dict(obj)
else:
return super(STIXJSONEncoder, self).default(obj)
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def get_required_properties(properties):
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return (k for k, v in properties.items() if v.required)
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class _STIXBase(collections.Mapping):
"""Base class for STIX object types"""
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def object_properties(self):
props = set(self._properties.keys())
custom_props = list(set(self._inner.keys()) - props)
custom_props.sort()
all_properties = list(self._properties.keys())
all_properties.extend(custom_props) # Any custom properties to the bottom
return all_properties
def _check_property(self, prop_name, prop, kwargs):
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if prop_name not in kwargs:
if hasattr(prop, 'default'):
value = prop.default()
if value == NOW:
value = self.__now
kwargs[prop_name] = value
if prop_name in kwargs:
try:
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kwargs[prop_name] = prop.clean(kwargs[prop_name])
except ValueError as exc:
if self.__allow_custom and isinstance(exc, CustomContentError):
return
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raise InvalidValueError(self.__class__, prop_name, reason=str(exc))
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# interproperty constraint methods
def _check_mutually_exclusive_properties(self, list_of_properties, at_least_one=True):
current_properties = self.properties_populated()
count = len(set(list_of_properties).intersection(current_properties))
# at_least_one allows for xor to be checked
if count > 1 or (at_least_one and count == 0):
raise MutuallyExclusivePropertiesError(self.__class__, list_of_properties)
def _check_at_least_one_property(self, list_of_properties=None):
if not list_of_properties:
list_of_properties = sorted(list(self.__class__._properties.keys()))
if "type" in list_of_properties:
list_of_properties.remove("type")
current_properties = self.properties_populated()
list_of_properties_populated = set(list_of_properties).intersection(current_properties)
if list_of_properties and (not list_of_properties_populated or list_of_properties_populated == set(["extensions"])):
raise AtLeastOnePropertyError(self.__class__, list_of_properties)
def _check_properties_dependency(self, list_of_properties, list_of_dependent_properties):
failed_dependency_pairs = []
for p in list_of_properties:
for dp in list_of_dependent_properties:
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if not self.get(p) and self.get(dp):
failed_dependency_pairs.append((p, dp))
if failed_dependency_pairs:
raise DependentPropertiesError(self.__class__, failed_dependency_pairs)
def _check_object_constraints(self):
for m in self.get("granular_markings", []):
validate(self, m.get("selectors"))
def __init__(self, allow_custom=False, **kwargs):
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cls = self.__class__
self.__allow_custom = allow_custom
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# Use the same timestamp for any auto-generated datetimes
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self.__now = get_timestamp()
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# Detect any keyword arguments not allowed for a specific type
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custom_props = kwargs.pop('custom_properties', {})
if custom_props and not isinstance(custom_props, dict):
raise ValueError("'custom_properties' must be a dictionary")
if not allow_custom:
extra_kwargs = list(set(kwargs) - set(cls._properties))
if extra_kwargs:
raise ExtraPropertiesError(cls, extra_kwargs)
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# Remove any keyword arguments whose value is None
setting_kwargs = {}
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props = kwargs.copy()
props.update(custom_props)
for prop_name, prop_value in props.items():
if prop_value is not None:
setting_kwargs[prop_name] = prop_value
# Detect any missing required properties
required_properties = set(get_required_properties(cls._properties))
missing_kwargs = required_properties - set(setting_kwargs)
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if missing_kwargs:
raise MissingPropertiesError(cls, missing_kwargs)
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for prop_name, prop_metadata in cls._properties.items():
self._check_property(prop_name, prop_metadata, setting_kwargs)
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# Cache defaulted optional properties for serialization
defaulted = []
for name, prop in cls._properties.items():
try:
if (not prop.required and not hasattr(prop, '_fixed_value') and
prop.default() == setting_kwargs[name]):
defaulted.append(name)
except (AttributeError, KeyError):
continue
self._defaulted_optional_properties = defaulted
self._inner = setting_kwargs
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self._check_object_constraints()
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def __getitem__(self, key):
return self._inner[key]
def __iter__(self):
return iter(self._inner)
def __len__(self):
return len(self._inner)
# Handle attribute access just like key access
def __getattr__(self, name):
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if name in self:
return self.__getitem__(name)
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raise AttributeError("'%s' object has no attribute '%s'" %
(self.__class__.__name__, name))
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def __setattr__(self, name, value):
if not name.startswith("_"):
raise ImmutableError(self.__class__, name)
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super(_STIXBase, self).__setattr__(name, value)
def __str__(self):
return self.serialize(pretty=True)
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def __repr__(self):
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props = [(k, self[k]) for k in self.object_properties() if self.get(k)]
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return "{0}({1})".format(self.__class__.__name__,
", ".join(["{0!s}={1!r}".format(k, v) for k, v in props]))
def __deepcopy__(self, memo):
# Assume: we can ignore the memo argument, because no object will ever contain the same sub-object multiple times.
new_inner = copy.deepcopy(self._inner, memo)
cls = type(self)
if isinstance(self, _Observable):
# Assume: valid references in the original object are still valid in the new version
new_inner['_valid_refs'] = {'*': '*'}
new_inner['allow_custom'] = self.__allow_custom
return cls(**new_inner)
def properties_populated(self):
return list(self._inner.keys())
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# Versioning API
def new_version(self, **kwargs):
return _new_version(self, **kwargs)
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def revoke(self):
return _revoke(self)
def serialize(self, pretty=False, include_optional_defaults=False, **kwargs):
"""
Serialize a STIX object.
Args:
pretty (bool): If True, output properties following the STIX specs
formatting. This includes indentation. Refer to notes for more
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details. (Default: ``False``)
include_optional_defaults (bool): Determines whether to include
optional properties set to the default value defined in the spec.
**kwargs: The arguments for a json.dumps() call.
Returns:
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str: The serialized JSON object.
Note:
The argument ``pretty=True`` will output the STIX object following
spec order. Using this argument greatly impacts object serialization
performance. If your use case is centered across machine-to-machine
operation it is recommended to set ``pretty=False``.
When ``pretty=True`` the following key-value pairs will be added or
overridden: indent=4, separators=(",", ": "), item_sort_key=sort_by.
"""
if pretty:
properties = self.object_properties()
def sort_by(element):
return find_property_index(self, properties, element)
kwargs.update({'indent': 4, 'separators': (",", ": "), 'item_sort_key': sort_by})
if include_optional_defaults:
return json.dumps(self, cls=STIXJSONIncludeOptionalDefaultsEncoder, **kwargs)
else:
return json.dumps(self, cls=STIXJSONEncoder, **kwargs)
class _Observable(_STIXBase):
def __init__(self, **kwargs):
# the constructor might be called independently of an observed data object
if '_valid_refs' in kwargs:
self._STIXBase__valid_refs = kwargs.pop('_valid_refs')
else:
self._STIXBase__valid_refs = []
super(_Observable, self).__init__(**kwargs)
def _check_ref(self, ref, prop, prop_name):
if '*' in self._STIXBase__valid_refs:
return # don't check if refs are valid
if ref not in self._STIXBase__valid_refs:
raise InvalidObjRefError(self.__class__, prop_name, "'%s' is not a valid object in local scope" % ref)
try:
allowed_types = prop.contained.valid_types
except AttributeError:
allowed_types = prop.valid_types
try:
ref_type = self._STIXBase__valid_refs[ref]
except TypeError:
raise ValueError("'%s' must be created with _valid_refs as a dict, not a list." % self.__class__.__name__)
if allowed_types:
if ref_type not in allowed_types:
raise InvalidObjRefError(self.__class__, prop_name, "object reference '%s' is of an invalid type '%s'" % (ref, ref_type))
def _check_property(self, prop_name, prop, kwargs):
super(_Observable, self)._check_property(prop_name, prop, kwargs)
if prop_name not in kwargs:
return
if prop_name.endswith('_ref'):
ref = kwargs[prop_name]
self._check_ref(ref, prop, prop_name)
elif prop_name.endswith('_refs'):
for ref in kwargs[prop_name]:
self._check_ref(ref, prop, prop_name)
class _Extension(_STIXBase):
def _check_object_constraints(self):
super(_Extension, self)._check_object_constraints()
self._check_at_least_one_property()