cti-python-stix2/stix2/base.py

312 lines
12 KiB
Python

"""Base classes for type definitions in the stix2 library."""
import collections
import copy
import datetime as dt
import simplejson as json
from .exceptions import (AtLeastOnePropertyError, CustomContentError,
DependentPropertiesError, ExtraPropertiesError,
ImmutableError, InvalidObjRefError, InvalidValueError,
MissingPropertiesError,
MutuallyExclusivePropertiesError)
from .markings.utils import validate
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
__all__ = ['STIXJSONEncoder', '_STIXBase']
DEFAULT_ERROR = "{type} must have {property}='{expected}'."
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.
"""
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)
def get_required_properties(properties):
return (k for k, v in properties.items() if v.required)
class _STIXBase(collections.Mapping):
"""Base class for STIX object types"""
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):
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:
kwargs[prop_name] = prop.clean(kwargs[prop_name])
except ValueError as exc:
if self.__allow_custom and isinstance(exc, CustomContentError):
return
raise InvalidValueError(self.__class__, prop_name, reason=str(exc))
# 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:
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):
cls = self.__class__
self.__allow_custom = allow_custom
# Use the same timestamp for any auto-generated datetimes
self.__now = get_timestamp()
# Detect any keyword arguments not allowed for a specific type
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)
# Remove any keyword arguments whose value is None
setting_kwargs = {}
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)
if missing_kwargs:
raise MissingPropertiesError(cls, missing_kwargs)
for prop_name, prop_metadata in cls._properties.items():
self._check_property(prop_name, prop_metadata, setting_kwargs)
# 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
self._check_object_constraints()
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):
if name in self:
return self.__getitem__(name)
raise AttributeError("'%s' object has no attribute '%s'" %
(self.__class__.__name__, name))
def __setattr__(self, name, value):
if not name.startswith("_"):
raise ImmutableError(self.__class__, name)
super(_STIXBase, self).__setattr__(name, value)
def __str__(self):
return self.serialize(pretty=True)
def __repr__(self):
props = [(k, self[k]) for k in self.object_properties() if self.get(k)]
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())
# Versioning API
def new_version(self, **kwargs):
return _new_version(self, **kwargs)
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
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:
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()