"""Utility functions and classes for the STIX2 library.""" import datetime as dt import enum import json import re import pytz import six import stix2 # Sentinel value for properties that should be set to the current time. # We can't use the standard 'default' approach, since if there are multiple # timestamps in a single object, the timestamps will vary by a few microseconds. NOW = object() PREFIX_21_REGEX = re.compile(r'^[a-z].*') _TIMESTAMP_FORMAT = "%Y-%m-%dT%H:%M:%SZ" _TIMESTAMP_FORMAT_FRAC = "%Y-%m-%dT%H:%M:%S.%fZ" class Precision(enum.Enum): """ Timestamp format precisions. """ # auto() wasn't introduced until Python 3.6. ANY = 1 SECOND = 2 MILLISECOND = 3 class PrecisionConstraint(enum.Enum): """ Timestamp precision constraints. These affect how the Precision values are applied when formatting a timestamp. These constraints don't really make sense with the ANY precision, so they have no effect in that case. """ EXACT = 1 # format must have exactly the given precision MIN = 2 # format must have at least the given precision # no need for a MAX constraint yet def _to_enum(value, enum_type, enum_default=None): """ Detect and convert strings to enums and None to a default enum. This allows use of strings and None in APIs, while enforcing the enum type: if you use a string, it must name a valid enum value. This implementation is case-insensitive. :param value: A value to be interpreted as an enum (string, Enum instance, or None). If an Enum instance, it must be an instance of enum_type. :param enum_type: The enum type which strings will be interpreted against :param enum_default: The default enum to use if value is None. Must be an instance of enum_type, or None. If None, you are disallowing a default and requiring that value be non-None. :return: An instance of enum_type :raises TypeError: If value was neither an instance of enum_type, None, nor a string :raises KeyError: If value was a string which couldn't be interpreted as an enum value from enum_type """ assert enum_default is None or isinstance(enum_default, enum_type) if not isinstance(value, enum_type): if value is None and enum_default is not None: value = enum_default elif isinstance(value, six.string_types): value = enum_type[value.upper()] else: raise TypeError("Not a valid {}: {}".format( enum_type.__name__, value, )) return value class STIXdatetime(dt.datetime): """ Bundle a datetime with some format-related metadata, so that JSON serialization has the info it needs to produce compliant timestamps. """ def __new__(cls, *args, **kwargs): precision = _to_enum( kwargs.pop("precision", Precision.ANY), Precision, ) precision_constraint = _to_enum( kwargs.pop("precision_constraint", PrecisionConstraint.EXACT), PrecisionConstraint, ) if isinstance(args[0], dt.datetime): # Allow passing in a datetime object dttm = args[0] args = ( dttm.year, dttm.month, dttm.day, dttm.hour, dttm.minute, dttm.second, dttm.microsecond, dttm.tzinfo, ) # self will be an instance of STIXdatetime, not dt.datetime self = dt.datetime.__new__(cls, *args, **kwargs) self.precision = precision self.precision_constraint = precision_constraint return self def __repr__(self): return "'%s'" % format_datetime(self) def deduplicate(stix_obj_list): """Deduplicate a list of STIX objects to a unique set. Reduces a set of STIX objects to unique set by looking at 'id' and 'modified' fields - as a unique object version is determined by the combination of those fields Note: Be aware, as can be seen in the implementation of deduplicate(),that if the "stix_obj_list" argument has multiple STIX objects of the same version, the last object version found in the list will be the one that is returned. Args: stix_obj_list (list): list of STIX objects (dicts) Returns: A list with a unique set of the passed list of STIX objects. """ unique_objs = {} for obj in stix_obj_list: try: unique_objs[(obj['id'], obj['modified'])] = obj except KeyError: # Handle objects with no `modified` property, e.g. marking-definition unique_objs[(obj['id'], obj['created'])] = obj return list(unique_objs.values()) def get_timestamp(): """Return a STIX timestamp of the current date and time.""" return STIXdatetime.now(tz=pytz.UTC) def format_datetime(dttm): """Convert a datetime object into a valid STIX timestamp string. 1. Convert to timezone-aware 2. Convert to UTC 3. Format in ISO format 4. Ensure correct precision a. Add subsecond value if warranted, according to precision settings 5. Add "Z" """ if dttm.tzinfo is None or dttm.tzinfo.utcoffset(dttm) is None: # dttm is timezone-naive; assume UTC zoned = pytz.utc.localize(dttm) else: zoned = dttm.astimezone(pytz.utc) ts = zoned.strftime('%Y-%m-%dT%H:%M:%S') precision = getattr(dttm, 'precision', Precision.ANY) precision_constraint = getattr( dttm, 'precision_constraint', PrecisionConstraint.EXACT, ) frac_seconds_str = "" if precision == Precision.ANY: # No need to truncate; ignore constraint if zoned.microsecond: frac_seconds_str = "{:06d}".format(zoned.microsecond).rstrip("0") elif precision == Precision.SECOND: if precision_constraint == PrecisionConstraint.MIN: # second precision, or better. Winds up being the same as ANY: # just use all our digits if zoned.microsecond: frac_seconds_str = "{:06d}".format(zoned.microsecond)\ .rstrip("0") # exact: ignore microseconds entirely else: # precision == millisecond if precision_constraint == PrecisionConstraint.EXACT: # can't rstrip() here or we may lose precision frac_seconds_str = "{:06d}".format(zoned.microsecond)[:3] else: # millisecond precision, or better. So we can rstrip() zeros, but # only to a length of at least 3 digits (ljust() adds zeros back, # if it stripped too far.) frac_seconds_str = "{:06d}"\ .format(zoned.microsecond)\ .rstrip("0")\ .ljust(3, "0") ts = "{}{}{}Z".format( ts, "." if frac_seconds_str else "", frac_seconds_str, ) return ts def parse_into_datetime( value, precision=Precision.ANY, precision_constraint=PrecisionConstraint.EXACT, ): """ Parse a value into a valid STIX timestamp object. Also, optionally adjust precision of fractional seconds. This allows alignment with JSON serialization requirements, and helps ensure we're not using extra precision which would be lost upon JSON serialization. The precision info will be embedded in the returned object, so that JSON serialization will format it correctly. :param value: A datetime.datetime or datetime.date instance, or a string :param precision: A precision value: either an instance of the Precision enum, or a string naming one of the enum values (case-insensitive) :param precision_constraint: A precision constraint value: either an instance of the PrecisionConstraint enum, or a string naming one of the enum values (case-insensitive) :return: A STIXdatetime instance, which is a datetime but also carries the precision info necessary to properly JSON-serialize it. """ precision = _to_enum(precision, Precision) precision_constraint = _to_enum(precision_constraint, PrecisionConstraint) if isinstance(value, dt.date): if hasattr(value, 'hour'): ts = value else: # Add a time component ts = dt.datetime.combine(value, dt.time(0, 0, tzinfo=pytz.utc)) else: # value isn't a date or datetime object so assume it's a string fmt = _TIMESTAMP_FORMAT_FRAC if "." in value else _TIMESTAMP_FORMAT try: parsed = dt.datetime.strptime(value, fmt) except (TypeError, ValueError): # Unknown format raise ValueError( "must be a datetime object, date object, or " "timestamp string in a recognizable format.", ) if parsed.tzinfo: ts = parsed.astimezone(pytz.utc) else: # Doesn't have timezone info in the string; assume UTC ts = pytz.utc.localize(parsed) # Ensure correct precision if precision == Precision.SECOND: if precision_constraint == PrecisionConstraint.EXACT: ts = ts.replace(microsecond=0) # else, no need to modify fractional seconds elif precision == Precision.MILLISECOND: if precision_constraint == PrecisionConstraint.EXACT: us = (ts.microsecond // 1000) * 1000 ts = ts.replace(microsecond=us) # else: at least millisecond precision: the constraint will affect JSON # formatting, but there's nothing we need to do here. # else, precision == Precision.ANY: nothing for us to do. return STIXdatetime( ts, precision=precision, precision_constraint=precision_constraint, ) def _get_dict(data): """Return data as a dictionary. Input can be a dictionary, string, or file-like object. """ if type(data) is dict: return data else: try: return json.loads(data) except TypeError: pass try: return json.load(data) except AttributeError: pass try: return dict(data) except (ValueError, TypeError): raise ValueError("Cannot convert '%s' to dictionary." % str(data)) def get_class_hierarchy_names(obj): """Given an object, return the names of the class hierarchy.""" names = [] for cls in obj.__class__.__mro__: names.append(cls.__name__) return names def get_type_from_id(stix_id): return stix_id.split('--', 1)[0] def is_marking(obj_or_id): """Determines whether the given object or object ID is/is for a marking definition. :param obj_or_id: A STIX object or object ID as a string. :return: True if a marking definition, False otherwise. """ if isinstance(obj_or_id, (stix2.base._STIXBase, dict)): result = obj_or_id["type"] == "marking-definition" else: # it's a string ID result = obj_or_id.startswith("marking-definition--") return result