cti-python-stix2/stix2/test/v21/test_datastore_memory.py

441 lines
14 KiB
Python

import os
import shutil
import pytest
from stix2 import Filter, MemorySource, MemoryStore, properties
from stix2.datastore import make_id
from stix2.utils import parse_into_datetime
from stix2.v21 import (
Bundle, Campaign, CustomObject, Identity, Indicator, Malware, Relationship,
)
from .constants import (
CAMPAIGN_ID, CAMPAIGN_KWARGS, IDENTITY_ID, IDENTITY_KWARGS, INDICATOR_ID,
INDICATOR_KWARGS, MALWARE_ID, MALWARE_KWARGS, RELATIONSHIP_IDS,
)
IND1 = {
"created": "2017-01-27T13:49:53.935Z",
"id": "indicator--00000000-0000-4000-8000-000000000001",
"indicator_types": [
"url-watchlist",
],
"modified": "2017-01-27T13:49:53.935Z",
"name": "Malicious site hosting downloader",
"pattern": "[url:value = 'http://x4z9arb.cn/4712']",
"pattern_type": "stix",
"spec_version": "2.1",
"type": "indicator",
"valid_from": "2017-01-27T13:49:53.935382Z",
}
IND2 = {
"created": "2017-01-27T13:49:53.935Z",
"id": "indicator--00000000-0000-4000-8000-000000000001",
"indicator_types": [
"url-watchlist",
],
"modified": "2017-01-27T13:49:53.935Z",
"name": "Malicious site hosting downloader",
"pattern": "[url:value = 'http://x4z9arb.cn/4712']",
"pattern_type": "stix",
"spec_version": "2.1",
"type": "indicator",
"valid_from": "2017-01-27T13:49:53.935382Z",
}
IND3 = {
"created": "2017-01-27T13:49:53.935Z",
"id": "indicator--00000000-0000-4000-8000-000000000001",
"indicator_types": [
"url-watchlist",
],
"modified": "2017-01-27T13:49:53.936Z",
"name": "Malicious site hosting downloader",
"pattern": "[url:value = 'http://x4z9arb.cn/4712']",
"pattern_type": "stix",
"spec_version": "2.1",
"type": "indicator",
"valid_from": "2017-01-27T13:49:53.935382Z",
}
IND4 = {
"created": "2017-01-27T13:49:53.935Z",
"id": "indicator--00000000-0000-4000-8000-000000000002",
"indicator_types": [
"url-watchlist",
],
"modified": "2017-01-27T13:49:53.935Z",
"name": "Malicious site hosting downloader",
"pattern": "[url:value = 'http://x4z9arb.cn/4712']",
"pattern_type": "stix",
"spec_version": "2.1",
"type": "indicator",
"valid_from": "2017-01-27T13:49:53.935382Z",
}
IND5 = {
"created": "2017-01-27T13:49:53.935Z",
"id": "indicator--00000000-0000-4000-8000-000000000002",
"indicator_types": [
"url-watchlist",
],
"modified": "2017-01-27T13:49:53.935Z",
"name": "Malicious site hosting downloader",
"pattern": "[url:value = 'http://x4z9arb.cn/4712']",
"pattern_type": "stix",
"spec_version": "2.1",
"type": "indicator",
"valid_from": "2017-01-27T13:49:53.935382Z",
}
IND6 = {
"created": "2017-01-27T13:49:53.935Z",
"id": "indicator--00000000-0000-4000-8000-000000000001",
"indicator_types": [
"url-watchlist",
],
"modified": "2017-01-31T13:49:53.935Z",
"name": "Malicious site hosting downloader",
"pattern": "[url:value = 'http://x4z9arb.cn/4712']",
"pattern_type": "stix",
"spec_version": "2.1",
"type": "indicator",
"valid_from": "2017-01-27T13:49:53.935382Z",
}
IND7 = {
"created": "2017-01-27T13:49:53.935Z",
"id": "indicator--00000000-0000-4000-8000-000000000002",
"indicator_types": [
"url-watchlist",
],
"modified": "2017-01-27T13:49:53.935Z",
"name": "Malicious site hosting downloader",
"pattern": "[url:value = 'http://x4z9arb.cn/4712']",
"pattern_type": "stix",
"spec_version": "2.1",
"type": "indicator",
"valid_from": "2017-01-27T13:49:53.935382Z",
}
IND8 = {
"created": "2017-01-27T13:49:53.935Z",
"id": "indicator--00000000-0000-4000-8000-000000000002",
"indicator_types": [
"url-watchlist",
],
"modified": "2017-01-27T13:49:53.935Z",
"name": "Malicious site hosting downloader",
"pattern": "[url:value = 'http://x4z9arb.cn/4712']",
"pattern_type": "stix",
"spec_version": "2.1",
"type": "indicator",
"valid_from": "2017-01-27T13:49:53.935382Z",
}
STIX_OBJS2 = [IND6, IND7, IND8]
STIX_OBJS1 = [IND1, IND2, IND3, IND4, IND5]
@pytest.fixture
def mem_store():
yield MemoryStore(STIX_OBJS1)
@pytest.fixture
def mem_source():
yield MemorySource(STIX_OBJS1)
@pytest.fixture
def rel_mem_store():
cam = Campaign(id=CAMPAIGN_ID, **CAMPAIGN_KWARGS)
idy = Identity(id=IDENTITY_ID, **IDENTITY_KWARGS)
ind = Indicator(id=INDICATOR_ID, **INDICATOR_KWARGS)
mal = Malware(id=MALWARE_ID, **MALWARE_KWARGS)
rel1 = Relationship(ind, 'indicates', mal, id=RELATIONSHIP_IDS[0])
rel2 = Relationship(mal, 'targets', idy, id=RELATIONSHIP_IDS[1])
rel3 = Relationship(cam, 'uses', mal, id=RELATIONSHIP_IDS[2])
stix_objs = [cam, idy, ind, mal, rel1, rel2, rel3]
yield MemoryStore(stix_objs)
@pytest.fixture
def fs_mem_store(request, mem_store):
filename = mem_store.save_to_file('memory_test/mem_store.json')
def fin():
# teardown, executed regardless of exception
shutil.rmtree(os.path.dirname(filename))
request.addfinalizer(fin)
return filename
@pytest.fixture
def fs_mem_store_no_name(request, mem_store):
filename = mem_store.save_to_file('memory_test/')
def fin():
# teardown, executed regardless of exception
shutil.rmtree(os.path.dirname(filename))
request.addfinalizer(fin)
return filename
def test_memory_source_get(mem_source):
resp = mem_source.get("indicator--00000000-0000-4000-8000-000000000001")
assert resp["id"] == "indicator--00000000-0000-4000-8000-000000000001"
def test_memory_source_get_nonexistant_object(mem_source):
resp = mem_source.get("tool--8d0b222c-7a3b-44a0-b9c6-31b051efb32e")
assert resp is None
def test_memory_store_all_versions(mem_store):
# Add bundle of items to sink
mem_store.add(dict(
id="bundle--%s" % make_id(),
objects=STIX_OBJS2,
type="bundle",
))
resp = mem_store.all_versions("indicator--00000000-0000-4000-8000-000000000001")
assert len(resp) == 3
def test_memory_store_query(mem_store):
query = [Filter('type', '=', 'malware')]
resp = mem_store.query(query)
assert len(resp) == 0
def test_memory_store_query_single_filter(mem_store):
query = Filter('id', '=', 'indicator--00000000-0000-4000-8000-000000000001')
resp = mem_store.query(query)
assert len(resp) == 2
def test_memory_store_query_empty_query(mem_store):
resp = mem_store.query()
# sort since returned in random order
resp = sorted(resp, key=lambda k: (k['id'], k['modified']))
assert len(resp) == 3
assert resp[0]['id'] == 'indicator--00000000-0000-4000-8000-000000000001'
assert resp[0]['modified'] == parse_into_datetime('2017-01-27T13:49:53.935Z')
assert resp[1]['id'] == 'indicator--00000000-0000-4000-8000-000000000001'
assert resp[1]['modified'] == parse_into_datetime('2017-01-27T13:49:53.936Z')
assert resp[2]['id'] == 'indicator--00000000-0000-4000-8000-000000000002'
assert resp[2]['modified'] == parse_into_datetime('2017-01-27T13:49:53.935Z')
def test_memory_store_query_multiple_filters(mem_store):
mem_store.source.filters.add(Filter('type', '=', 'indicator'))
query = Filter('id', '=', 'indicator--00000000-0000-4000-8000-000000000001')
resp = mem_store.query(query)
assert len(resp) == 2
def test_memory_store_save_load_file(fs_mem_store):
filename = fs_mem_store # the fixture fs_mem_store yields filename where the memory store was written to
# STIX2 contents of mem_store have already been written to file
# (this is done in fixture 'fs_mem_store'), so can already read-in here
contents = open(os.path.abspath(filename)).read()
assert '"id": "indicator--00000000-0000-4000-8000-000000000001",' in contents
assert '"id": "indicator--00000000-0000-4000-8000-000000000001",' in contents
mem_store2 = MemoryStore()
mem_store2.load_from_file(filename)
assert mem_store2.get("indicator--00000000-0000-4000-8000-000000000001")
assert mem_store2.get("indicator--00000000-0000-4000-8000-000000000001")
def test_memory_store_save_load_file_no_name_provided(fs_mem_store_no_name):
filename = fs_mem_store_no_name # the fixture fs_mem_store yields filename where the memory store was written to
# STIX2 contents of mem_store have already been written to file
# (this is done in fixture 'fs_mem_store'), so can already read-in here
contents = open(os.path.abspath(filename)).read()
assert '"id": "indicator--00000000-0000-4000-8000-000000000001",' in contents
assert '"id": "indicator--00000000-0000-4000-8000-000000000001",' in contents
mem_store2 = MemoryStore()
mem_store2.load_from_file(filename)
assert mem_store2.get("indicator--00000000-0000-4000-8000-000000000001")
assert mem_store2.get("indicator--00000000-0000-4000-8000-000000000001")
def test_memory_store_add_invalid_object(mem_store):
ind = ('indicator', IND1) # tuple isn't valid
with pytest.raises(TypeError):
mem_store.add(ind)
def test_memory_store_object_with_custom_property(mem_store):
camp = Campaign(
name="Scipio Africanus",
objective="Defeat the Carthaginians",
x_empire="Roman",
allow_custom=True,
)
mem_store.add(camp)
camp_r = mem_store.get(camp.id)
assert camp_r.id == camp.id
assert camp_r.x_empire == camp.x_empire
def test_memory_store_object_creator_of_present(mem_store):
camp = Campaign(
name="Scipio Africanus",
objective="Defeat the Carthaginians",
created_by_ref=IDENTITY_ID,
x_empire="Roman",
allow_custom=True,
)
iden = Identity(
id=IDENTITY_ID,
name="Foo Corp.",
identity_class="corporation",
)
mem_store.add(camp)
mem_store.add(iden)
camp_r = mem_store.get(camp.id)
assert camp_r.id == camp.id
assert camp_r.x_empire == camp.x_empire
assert mem_store.creator_of(camp_r) == iden
def test_memory_store_object_creator_of_missing(mem_store):
camp = Campaign(
name="Scipio Africanus",
objective="Defeat the Carthaginians",
x_empire="Roman",
allow_custom=True,
)
mem_store.add(camp)
camp_r = mem_store.get(camp.id)
assert camp_r.id == camp.id
assert camp_r.x_empire == camp.x_empire
assert mem_store.creator_of(camp) is None
def test_memory_store_object_with_custom_property_in_bundle(mem_store):
camp = Campaign(
name="Scipio Africanus",
objective="Defeat the Carthaginians",
x_empire="Roman",
allow_custom=True,
)
bundle = Bundle(camp, allow_custom=True)
mem_store.add(bundle)
camp_r = mem_store.get(camp.id)
assert camp_r.id == camp.id
assert camp_r.x_empire == camp.x_empire
def test_memory_store_custom_object(mem_store):
@CustomObject(
'x-new-obj', [
('property1', properties.StringProperty(required=True)),
],
)
class NewObj():
pass
newobj = NewObj(property1='something')
mem_store.add(newobj)
newobj_r = mem_store.get(newobj.id)
assert newobj_r.id == newobj.id
assert newobj_r.property1 == 'something'
def test_relationships(rel_mem_store):
mal = rel_mem_store.get(MALWARE_ID)
resp = rel_mem_store.relationships(mal)
assert len(resp) == 3
assert any(x['id'] == RELATIONSHIP_IDS[0] for x in resp)
assert any(x['id'] == RELATIONSHIP_IDS[1] for x in resp)
assert any(x['id'] == RELATIONSHIP_IDS[2] for x in resp)
def test_relationships_by_type(rel_mem_store):
mal = rel_mem_store.get(MALWARE_ID)
resp = rel_mem_store.relationships(mal, relationship_type='indicates')
assert len(resp) == 1
assert resp[0]['id'] == RELATIONSHIP_IDS[0]
def test_relationships_by_source(rel_mem_store):
resp = rel_mem_store.relationships(MALWARE_ID, source_only=True)
assert len(resp) == 1
assert resp[0]['id'] == RELATIONSHIP_IDS[1]
def test_relationships_by_target(rel_mem_store):
resp = rel_mem_store.relationships(MALWARE_ID, target_only=True)
assert len(resp) == 2
assert any(x['id'] == RELATIONSHIP_IDS[0] for x in resp)
assert any(x['id'] == RELATIONSHIP_IDS[2] for x in resp)
def test_relationships_by_target_and_type(rel_mem_store):
resp = rel_mem_store.relationships(MALWARE_ID, relationship_type='uses', target_only=True)
assert len(resp) == 1
assert any(x['id'] == RELATIONSHIP_IDS[2] for x in resp)
def test_relationships_by_target_and_source(rel_mem_store):
with pytest.raises(ValueError) as excinfo:
rel_mem_store.relationships(MALWARE_ID, target_only=True, source_only=True)
assert 'not both' in str(excinfo.value)
def test_related_to(rel_mem_store):
mal = rel_mem_store.get(MALWARE_ID)
resp = rel_mem_store.related_to(mal)
assert len(resp) == 3
assert any(x['id'] == CAMPAIGN_ID for x in resp)
assert any(x['id'] == INDICATOR_ID for x in resp)
assert any(x['id'] == IDENTITY_ID for x in resp)
def test_related_to_by_source(rel_mem_store):
resp = rel_mem_store.related_to(MALWARE_ID, source_only=True)
assert len(resp) == 1
assert any(x['id'] == IDENTITY_ID for x in resp)
def test_related_to_by_target(rel_mem_store):
resp = rel_mem_store.related_to(MALWARE_ID, target_only=True)
assert len(resp) == 2
assert any(x['id'] == CAMPAIGN_ID for x in resp)
assert any(x['id'] == INDICATOR_ID for x in resp)
def test_object_family_internal_components(mem_source):
# Testing internal components.
str_representation = str(mem_source._data['indicator--00000000-0000-4000-8000-000000000001'])
repr_representation = repr(mem_source._data['indicator--00000000-0000-4000-8000-000000000001'])
assert "latest=2017-01-27 13:49:53.936000+00:00>>" in str_representation
assert "latest=2017-01-27 13:49:53.936000+00:00>>" in repr_representation