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

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import datetime as dt
import pytz
FAKE_TIME = dt.datetime(2017, 1, 1, 12, 34, 56, tzinfo=pytz.utc)
ATTACK_PATTERN_ID = "attack-pattern--0c7b5b88-8ff7-4a4d-aa9d-feb398cd0061"
CAMPAIGN_ID = "campaign--8e2e2d2b-17d4-4cbf-938f-98ee46b3cd3f"
COURSE_OF_ACTION_ID = "course-of-action--8e2e2d2b-17d4-4cbf-938f-98ee46b3cd3f"
GROUPING_ID = "grouping--753abcde-3141-5926-ace5-0a810b1ff996"
IDENTITY_ID = "identity--311b2d2d-f010-4473-83ec-1edf84858f4c"
INDICATOR_ID = "indicator--a740531e-63ff-4e49-a9e1-a0a3eed0e3e7"
INFRASTRUCTURE_ID = "infrastructure--3000ae1b-784c-f03d-8abc-0a625b2ff018"
INTRUSION_SET_ID = "intrusion-set--4e78f46f-a023-4e5f-bc24-71b3ca22ec29"
LOCATION_ID = "location--a6e9345f-5a15-4c29-8bb3-7dcc5d168d64"
MALWARE_ID = "malware--9c4638ec-f1de-4ddb-abf4-1b760417654e"
MARKING_DEFINITION_ID = "marking-definition--613f2e26-407d-48c7-9eca-b8e91df99dc9"
NOTE_ID = "note--0c7b5b88-8ff7-4a4d-aa9d-feb398cd0061"
OBSERVED_DATA_ID = "observed-data--b67d30ff-02ac-498a-92f9-32f845f448cf"
OPINION_ID = "opinion--b01efc25-77b4-4003-b18b-f6e24b5cd9f7"
REPORT_ID = "report--84e4d88f-44ea-4bcd-bbf3-b2c1c320bcb3"
RELATIONSHIP_ID = "relationship--df7c87eb-75d2-4948-af81-9d49d246f301"
THREAT_ACTOR_ID = "threat-actor--8e2e2d2b-17d4-4cbf-938f-98ee46b3cd3f"
TOOL_ID = "tool--8e2e2d2b-17d4-4cbf-938f-98ee46b3cd3f"
SIGHTING_ID = "sighting--bfbc19db-ec35-4e45-beed-f8bde2a772fb"
VULNERABILITY_ID = "vulnerability--0c7b5b88-8ff7-4a4d-aa9d-feb398cd0061"
MARKING_IDS = [
"marking-definition--613f2e26-407d-48c7-9eca-b8e91df99dc9",
"marking-definition--443eb5c3-a76c-4a0a-8caa-e93998e7bc09",
"marking-definition--57fcd772-9c1d-41b0-8d1f-3d47713415d9",
"marking-definition--462bf1a6-03d2-419c-b74e-eee2238b2de4",
"marking-definition--68520ae2-fefe-43a9-84ee-2c2a934d2c7d",
"marking-definition--2802dfb1-1019-40a8-8848-68d0ec0e417f",
]
MARKING_LANGS = [
"en",
"es",
"de",
"ja",
]
RELATIONSHIP_IDS = [
'relationship--06520621-5352-4e6a-b976-e8fa3d437ffd',
'relationship--181c9c09-43e6-45dd-9374-3bec192f05ef',
'relationship--a0cbb21c-8daf-4a7f-96aa-7155a4ef8f70',
]
# *_KWARGS contains all required arguments to create an instance of that STIX object
# *_MORE_KWARGS contains all the required arguments, plus some optional ones
ATTACK_PATTERN_KWARGS = dict(
name="Phishing",
)
CAMPAIGN_KWARGS = dict(
name="Green Group Attacks Against Finance",
description="Campaign by Green Group against a series of targets in the financial services sector.",
)
CAMPAIGN_MORE_KWARGS = dict(
type='campaign',
spec_version='2.1',
id=CAMPAIGN_ID,
created_by_ref=IDENTITY_ID,
created="2016-04-06T20:03:00.000Z",
modified="2016-04-06T20:03:00.000Z",
name="Green Group Attacks Against Finance",
description="Campaign by Green Group against a series of targets in the financial services sector.",
)
COURSE_OF_ACTION_KWARGS = dict(
name="Block",
)
GROUPING_KWARGS = dict(
name="Harry Potter and the Leet Hackers",
context="suspicious-activity",
object_refs=[
"malware--c8d2fae5-7271-400c-b81d-931a4caf20b9",
Improved the exception class hierarchy: - Removed all plain python base classes (e.g. ValueError, TypeError) - Renamed InvalidPropertyConfigurationError -> PropertyPresenceError, since incorrect values could be considered a property config error, and I really just wanted this class to apply to presence (co-)constraint violations. - Added ObjectConfigurationError as a superclass of InvalidValueError, PropertyPresenceError, and any other exception that could be raised during _STIXBase object init, which is when the spec compliance checks happen. This class is intended to represent general spec violations. - Did some class reordering in exceptions.py, so all the ObjectConfigurationError subclasses were together. Changed how property "cleaning" errors were handled: - Previous docs said they should all be ValueErrors, but that would require extra exception check-and-replace complexity in the property implementations, so that requirement is removed. Doc is changed to just say that cleaning problems should cause exceptions to be raised. _STIXBase._check_property() now handles most exception types, not just ValueError. - Decided to try chaining the original clean error to the InvalidValueError, in case the extra diagnostics would be helpful in the future. This is done via 'six' adapter function and only works on python3. - A small amount of testing was removed, since it was looking at custom exception properties which became unavailable once the exception was replaced with InvalidValueError. Did another pass through unit tests to fix breakage caused by the changed exception class hierarchy. Removed unnecessary observable extension handling code from parse_observable(), since it was all duplicated in ExtensionsProperty. The redundant code in parse_observable() had different exception behavior than ExtensionsProperty, which makes the API inconsistent and unit tests more complicated. (Problems in ExtensionsProperty get replaced with InvalidValueError, but extensions problems handled directly in parse_observable() don't get the same replacement, and so the exception type is different.) Redid the workbench monkeypatching. The old way was impossible to make work, and had caused ugly ripple effect hackage in other parts of the codebase. Now, it replaces the global object maps with factory functions which behave the same way when called, as real classes. Had to fix up a few unit tests to get them all passing with this monkeypatching in place. Also remove all the xfail markings in the workbench test suite, since all tests now pass. Since workbench monkeypatching isn't currently affecting any unit tests, tox.ini was simplified to remove the special-casing for running the workbench tests. Removed the v20 workbench test suite, since the workbench currently only works with the latest stix object version.
2019-07-19 20:50:11 +02:00
"identity--988145ed-a3b4-4421-b7a7-273376be67ce",
],
)
IDENTITY_KWARGS = dict(
name="John Smith",
identity_class="individual",
)
INDICATOR_KWARGS = dict(
indicator_types=['malicious-activity'],
pattern_type="stix",
pattern="[file:hashes.MD5 = 'd41d8cd98f00b204e9800998ecf8427e']",
valid_from="2017-01-01T12:34:56Z",
)
INFRASTRUCTURE_KWARGS = dict(
name="Poison Ivy C2",
infrastructure_types=["command-and-control"],
)
INTRUSION_SET_KWARGS = dict(
name="Bobcat Breakin",
)
MALWARE_KWARGS = dict(
malware_types=['ransomware'],
name="Cryptolocker",
is_family=False,
)
MALWARE_MORE_KWARGS = dict(
type='malware',
id=MALWARE_ID,
created="2016-04-06T20:03:00.000Z",
modified="2016-04-06T20:03:00.000Z",
malware_types=['ransomware'],
name="Cryptolocker",
description="A ransomware related to ...",
is_family=False,
)
OBSERVED_DATA_KWARGS = dict(
first_observed=FAKE_TIME,
last_observed=FAKE_TIME,
number_observed=1,
objects={
"0": {
"type": "windows-registry-key",
"key": "HKEY_LOCAL_MACHINE\\System\\Foo\\Bar",
},
},
)
REPORT_KWARGS = dict(
report_types=["campaign"],
name="Bad Cybercrime",
published=FAKE_TIME,
object_refs=[INDICATOR_ID],
)
RELATIONSHIP_KWARGS = dict(
relationship_type="indicates",
source_ref=INDICATOR_ID,
target_ref=MALWARE_ID,
)
SIGHTING_KWARGS = dict(
sighting_of_ref=INDICATOR_ID,
)
THREAT_ACTOR_KWARGS = dict(
threat_actor_types=["crime-syndicate"],
name="Evil Org",
)
TOOL_KWARGS = dict(
tool_types=["remote-access"],
name="VNC",
)
VULNERABILITY_KWARGS = dict(
name="Heartbleed",
)