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Added positive segmentation findings

This commit is contained in:
Shay Nehmad 2019-08-26 14:23:14 +03:00
parent fbb82f412b
commit a9ba3273dd
2 changed files with 90 additions and 11 deletions
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50
monkey/monkey_island/cc/services/telemetry/zero_trust_tests/segmentation.py
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@ -1,7 +1,8 @@
import itertools import itertools
from six import text_type from six import text_type
from common.data.zero_trust_consts import STATUS_CONCLUSIVE, EVENT_TYPE_MONKEY_NETWORK from common.data.zero_trust_consts import STATUS_CONCLUSIVE, EVENT_TYPE_MONKEY_NETWORK, STATUS_POSITIVE, \
EVENT_TYPE_ISLAND
from common.network.network_range import NetworkRange from common.network.network_range import NetworkRange
from common.network.segmentation_utils import get_ip_in_src_and_not_in_dst, get_ip_if_in_subnet from common.network.segmentation_utils import get_ip_in_src_and_not_in_dst, get_ip_if_in_subnet
from monkey_island.cc.models import Monkey from monkey_island.cc.models import Monkey
@ -29,15 +30,11 @@ def is_segmentation_violation(current_monkey, target_ip, source_subnet, target_s
return cross_segment_ip is not None return cross_segment_ip is not None
def test_segmentation_violation(telemetry_json): def test_segmentation_violation(scan_telemetry_json):
"""
:param telemetry_json: A SCAN telemetry sent from a Monkey.
"""
# TODO - lower code duplication between this and report.py. # TODO - lower code duplication between this and report.py.
# TODO - single machine # TODO - single machine
current_monkey = Monkey.get_single_monkey_by_guid(telemetry_json['monkey_guid']) current_monkey = Monkey.get_single_monkey_by_guid(scan_telemetry_json['monkey_guid'])
target_ip = telemetry_json['data']['machine']['ip_addr'] target_ip = scan_telemetry_json['data']['machine']['ip_addr']
subnet_groups = get_config_network_segments_as_subnet_groups() subnet_groups = get_config_network_segments_as_subnet_groups()
for subnet_group in subnet_groups: for subnet_group in subnet_groups:
subnet_pairs = itertools.product(subnet_group, subnet_group) subnet_pairs = itertools.product(subnet_group, subnet_group)
@ -67,6 +64,37 @@ def get_segmentation_violation_event(current_monkey, source_subnet, target_ip, t
) )
def test_positive_findings_for_unreached_segments(telemetry_json): def test_positive_findings_for_unreached_segments(state_telemetry_json):
current_monkey = Monkey.get_single_monkey_by_guid(telemetry_json['monkey_guid']) flat_all_subnets = [item for sublist in get_config_network_segments_as_subnet_groups() for item in sublist]
subnet_groups = get_config_network_segments_as_subnet_groups() current_monkey = Monkey.get_single_monkey_by_guid(state_telemetry_json['monkey_guid'])
create_or_add_findings_for_all_pairs(flat_all_subnets, current_monkey)
def create_or_add_findings_for_all_pairs(all_subnets, current_monkey):
# Filter the subnets that this monkey is part of.
this_monkey_subnets = []
for subnet in all_subnets:
if get_ip_if_in_subnet(current_monkey.ip_addresses, NetworkRange.get_range_obj(subnet)) is not None:
this_monkey_subnets.append(subnet)
# Get all the other subnets.
other_subnets = list(set(all_subnets) - set(this_monkey_subnets))
# Calculate the cartesian product - (this monkey subnets X other subnets). These pairs are the pairs that the monkey
# should have tested.
all_subnets_pairs_for_this_monkey = itertools.product(this_monkey_subnets, other_subnets)
for subnet_pair in all_subnets_pairs_for_this_monkey:
SegmentationFinding.create_or_add_to_existing_finding(
subnets=list(subnet_pair),
status=STATUS_POSITIVE,
segmentation_event=Event.create_event(
"Segmentation test done",
message="Monkey on {hostname} is done attempting cross-segment communications from `{src_seg}` "
"segments to `{dst_seg}` segments.".format(
hostname=current_monkey.hostname,
src_seg=subnet_pair[0],
dst_seg=subnet_pair[1]),
event_type=EVENT_TYPE_ISLAND
)
)

51
monkey/monkey_island/cc/services/telemetry/zero_trust_tests/test_segmentation_zt_tests.py Normal file
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@ -0,0 +1,51 @@
import uuid
from common.data.zero_trust_consts import TEST_SEGMENTATION, STATUS_POSITIVE, STATUS_CONCLUSIVE, \
EVENT_TYPE_MONKEY_NETWORK
from monkey_island.cc.models import Monkey
from monkey_island.cc.models.zero_trust.event import Event
from monkey_island.cc.models.zero_trust.finding import Finding
from monkey_island.cc.models.zero_trust.segmentation_finding import SegmentationFinding
from monkey_island.cc.services.telemetry.zero_trust_tests.segmentation import create_or_add_findings_for_all_pairs
from monkey_island.cc.testing.IslandTestCase import IslandTestCase
FIRST_SUBNET = "1.1.1.1"
SECOND_SUBNET = "2.2.2.0/24"
THIRD_SUBNET = "3.3.3.3-3.3.3.200"
class TestSegmentationTests(IslandTestCase):
def test_create_findings_for_all_done_pairs(self):
self.fail_if_not_testing_env()
self.clean_finding_db()
all_subnets = [FIRST_SUBNET, SECOND_SUBNET, THIRD_SUBNET]
monkey = Monkey(
guid=str(uuid.uuid4()),
ip_addresses=[FIRST_SUBNET])
# no findings
self.assertEquals(len(Finding.objects(test=TEST_SEGMENTATION)), 0)
# This is like the monkey is done and sent done telem
create_or_add_findings_for_all_pairs(all_subnets, monkey)
# There are 2 subnets in which the monkey is NOT
self.assertEquals(len(Finding.objects(test=TEST_SEGMENTATION, status=STATUS_POSITIVE)), 2)
# This is a monkey from 2nd subnet communicated with 1st subnet.
SegmentationFinding.create_or_add_to_existing_finding(
[FIRST_SUBNET, SECOND_SUBNET],
STATUS_CONCLUSIVE,
Event.create_event(title="sdf", message="asd", event_type=EVENT_TYPE_MONKEY_NETWORK)
)
print("Printing all segmentation findings")
all_findings = Finding.objects(test=TEST_SEGMENTATION)
for f in all_findings:
print(f.to_json())
self.assertEquals(len(Finding.objects(test=TEST_SEGMENTATION, status=STATUS_POSITIVE)), 1)
self.assertEquals(len(Finding.objects(test=TEST_SEGMENTATION, status=STATUS_CONCLUSIVE)), 1)
self.assertEquals(len(Finding.objects(test=TEST_SEGMENTATION)), 2)