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config_sinetstream.py
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config_sinetstream.py
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from constants import (
ENV_SLEEP_TIME,
ENV_SLEEP_TIME_SD,
MQTT_BROKER_ADDR,
NEIGH_BROKER_PLAIN_NAME,
MQTT_CLOUD_TLS_NAME,
ENV_DATASET_COLUMNS,
STEEL_BROKER_AUTH_NAME,
ACTIVE_TIME,
INACTIVE_TIME,
choose_random_columns_in_dataset,
IN_DICT_USERNAMES,
IN_DICT_PASSWORDS,
)
import random
PROJECT_NAME = "gothX_fullDataset_240703_1505"
iot_devices: dict[str, dict[str, str]] = {}
########################################
# configuration of legitimate actions #
########################################
# for iot devices iotsim-domotic-monitor-bis, dataset have 24 columns
# all values >=23 in ENV_DATASET_COLUMNS are ignored
for idx_iot_device in range(1, 15 * 15 + 1):
iot_devices[f"iotsim-domotic-monitor-bis-{idx_iot_device}"] = {
ENV_SLEEP_TIME: str(int(1 + 0.5 * idx_iot_device)),
ENV_SLEEP_TIME_SD: "0",
ENV_DATASET_COLUMNS: choose_random_columns_in_dataset(24),
MQTT_BROKER_ADDR: NEIGH_BROKER_PLAIN_NAME[0],
ACTIVE_TIME: str(60 * 60 * 20),
INACTIVE_TIME: str(60 * 60 * 4),
}
# for iot devices iotsim-cooler-motor, dataset have 5 columns
# all values >=4 in ENV_DATASET_COLUMNS are ignored
for cooler_index in range(1, 3 * 15):
iot_devices[f"iotsim-cooler-motor-{cooler_index}"] = {
ENV_SLEEP_TIME: str(int(1 + 0.5 * cooler_index)),
ENV_DATASET_COLUMNS: choose_random_columns_in_dataset(4),
MQTT_BROKER_ADDR: STEEL_BROKER_AUTH_NAME[0],
}
for pred_index in range(1, 4 * 15):
iot_devices[f"iotsim-predictive-maintenance-{pred_index}"] = {
ENV_SLEEP_TIME: str(int(20 + pred_index * 0.5)),
ENV_SLEEP_TIME_SD: "1",
ENV_DATASET_COLUMNS: choose_random_columns_in_dataset(15),
ACTIVE_TIME: str(60 * 60),
INACTIVE_TIME: str(60 * 15),
}
for cooler_index in range(3 * 15, 4 * 15 + 1):
iot_devices[f"iotsim-cooler-motor-{cooler_index}"] = {
ENV_SLEEP_TIME: str(int(40 + 0.5 * cooler_index)),
ENV_DATASET_COLUMNS: choose_random_columns_in_dataset(4),
MQTT_BROKER_ADDR: MQTT_CLOUD_TLS_NAME[0],
"TLS": True,
ACTIVE_TIME: str(random.randint(60 * 60, 60 * 60 * 2)),
INACTIVE_TIME: str(random.randint(60 * 30, 60 * 60)),
}
for pred_index in range(4 * 15, 11 * 15 + 1):
iot_devices[f"iotsim-predictive-maintenance-{pred_index}"] = {
ENV_SLEEP_TIME: str(int(35 + pred_index * 0.5)),
ENV_SLEEP_TIME_SD: "1",
ENV_DATASET_COLUMNS: choose_random_columns_in_dataset(15),
MQTT_BROKER_ADDR: MQTT_CLOUD_TLS_NAME[0],
"TLS": True,
}
"""
define the name of the kafka topic that will receive all registered mqtt topics
"""
kafka_topic = "kafka-topic"
"""
define which mqtt topic from a given mqtt broker will be copied in the kafka broker (through the connect-kafka node)
e.g.:
read from mqtt broker node with name broker1, topics "topic-10" and "topic-11"
read from mqtt broker node with name broker2, topic "topic-20"
{
"broker1": ["topic-10", "topic-11"],
"broker2": ["topic-20"],
}
if the mqtt topic does not exist on the specified mqtt broker, the worker is created but will have no effect
"""
mqtt_topics_domotic = list(
(
f"domotic/iotsim-domotic-monitor-bis-{i}"
for i in range(
1, len(list(device for device in iot_devices.keys() if "domotic" in device))
)
)
)
mqtt_topics_vibration = list(
(
f"vibration/cooler-iotsim-cooler-motor-{i}"
for i in range(
1, len(list(device for device in iot_devices.keys() if "cooler" in device))
)
)
)
mqtt_topics_to_connect = {
"iotsim-mqtt-broker-1.6-1": mqtt_topics_domotic,
"iotsim-mqtt-broker-1.6-auth-1": mqtt_topics_vibration,
}
########################################
# configuration of attack actions #
########################################
"""
if DDoS_only then IoT nodes are considered as compromised.
All steps about initial compromission, ports scan, credentials bruteforce and payload transfert are skipped
The only 3 attack settings taken into account (defined bellow) are
- nodes_with_ssh (username and password are required but have no effect)
- mqttsa_args
- target_mqtt_broker_ip
"""
DDoS_only = False
"""
nodes_with_ssh define which device will have ssh open and be part of the DDoS
for each tuple (node_name, username, password)
ssh server is open on node having node_name (on port 22)
a user is created with the given username and password (possibly found using hydra bruteforce dictionary later)
"""
# nodes_with_ssh: list[tuple[str, str, str]] = [
# ("iotsim-domotic-monitor-bis-1", "test", "password"),
# ("iotsim-domotic-monitor-bis-2", "administrator", "password"),
# ("iotsim-domotic-monitor-bis-3", "test", "password"),
# ("iotsim-domotic-monitor-bis-4", "admin", "1234"),
# ("iotsim-domotic-monitor-bis-5", "admin", "123456"),
# ("iotsim-domotic-monitor-bis-6", "test", "1234"),
# ("iotsim-domotic-monitor-bis-7", "man", "superman"),
# ("iotsim-cooler-motor-1", "guest", "password"),
# ("iotsim-cooler-motor-2", "toor", "rockyou"),
# ("iotsim-cooler-motor-3", "toor", "qwerty"),
# ("iotsim-cooler-motor-4", "guest", "000000"),
# ("iotsim-cooler-motor-5", "guest", "111111"),
# ("iotsim-cooler-motor-6", "guest", "111111"),
# ]
proportion_devices_launching_ddos = 20 / 100
shuffled_iot_names = list(iot_devices.keys())
random.shuffle(shuffled_iot_names)
nodes_with_ssh = list(
(node_name, random.choice(IN_DICT_USERNAMES), random.choice(IN_DICT_PASSWORDS))
for node_name in shuffled_iot_names[
: int(proportion_devices_launching_ddos * len(shuffled_iot_names))
]
)
"""
define timing (in seconds) between different attack steps
"""
w_time_legitimate_only_before_attack = 60 * 60 * 24
w_time_cve_exploitation_openrevshell = 60 * 60 * 1
w_time_openrevshell_toolstransfert = 60 * 60 * 1
w_time_toolstransfert_nmap = 60 * 60 * 2
w_time_nmap_hydra = 60 * 60 * 2
w_time_hydra_mqttsa_scp = 60 * 30
w_time_scp_coordinated_launch = 60 * 10
w_time_end_ddos_to_end_scenario = 60 * 60
# arguments to append to the nmap scan `./nmap -Pn -oG ips.txt <nmap_args>`
# for details see official nmap documentation https://nmap.org/book/man-briefoptions.html
# this step of the attack is the discovery (trying to find if any ip has ssh port open)
nmap_args = "192.168.18-20.10-150 --max-rate 0.7 -p 22"
# arguments to append to the hydra bruteforce on ssh: `hydra/hydra -o success.txt -M ssh_ips.txt ssh <hydra_args>`# use -f to stop attack on IP x when one login/pwd found for IP x,
# use -F to stop attack on all IPs when one login/pwd has been found for any IP
# for details see official hydra repo https://github.com/vanhauser-thc/thc-hydra/blob/master/hydra.1
# p.txt and psmall.txt are available passwords lists
hydra_args = "-f -L u.txt -P p.txt -t 2"
# define maximum time during which credentials bruteforce is done (with hydra).
# After this time, found credentials are used, if there is none, attack stops
max_time_creds_bruteforce = 60 * 60 * 10 # seconds
# arguments when lauching mqttsa: `mqttsa <mqttsa_args> <target_mqtt_broker_ip>`
# for details seee official mqttsa repo https://github.com/stfbk/mqttsa?tab=readme-ov-file
# -fc flag launches SlowITe Dos: https://www.researchgate.net/publication/341563324_SlowITe_a_Novel_Denial_of_Service_Attack_Affecting_MQTT
mqttsa_args = "-fc 100 -fcsize 10 -sc 2400"
# ip of the mtqq broker that is targeted by mqttsa tool
target_mqtt_broker_ip = "192.168.2.1" # ip of node mqtt-broker-1.6
# target_mqtt_broker_ip = "192.168.0.4" # ip of node iotsim-mqtt-broker-tls-1
# target_mqtt_broker_ip = "192.168.3.1" # ip of node iotsim-mqtt-broker-1.6-auth-1
# port use for the reverse shell using nc (from connect-kafa to client-connect)
nc_port = 4444