def start(self):
try:
LOG.info("Monkey is starting...")
LOG.debug("Starting the setup phase.")
# Sets island's IP and port for monkey to communicate to
self.set_default_server()
self.set_default_port()
# Create a dir for monkey files if there isn't one
create_monkey_dir()
self.upgrade_to_64_if_needed()
ControlClient.wakeup(parent=self._parent)
ControlClient.load_control_config()
if is_windows_os():
T1106Telem(ScanStatus.USED, UsageEnum.SINGLETON_WINAPI).send()
self.shutdown_by_not_alive_config()
if self.is_started_on_island():
ControlClient.report_start_on_island()
ControlClient.should_monkey_run(self._opts.vulnerable_port)
if firewall.is_enabled():
firewall.add_firewall_rule()
monkey_tunnel = ControlClient.create_control_tunnel()
if monkey_tunnel:
monkey_tunnel.start()
StateTelem(is_done=False, version=get_version()).send()
TunnelTelem().send()
LOG.debug("Starting the post-breach phase.")
self.collect_system_info_if_configured()
PostBreach().execute_all_configured()
LOG.debug("Starting the propagation phase.")
self.shutdown_by_max_depth_reached()
for iteration_index in range(WormConfiguration.max_iterations):
ControlClient.keepalive()
ControlClient.load_control_config()
self._network.initialize()
self._fingerprint = HostFinger.get_instances()
self._exploiters = HostExploiter.get_classes()
if not self._keep_running or not WormConfiguration.alive:
break
machines = self._network.get_victim_machines(
max_find=WormConfiguration.victims_max_find,
stop_callback=ControlClient.check_for_stop)
is_empty = True
for machine in machines:
if ControlClient.check_for_stop():
break
is_empty = False
for finger in self._fingerprint:
LOG.info(
"Trying to get OS fingerprint from %r with module %s",
machine, finger.__class__.__name__)
finger.get_host_fingerprint(machine)
ScanTelem(machine).send()
# skip machines that we've already exploited
if machine in self._exploited_machines:
LOG.debug("Skipping %r - already exploited", machine)
continue
elif machine in self._fail_exploitation_machines:
if WormConfiguration.retry_failed_explotation:
LOG.debug(
"%r - exploitation failed before, trying again",
machine)
else:
LOG.debug(
"Skipping %r - exploitation failed before",
machine)
continue
if monkey_tunnel:
monkey_tunnel.set_tunnel_for_host(machine)
if self._default_server:
if self._network.on_island(self._default_server):
machine.set_default_server(
get_interface_to_target(machine.ip_addr) +
(':' + self._default_server_port if self.
_default_server_port else ''))
else:
machine.set_default_server(self._default_server)
LOG.debug("Default server for machine: %r set to %s" %
(machine, machine.default_server))
# Order exploits according to their type
self._exploiters = sorted(
self._exploiters,
key=lambda exploiter_: exploiter_.EXPLOIT_TYPE.value)
host_exploited = False
for exploiter in [
exploiter(machine)
for exploiter in self._exploiters
]:
if self.try_exploiting(machine, exploiter):
host_exploited = True
VictimHostTelem('T1210',
ScanStatus.USED,
machine=machine).send()
break
if not host_exploited:
self._fail_exploitation_machines.add(machine)
VictimHostTelem('T1210',
ScanStatus.SCANNED,
machine=machine).send()
if not self._keep_running:
break
if (not is_empty) and (WormConfiguration.max_iterations >
iteration_index + 1):
time_to_sleep = WormConfiguration.timeout_between_iterations
LOG.info(
"Sleeping %d seconds before next life cycle iteration",
time_to_sleep)
time.sleep(time_to_sleep)
if self._keep_running and WormConfiguration.alive:
LOG.info("Reached max iterations (%d)",
WormConfiguration.max_iterations)
elif not WormConfiguration.alive:
LOG.info("Marked not alive from configuration")
# if host was exploited, before continue to closing the tunnel ensure the exploited host had its chance to
# connect to the tunnel
if len(self._exploited_machines) > 0:
time_to_sleep = WormConfiguration.keep_tunnel_open_time
LOG.info(
"Sleeping %d seconds for exploited machines to connect to tunnel",
time_to_sleep)
time.sleep(time_to_sleep)
if monkey_tunnel:
monkey_tunnel.stop()
monkey_tunnel.join()
except PlannedShutdownException:
LOG.info(
"A planned shutdown of the Monkey occurred. Logging the reason and finishing execution."
)
LOG.exception("Planned shutdown, reason:")
def start(self):
LOG.info("Monkey is running...")
if not ControlClient.find_server(default_tunnel=self._default_tunnel):
LOG.info("Monkey couldn't find server. Going down.")
return
# Create a dir for monkey files if there isn't one
utils.create_monkey_dir()
if WindowsUpgrader.should_upgrade():
self._upgrading_to_64 = True
self._singleton.unlock()
LOG.info("32bit monkey running on 64bit Windows. Upgrading.")
WindowsUpgrader.upgrade(self._opts)
return
ControlClient.wakeup(parent=self._parent)
ControlClient.load_control_config()
if not WormConfiguration.alive:
LOG.info("Marked not alive from configuration")
return
if firewall.is_enabled():
firewall.add_firewall_rule()
monkey_tunnel = ControlClient.create_control_tunnel()
if monkey_tunnel:
monkey_tunnel.start()
ControlClient.send_telemetry("state", {'done': False})
self._default_server = WormConfiguration.current_server
LOG.debug("default server: %s" % self._default_server)
ControlClient.send_telemetry(
"tunnel", {'proxy': ControlClient.proxies.get('https')})
if WormConfiguration.collect_system_info:
LOG.debug("Calling system info collection")
system_info_collector = SystemInfoCollector()
system_info = system_info_collector.get_info()
ControlClient.send_telemetry("system_info_collection", system_info)
for action_class in WormConfiguration.post_breach_actions:
action = action_class()
action.act()
PostBreach().execute()
if 0 == WormConfiguration.depth:
LOG.debug("Reached max depth, shutting down")
ControlClient.send_telemetry("trace",
"Reached max depth, shutting down")
return
else:
LOG.debug("Running with depth: %d" % WormConfiguration.depth)
for iteration_index in xrange(WormConfiguration.max_iterations):
ControlClient.keepalive()
ControlClient.load_control_config()
self._network.initialize()
self._exploiters = WormConfiguration.exploiter_classes
self._fingerprint = [
fingerprint()
for fingerprint in WormConfiguration.finger_classes
]
if not self._keep_running or not WormConfiguration.alive:
break
machines = self._network.get_victim_machines(
max_find=WormConfiguration.victims_max_find,
stop_callback=ControlClient.check_for_stop)
is_empty = True
for machine in machines:
if ControlClient.check_for_stop():
break
is_empty = False
for finger in self._fingerprint:
LOG.info(
"Trying to get OS fingerprint from %r with module %s",
machine, finger.__class__.__name__)
finger.get_host_fingerprint(machine)
ControlClient.send_telemetry('scan', {
'machine': machine.as_dict(),
})
# skip machines that we've already exploited
if machine in self._exploited_machines:
LOG.debug("Skipping %r - already exploited", machine)
continue
elif machine in self._fail_exploitation_machines:
if WormConfiguration.retry_failed_explotation:
LOG.debug(
"%r - exploitation failed before, trying again",
machine)
else:
LOG.debug("Skipping %r - exploitation failed before",
machine)
continue
if monkey_tunnel:
monkey_tunnel.set_tunnel_for_host(machine)
if self._default_server:
LOG.debug("Default server: %s set to machine: %r" %
(self._default_server, machine))
machine.set_default_server(self._default_server)
# Order exploits according to their type
self._exploiters = sorted(
self._exploiters,
key=lambda exploiter_: exploiter_.EXPLOIT_TYPE.value)
host_exploited = False
for exploiter in [
exploiter(machine) for exploiter in self._exploiters
]:
if self.try_exploiting(machine, exploiter):
host_exploited = True
VictimHostTelem('T1210',
ScanStatus.USED.value,
machine=machine).send()
break
if not host_exploited:
self._fail_exploitation_machines.add(machine)
VictimHostTelem('T1210',
ScanStatus.SCANNED.value,
machine=machine).send()
if not self._keep_running:
break
if (not is_empty) and (WormConfiguration.max_iterations >
iteration_index + 1):
time_to_sleep = WormConfiguration.timeout_between_iterations
LOG.info(
"Sleeping %d seconds before next life cycle iteration",
time_to_sleep)
time.sleep(time_to_sleep)
if self._keep_running and WormConfiguration.alive:
LOG.info("Reached max iterations (%d)",
WormConfiguration.max_iterations)
elif not WormConfiguration.alive:
LOG.info("Marked not alive from configuration")
# if host was exploited, before continue to closing the tunnel ensure the exploited host had its chance to
# connect to the tunnel
if len(self._exploited_machines) > 0:
time_to_sleep = WormConfiguration.keep_tunnel_open_time
LOG.info(
"Sleeping %d seconds for exploited machines to connect to tunnel",
time_to_sleep)
time.sleep(time_to_sleep)
if monkey_tunnel:
monkey_tunnel.stop()
monkey_tunnel.join()
def start(self):
LOG.info("Monkey is running...")
# Sets island's IP and port for monkey to communicate to
if not self.set_default_server():
return
self.set_default_port()
# Create a dir for monkey files if there isn't one
create_monkey_dir()
if WindowsUpgrader.should_upgrade():
self._upgrading_to_64 = True
self._singleton.unlock()
LOG.info("32bit monkey running on 64bit Windows. Upgrading.")
WindowsUpgrader.upgrade(self._opts)
return
ControlClient.wakeup(parent=self._parent)
ControlClient.load_control_config()
if is_windows_os():
T1106Telem(ScanStatus.USED, UsageEnum.SINGLETON_WINAPI).send()
if not WormConfiguration.alive:
LOG.info("Marked not alive from configuration")
return
if firewall.is_enabled():
firewall.add_firewall_rule()
monkey_tunnel = ControlClient.create_control_tunnel()
if monkey_tunnel:
monkey_tunnel.start()
StateTelem(is_done=False).send()
TunnelTelem().send()
if WormConfiguration.collect_system_info:
LOG.debug("Calling system info collection")
system_info_collector = SystemInfoCollector()
system_info = system_info_collector.get_info()
SystemInfoTelem(system_info).send()
# Executes post breach actions
PostBreach().execute()
if 0 == WormConfiguration.depth:
TraceTelem("Reached max depth, shutting down").send()
return
else:
LOG.debug("Running with depth: %d" % WormConfiguration.depth)
for iteration_index in xrange(WormConfiguration.max_iterations):
ControlClient.keepalive()
ControlClient.load_control_config()
self._network.initialize()
self._exploiters = WormConfiguration.exploiter_classes
self._fingerprint = [
fingerprint()
for fingerprint in WormConfiguration.finger_classes
]
if not self._keep_running or not WormConfiguration.alive:
break
machines = self._network.get_victim_machines(
max_find=WormConfiguration.victims_max_find,
stop_callback=ControlClient.check_for_stop)
is_empty = True
for machine in machines:
if ControlClient.check_for_stop():
break
is_empty = False
for finger in self._fingerprint:
LOG.info(
"Trying to get OS fingerprint from %r with module %s",
machine, finger.__class__.__name__)
finger.get_host_fingerprint(machine)
ScanTelem(machine).send()
# skip machines that we've already exploited
if machine in self._exploited_machines:
LOG.debug("Skipping %r - already exploited", machine)
continue
elif machine in self._fail_exploitation_machines:
if WormConfiguration.retry_failed_explotation:
LOG.debug(
"%r - exploitation failed before, trying again",
machine)
else:
LOG.debug("Skipping %r - exploitation failed before",
machine)
continue
if monkey_tunnel:
monkey_tunnel.set_tunnel_for_host(machine)
if self._default_server:
if self._network.on_island(self._default_server):
machine.set_default_server(
get_interface_to_target(machine.ip_addr) +
(':' + self._default_server_port if self.
_default_server_port else ''))
else:
machine.set_default_server(self._default_server)
LOG.debug("Default server for machine: %r set to %s" %
(machine, machine.default_server))
# Order exploits according to their type
if WormConfiguration.should_exploit:
self._exploiters = sorted(
self._exploiters,
key=lambda exploiter_: exploiter_.EXPLOIT_TYPE.value)
host_exploited = False
for exploiter in [
exploiter(machine)
for exploiter in self._exploiters
]:
if self.try_exploiting(machine, exploiter):
host_exploited = True
VictimHostTelem('T1210',
ScanStatus.USED,
machine=machine).send()
break
if not host_exploited:
self._fail_exploitation_machines.add(machine)
VictimHostTelem('T1210',
ScanStatus.SCANNED,
machine=machine).send()
if not self._keep_running:
break
if (not is_empty) and (WormConfiguration.max_iterations >
iteration_index + 1):
time_to_sleep = WormConfiguration.timeout_between_iterations
LOG.info(
"Sleeping %d seconds before next life cycle iteration",
time_to_sleep)
time.sleep(time_to_sleep)
if self._keep_running and WormConfiguration.alive:
LOG.info("Reached max iterations (%d)",
WormConfiguration.max_iterations)
elif not WormConfiguration.alive:
LOG.info("Marked not alive from configuration")
# if host was exploited, before continue to closing the tunnel ensure the exploited host had its chance to
# connect to the tunnel
if len(self._exploited_machines) > 0:
time_to_sleep = WormConfiguration.keep_tunnel_open_time
LOG.info(
"Sleeping %d seconds for exploited machines to connect to tunnel",
time_to_sleep)
time.sleep(time_to_sleep)
if monkey_tunnel:
monkey_tunnel.stop()
monkey_tunnel.join()
def start(self):
LOG.info("Monkey is running...")
if not ControlClient.find_server(default_tunnel=self._default_tunnel):
LOG.info("Monkey couldn't find server. Going down.")
return
if WindowsUpgrader.should_upgrade():
self._upgrading_to_64 = True
self._singleton.unlock()
LOG.info("32bit monkey running on 64bit Windows. Upgrading.")
WindowsUpgrader.upgrade(self._opts)
return
ControlClient.wakeup(parent=self._parent)
ControlClient.load_control_config()
if not WormConfiguration.alive:
LOG.info("Marked not alive from configuration")
return
if firewall.is_enabled():
firewall.add_firewall_rule()
monkey_tunnel = ControlClient.create_control_tunnel()
if monkey_tunnel:
monkey_tunnel.start()
ControlClient.send_telemetry("state", {'done': False})
self._default_server = WormConfiguration.current_server
LOG.debug("default server: %s" % self._default_server)
ControlClient.send_telemetry(
"tunnel", {'proxy': ControlClient.proxies.get('https')})
if WormConfiguration.collect_system_info:
LOG.debug("Calling system info collection")
system_info_collector = SystemInfoCollector()
system_info = system_info_collector.get_info()
ControlClient.send_telemetry("system_info_collection", system_info)
if 0 == WormConfiguration.depth:
LOG.debug("Reached max depth, shutting down")
ControlClient.send_telemetry("trace",
"Reached max depth, shutting down")
return
else:
LOG.debug("Running with depth: %d" % WormConfiguration.depth)
for iteration_index in xrange(WormConfiguration.max_iterations):
ControlClient.keepalive()
ControlClient.load_control_config()
LOG.debug("Users to try: %s" %
str(WormConfiguration.exploit_user_list))
LOG.debug("Passwords to try: %s" %
str(WormConfiguration.exploit_password_list))
self._network.initialize()
self._exploiters = WormConfiguration.exploiter_classes
self._fingerprint = [
fingerprint()
for fingerprint in WormConfiguration.finger_classes
]
if not self._keep_running or not WormConfiguration.alive:
break
machines = self._network.get_victim_machines(
WormConfiguration.scanner_class,
max_find=WormConfiguration.victims_max_find,
stop_callback=ControlClient.check_for_stop)
is_empty = True
for machine in machines:
if ControlClient.check_for_stop():
break
is_empty = False
for finger in self._fingerprint:
LOG.info(
"Trying to get OS fingerprint from %r with module %s",
machine, finger.__class__.__name__)
finger.get_host_fingerprint(machine)
ControlClient.send_telemetry(
'scan', {
'machine': machine.as_dict(),
'scanner': WormConfiguration.scanner_class.__name__
})
# skip machines that we've already exploited
if machine in self._exploited_machines:
LOG.debug("Skipping %r - already exploited", machine)
continue
elif machine in self._fail_exploitation_machines:
if WormConfiguration.retry_failed_explotation:
LOG.debug(
"%r - exploitation failed before, trying again",
machine)
else:
LOG.debug("Skipping %r - exploitation failed before",
machine)
continue
if monkey_tunnel:
monkey_tunnel.set_tunnel_for_host(machine)
if self._default_server:
LOG.debug("Default server: %s set to machine: %r" %
(self._default_server, machine))
machine.set_default_server(self._default_server)
successful_exploiter = None
for exploiter in [
exploiter(machine) for exploiter in self._exploiters
]:
if not exploiter.is_os_supported():
LOG.info(
"Skipping exploiter %s host:%r, os is not supported",
exploiter.__class__.__name__, machine)
continue
LOG.info("Trying to exploit %r with exploiter %s...",
machine, exploiter.__class__.__name__)
result = False
try:
result = exploiter.exploit_host()
if result:
successful_exploiter = exploiter
break
else:
LOG.info("Failed exploiting %r with exploiter %s",
machine, exploiter.__class__.__name__)
except Exception as exc:
LOG.exception(
"Exception while attacking %s using %s: %s",
machine, exploiter.__class__.__name__, exc)
finally:
exploiter.send_exploit_telemetry(result)
if successful_exploiter:
self._exploited_machines.add(machine)
LOG.info("Successfully propagated to %s using %s", machine,
successful_exploiter.__class__.__name__)
# check if max-exploitation limit is reached
if WormConfiguration.victims_max_exploit <= len(
self._exploited_machines):
self._keep_running = False
LOG.info("Max exploited victims reached (%d)",
WormConfiguration.victims_max_exploit)
break
else:
self._fail_exploitation_machines.add(machine)
if (not is_empty) and (WormConfiguration.max_iterations >
iteration_index + 1):
time_to_sleep = WormConfiguration.timeout_between_iterations
LOG.info(
"Sleeping %d seconds before next life cycle iteration",
time_to_sleep)
time.sleep(time_to_sleep)
if self._keep_running and WormConfiguration.alive:
LOG.info("Reached max iterations (%d)",
WormConfiguration.max_iterations)
elif not WormConfiguration.alive:
LOG.info("Marked not alive from configuration")
# if host was exploited, before continue to closing the tunnel ensure the exploited host had its chance to
# connect to the tunnel
if len(self._exploited_machines) > 0:
time_to_sleep = WormConfiguration.keep_tunnel_open_time
LOG.info(
"Sleeping %d seconds for exploited machines to connect to tunnel",
time_to_sleep)
time.sleep(time_to_sleep)
if monkey_tunnel:
monkey_tunnel.stop()
monkey_tunnel.join()
def start(self):
try:
logger.info("Monkey is starting...")
logger.debug("Starting the setup phase.")
# Sets island's IP and port for monkey to communicate to
self.set_default_server()
self.set_default_port()
# Create a dir for monkey files if there isn't one
create_monkey_dir()
self.upgrade_to_64_if_needed()
ControlClient.wakeup(parent=self._parent)
ControlClient.load_control_config()
if is_windows_os():
T1106Telem(ScanStatus.USED, UsageEnum.SINGLETON_WINAPI).send()
self.shutdown_by_not_alive_config()
if is_running_on_island():
WormConfiguration.started_on_island = True
ControlClient.report_start_on_island()
if not ControlClient.should_monkey_run(self._opts.vulnerable_port):
raise PlannedShutdownException(
"Monkey shouldn't run on current machine "
"(it will be exploited later with more depth)."
)
if firewall.is_enabled():
firewall.add_firewall_rule()
self._monkey_tunnel = ControlClient.create_control_tunnel()
if self._monkey_tunnel:
self._monkey_tunnel.start()
StateTelem(is_done=False, version=get_version()).send()
TunnelTelem().send()
logger.debug("Starting the post-breach phase asynchronously.")
self._post_breach_phase = Thread(target=self.start_post_breach_phase)
self._post_breach_phase.start()
if not InfectionMonkey.max_propagation_depth_reached():
logger.info("Starting the propagation phase.")
logger.debug("Running with depth: %d" % WormConfiguration.depth)
self.propagate()
else:
logger.info(
"Maximum propagation depth has been reached; monkey will not propagate."
)
TraceTelem(MAX_DEPTH_REACHED_MESSAGE).send()
if self._keep_running and WormConfiguration.alive:
InfectionMonkey.run_ransomware()
# if host was exploited, before continue to closing the tunnel ensure the exploited
# host had its chance to
# connect to the tunnel
if len(self._exploited_machines) > 0:
time_to_sleep = WormConfiguration.keep_tunnel_open_time
logger.info(
"Sleeping %d seconds for exploited machines to connect to tunnel", time_to_sleep
)
time.sleep(time_to_sleep)
except PlannedShutdownException:
logger.info(
"A planned shutdown of the Monkey occurred. Logging the reason and finishing "
"execution."
)
logger.exception("Planned shutdown, reason:")
finally:
if self._monkey_tunnel:
self._monkey_tunnel.stop()
self._monkey_tunnel.join()
if self._post_breach_phase:
self._post_breach_phase.join()