def forward_open(self):
"""Send a forward open request"""
cippkt = CIP(service=0x54,
path=CIP_Path(wordsize=2, path=b'\x20\x06\x24\x01'))
cippkt /= CIP_ReqForwardOpen(
path_wordsize=10,
path=
b"\x01\x00\x34\x04\x00\x00\x00\x00\x00\x00\x00\x00\x91\x06\x54\x6f\x43\x4e\x43\x34"
)
#FOR CREATING PACKETS
#Attempt to change Ethernet protocol
#ToCell path (9):\x34\x04\x01\x00\x0e\x00\xb2\x00\x00\x01\x91\x06\x54\x6f\x43\x65\x6c\x6c
#associated error: 0x0115
#To CNC4 path (10): \x01\x00\x34\x04\x00\x00\x00\x00\x00\x00\x00\x00\x91\x06\x54\x6f\x43\x4e\x43\x34
#associated error: 0x031e
#j path (8): \x01\x01\x34\x04\x00\x00\x00\x00\x00\x00\x00\x00\x91\x01\x6a\x00
#associated error: None!!!!!!
#print(cippkt['TCP'])
#End of attempt
self.send_rr_cip(cippkt)
resppkt = self.recv_enippkt()
if self.sock is None:
return
cippkt = resppkt[CIP]
if cippkt.status[0].status != 0:
logger.error("Failed to Forward Open CIP connection: %r",
cippkt.status[0])
return False
assert isinstance(cippkt.payload, CIP_RespForwardOpen)
self.enip_connid = cippkt.payload.OT_network_connection_id
return True
def get_list_of_instances(self, class_id):
"""Use CIP service 0x4b to get a list of instances of the specified class"""
start_instance = 0
inst_list = []
while True:
cippkt = CIP(service=0x4b,
path=CIP_Path.make(class_id=class_id,
instance_id=start_instance))
self.send_rr_cm_cip(cippkt)
if self.sock is None:
return
resppkt = self.recv_enippkt()
# Decode a list of 32-bit integers
data = str(resppkt[CIP].payload)
for i in range(0, len(data), 4):
inst_list.append(struct.unpack('<I', data[i:i + 4])[0])
cipstatus = resppkt[CIP].status[0].status
if cipstatus == 0:
return inst_list
elif cipstatus == 6:
# Partial response, query again from the next instance
start_instance = inst_list[-1] + 1
else:
logger.error("Error in Get Instance List response: %r",
resppkt[CIP].status[0])
return
def main():
# Connect to PLC
client = plc.PLCClient('192.168.9.227')
if not client.connected:
sys.exit(1)
# Creating Connections Through the Connection Manager Object
if not client.forward_open():
sys.exit(1)
# Get_Instance_Attribute_List
# Set initial instance to 0x0
instanceid = 0x0
# status
status = ''
# Number of attributes to retrieve (2 bytes) + Attribute 1 - Symbol Name (2 bytes) + Attribute 2 - Symbol Type (2 bytes)
data = "\x02\x00\x01\x00\x02\x00"
while ("Success" not in status):
cippkt = CIP(service=0x55,
path=CIP_Path.make(class_id=0x6b,
instance_id=instanceid,
word_size=3)) / data
client.send_unit_cip(cippkt)
resppkt = client.recv_enippkt()
status = str(resppkt[CIP].status)
instanceid = parse_attributes(resppkt[CIP].load) + 1
client.forward_close()
def read_full_tag(self, class_id, instance_id, total_size):
"""Read the content of a tag which can be quite big"""
data_chunks = []
offset = 0
remaining_size = total_size
while remaining_size > 0:
cippkt = CIP(service=0x4c,
path=CIP_Path.make(class_id=class_id,
instance_id=instance_id))
cippkt /= CIP_ReqReadOtherTag(start=offset, length=remaining_size)
self.send_rr_cm_cip(cippkt)
if self.sock is None:
return
resppkt = self.recv_enippkt()
cipstatus = resppkt[CIP].status[0].status
received_data = str(resppkt[CIP].payload)
if cipstatus == 0:
# Success
assert len(received_data) == remaining_size
elif cipstatus == 6 and len(received_data) > 0:
# Partial response (size too big)
pass
else:
logger.error("Error in Read Tag response: %r",
resppkt[CIP].status[0])
return
# Remember the chunk and continue
data_chunks.append(received_data)
offset += len(received_data)
remaining_size -= len(received_data)
return b''.join(data_chunks)
def fuzz_classid(client, instanceid):
status = {}
for classid in range(0x64, 0xc8):
data = "\x01\x00"
# Symbol Instanc Addressing
cippkt = CIP(service=0x4c,
path=CIP_Path.make(class_id=classid,
instance_id=instanceid,
word_size=3)) / data
print("class id: " + str(hex(classid)) + " | instance id: " +
str(hex(instanceid)),
end='\r')
try:
client.send_unit_cip(cippkt)
except:
pass
# Show the response only if it does not contain data
resppkt = client.recv_enippkt()
if resppkt is not None:
stat = str(resppkt[CIP].status)
if stat in status:
status.get(stat).append(str(hex(classid)))
else:
status[stat] = [str(hex(classid))]
# print all status
for key, value in status.items():
print("Status: " + key)
for v in value:
print(" " + v)
def fuzz_timeout(client):
for i in range(0xff):
# i = 0x1
print("Fuzzing timeout: " + str(hex(i)))
# Construct an enip packet from raw
enippkt = ENIP_TCP(session=client.session_id)
# Symbol Instanc Addressing
cippkt = CIP(service=0x4c,
path=CIP_Path.make(class_id=0x6b, instance_id=0x227))
# interface handle, timeout, count, items
enippkt /= ENIP_SendUnitData(
timeout=i,
items=[
# type_id, length, connection id
ENIP_SendUnitData_Item() /
ENIP_ConnectionAddress(connection_id=client.enip_connid),
# type_id, length, sequence
ENIP_SendUnitData_Item() /
ENIP_ConnectionPacket(sequence=client.sequence) / cippkt
])
client.sequence += 1
if client.sock is not None:
client.sock.send(str(enippkt))
# Show the response only if it does not contain data
resppkt = client.recv_enippkt()
if resppkt is not None:
print("Status: " + str(resppkt[ENIP_TCP].status))
print("TImeout: " + str(hex(resppkt[ENIP_SendUnitData].timeout)))
def fuzz_instanceid(client, classid):
status = {}
data = "\x01\x00"
for instanceid in range(0xffff):
# Symbol Instanc Addressing
cippkt = CIP(service=0x4c,
path=CIP_Path.make(class_id=classid,
instance_id=instanceid,
word_size=3)) / data
# print("class id: " + str(hex(classid)) + " | instance id: " + str(hex(instanceid)), end='\r')
try:
client.send_unit_cip(cippkt)
except:
pass
# Receive the response and show it
resppkt = client.recv_enippkt()
# print("class id: " + str(hex(classid)) + " | instance id: " + str(hex(instanceid)) + " Status: " + str(resppkt[CIP].status))
if resppkt is not None:
stat = str(resppkt[CIP].status)
if stat in status:
status.get(stat).append(str(hex(instanceid)))
else:
status[stat] = [str(hex(instanceid))]
# print all status
for key, value in status.items():
print("Status: " + key)
for v in value:
print(" " + v)
def simple_read_tag(client, pathsize, classid, instanceid):
# Symbol Instanc Addressing
data = "\x01\x00"
cippkt = CIP(service=0x4c,
path=CIP_Path.make(class_id=classid,
instance_id=instanceid,
word_size=pathsize)) / data
# Construct an enip packet from raw
enippkt = ENIP_TCP(session=client.session_id)
# interface handle, timeout, count, items
enippkt /= ENIP_SendUnitData(
interface_handle=0x0,
items=[
# type_id, length, connection id
ENIP_SendUnitData_Item() /
ENIP_ConnectionAddress(connection_id=client.enip_connid),
# type_id, length, sequence
ENIP_SendUnitData_Item() /
ENIP_ConnectionPacket(sequence=client.sequence) / cippkt
])
client.sequence += 1
if client.sock is not None:
client.sock.send(str(enippkt))
enippkt.show()
# Show the response only if it does not contain data
resppkt = client.recv_enippkt()
if resppkt is not None:
print("Status: " + str(resppkt[CIP].status))
def read_full_tag(self, class_id, instance_id, total_size):
"""Read the content of a tag which can be quite big"""
data_chunks = []
offset = 0
remaining_size = total_size
while remaining_size > 0:
cippkt = CIP(service=0x4c, path=CIP_Path.make(class_id=class_id, instance_id=instance_id))
cippkt /= CIP_ReqReadOtherTag(start=offset, length=remaining_size)
self.send_rr_cm_cip(cippkt)
if self.sock is None:
return
resppkt = self.recv_enippkt()
cipstatus = resppkt[CIP].status[0].status
received_data = str(resppkt[CIP].payload)
if cipstatus == 0:
# Success
assert len(received_data) == remaining_size
elif cipstatus == 6 and len(received_data) > 0:
# Partial response (size too big)
pass
else:
logger.error("Error in Read Tag response: %r", resppkt[CIP].status[0])
return
# Remember the chunk and continue
data_chunks.append(received_data)
offset += len(received_data)
remaining_size -= len(received_data)
return b''.join(data_chunks)
def get_list_of_instances(self, class_id):
"""Use CIP service 0x4b to get a list of instances of the specified class"""
start_instance = 0
inst_list = []
while True:
cippkt = CIP(service=0x4b, path=CIP_Path.make(class_id=class_id, instance_id=start_instance))
self.send_rr_cm_cip(cippkt)
if self.sock is None:
return
resppkt = self.recv_enippkt()
# Decode a list of 32-bit integers
data = str(resppkt[CIP].payload)
for i in range(0, len(data), 4):
inst_list.append(struct.unpack('<I', data[i:i + 4])[0])
cipstatus = resppkt[CIP].status[0].status
if cipstatus == 0:
return inst_list
elif cipstatus == 6:
# Partial response, query again from the next instance
start_instance = inst_list[-1] + 1
else:
logger.error("Error in Get Instance List response: %r", resppkt[CIP].status[0])
return
def forward_close(self):
"""Send a forward close request"""
cippkt = CIP(service=0x4e, path=CIP_Path(wordsize=2, path=b'\x20\x06\x24\x01'))
cippkt /= CIP_ReqForwardClose(path_wordsize=3, path=b"\x01\x00\x20\x02\x24\x01")
self.send_rr_cip(cippkt)
if self.sock is None:
return
resppkt = self.recv_enippkt()
cippkt = resppkt[CIP]
if cippkt.status[0].status != 0:
logger.error("Failed to Forward Close CIP connection: %r", cippkt.status[0])
return False
return True
def set_attribute(self, class_id, instance, attr, value):
"""Set the value of attribute class/instance/attr"""
path = CIP_Path.make(class_id=class_id, instance_id=instance)
# User CIP service 4: Set_Attribute_List
cippkt = CIP(service=4, path=path) / scapy_all.Raw(load=struct.pack('<HH', 1, attr) + value)
self.send_rr_cm_cip(cippkt)
if self.sock is None:
return
resppkt = self.recv_enippkt()
cippkt = resppkt[CIP]
if cippkt.status[0].status != 0:
logger.error("CIP set attribute error: %r", cippkt.status[0])
return False
return True
def set_attribute(self, class_id, instance, attr, value):
"""Set the value of attribute class/instance/attr"""
path = CIP_Path.make(class_id=class_id, instance_id=instance)
# User CIP service 4: Set_Attribute_List
cippkt = CIP(service=4, path=path) / scapy_all.Raw(load=struct.pack('<HH', 1, attr) + value)
self.send_rr_cm_cip(cippkt)
if self.sock is None:
return
resppkt = self.recv_enippkt()
cippkt = resppkt[CIP]
if cippkt.status[0].status != 0:
logger.error("CIP set attribute error: %r", cippkt.status[0])
return False
return True
def forward_open(self):
"""Send a forward open request"""
cippkt = CIP(service=0x54, path=CIP_Path(wordsize=2, path=b'\x20\x06\x24\x01'))
cippkt /= CIP_ReqForwardOpen(path_wordsize=3, path=b"\x01\x00\x20\x02\x24\x01")
self.send_rr_cip(cippkt)
resppkt = self.recv_enippkt()
if self.sock is None:
return
cippkt = resppkt[CIP]
if cippkt.status[0].status != 0:
logger.error("Failed to Forward Open CIP connection: %r", cippkt.status[0])
return False
assert isinstance(cippkt.payload, CIP_RespForwardOpen)
self.enip_connid = cippkt.payload.OT_network_connection_id
return True
def fuzz_pathsize(client, classid, instanceid):
data = "\x01\x00"
for pathsize in range(0xff):
# Symbol Instanc Addressing
cippkt = CIP(service=0x4c,
path=CIP_Path.make(class_id=classid,
instance_id=instanceid,
word_size=pathsize)) / data
try:
client.send_unit_cip(cippkt)
except:
pass
# Show the response only if it does not contain data
resppkt = client.recv_enippkt()
if resppkt is not None:
print("Status: " + str(resppkt[CIP].status))
def get_attribute(self, class_id, instance, attr):
"""Get an attribute for the specified class/instance/attr path"""
# Get_Attribute_Single does not seem to work properly
# path = CIP_Path.make(class_id=class_id, instance_id=instance, attribute_id=attr)
# cippkt = CIP(service=0x0e, path=path) # Get_Attribute_Single
path = CIP_Path.make(class_id=class_id, instance_id=instance)
cippkt = CIP(path=path) / CIP_ReqGetAttributeList(attrs=[attr])
self.send_rr_cm_cip(cippkt)
if self.sock is None:
return
resppkt = self.recv_enippkt()
cippkt = resppkt[CIP]
if cippkt.status[0].status != 0:
logger.error("CIP get attribute error: %r", cippkt.status[0])
return
resp_getattrlist = str(cippkt.payload)
assert resp_getattrlist[:2] == b'\x01\x00' # Attribute count must be 1
assert struct.unpack('<H', resp_getattrlist[2:4])[0] == attr # First attribute
assert resp_getattrlist[4:6] == b'\x00\x00' # Status
return resp_getattrlist[6:]
def get_attribute(self, class_id, instance, attr):
"""Get an attribute for the specified class/instance/attr path"""
# Get_Attribute_Single does not seem to work properly
# path = CIP_Path.make(class_id=class_id, instance_id=instance, attribute_id=attr)
# cippkt = CIP(service=0x0e, path=path) # Get_Attribute_Single
path = CIP_Path.make(class_id=class_id, instance_id=instance)
cippkt = CIP(path=path) / CIP_ReqGetAttributeList(attrs=[attr])
self.send_rr_cm_cip(cippkt)
if self.sock is None:
return
resppkt = self.recv_enippkt()
cippkt = resppkt[CIP]
if cippkt.status[0].status != 0:
logger.error("CIP get attribute error: %r", cippkt.status[0])
return
resp_getattrlist = str(cippkt.payload)
assert resp_getattrlist[:2] == b'\x01\x00' # Attribute count must be 1
assert struct.unpack('<H', resp_getattrlist[2:4])[0] == attr # First attribute
assert resp_getattrlist[4:6] == b'\x00\x00' # Status
return resp_getattrlist[6:]
def scan_one(class_name, instance_id, attribute_id=None):
success_service = set()
class_id = CLASS_CODES[class_name]
for service_id in CLASS_SERVICE_MAP[class_name]:
plc_client = plc.PLCClient(PLC_HOST)
if not plc_client.connected:
logging.error(("Cannot connect to server"))
sys.exit(1)
# Make packet detail
cippkt = CIP(service=service_id,
path=CIP_Path.make(class_id=class_id,
instance_id=instance_id,
attribute_id=attribute_id))
# Send a CIP request
plc_client.send_rr_cip(cippkt)
# Receive the response
resppkt = plc_client.recv_enippkt()
#resppkt.show()
try:
enip_tcp_status = resppkt["ENIP_TCP"].status
cip_tcp_status = resppkt["CIP_ResponseStatus"].status
except:
cip_tcp_status = None
if enip_tcp_status == 0x0 and cip_tcp_status == 0x0: # SUCCESS
success_service.add(service_id)
logging.debug(("Class " + str(class_name) + " supports serives " +
str(success_service)))
return success_service
def send_rr_mr_cip(self, cippkt):
"""Encapsulate the CIP packet into a MultipleServicePacket to MessageRouter"""
cipcm_msg = [cippkt]
cippkt = CIP(path=CIP_Path(wordsize=2, path=b'\x20\x02\x24\x01'))
cippkt /= CIP_MultipleServicePacket(packets=cipcm_msg)
self.send_rr_cip(cippkt)
def send_rr_cm_cip(self, cippkt):
"""Encapsulate the CIP packet into a ConnectionManager packet"""
cipcm_msg = [cippkt]
cippkt = CIP(path=CIP_Path.make(class_id=6, instance_id=1))
cippkt /= CIP_ReqConnectionManager(message=cipcm_msg)
self.send_rr_cip(cippkt)
class_id = CLASS_CODES[class_name]
for instance_id in range(INSTANCE_ID_RANGE[0], INSTANCE_ID_RANGE[1]):
logging.basicConfig(format='[%(levelname)s] %(message)s',
level=logging.DEBUG)
# Connect to PLC
client = plc.PLCClient(PLC_HOST)
if not client.connected:
sys.exit(1)
print("Established session {}".format(client.session_id))
# Send a CIP ReadTag request
cippkt = CIP(service=service_id,
path=CIP_Path.make(class_id=int(class_id),
instance_id=instance_id))
client.send_rr_cip(cippkt)
# Receive the response and show it
resppkt = client.recv_enippkt()
enip_tcp_status = resppkt["ENIP_TCP"].status
service_info = {
"name": service_name + class_name + str(instance_id),
"service_name": service_name,
"class_name": class_name,
"service_id": service_id,
"class_id": class_id,
"instance_id": instance_id
}
def send_rr_cm_cip(self, cippkt):
"""Encapsulate the CIP packet into a ConnectionManager packet"""
cipcm_msg = [cippkt]
cippkt = CIP(path=CIP_Path.make(class_id=6, instance_id=1))
cippkt /= CIP_ReqConnectionManager(message=cipcm_msg)
self.send_rr_cip(cippkt)
import logging
import sys
from cip import CIP, CIP_Path
import plc
logging.basicConfig(format='[%(levelname)s] %(message)s', level=logging.DEBUG)
# Connect to PLC
client = plc.PLCClient('192.168.6.70')
if not client.connected:
sys.exit(1)
print("Established session {}".format(client.session_id))
if not client.forward_open():
sys.exit(1)
# Send a CIP ReadTag request
cippkt = CIP(service=0x4c, path=CIP_Path.make_str("Raymond_INT"))
client.send_unit_cip(cippkt)
# Receive the response and show it
resppkt = client.recv_enippkt()
resppkt[CIP].show()
# Close the connection
client.forward_close()
