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- import logging
- import csv
- import socket
- from random import shuffle, randint, choice, uniform
- from lea import Lea
- from Attack import BaseAttack
- from Attack.AttackParameters import Parameter as Param
- from Attack.AttackParameters import ParameterTypes
- logging.getLogger("scapy.runtime").setLevel(logging.ERROR)
- # noinspection PyPep8
- from scapy.layers.inet import IP, Ether, TCP
- class PortscanAttack(BaseAttack.BaseAttack):
- # Aidmar - Nmap default packet rate
- maxDefaultPPS = 300
- minDefaultPPS = 5
- # Aidmar
- def get_ports_from_nmap_service_dst(self, ports_num):
- """
- Read the most ports_num frequently open ports from nmap-service-tcp file to be used in Portscan attack.
- :return: Ports numbers to be used as default dest ports or default open ports in Portscan attack.
- """
- ports_dst = []
- spamreader = csv.reader(open('resources/nmap-services-tcp.csv', 'rt'), delimiter=',')
- for count in range(ports_num):
- # escape first row (header)
- next(spamreader)
- # save ports numbers
- ports_dst.append(next(spamreader)[0])
- # shuffle ports numbers
- if(ports_num==1000): # used for port.dst
- temp_array = [[0 for i in range(10)] for i in range(100)]
- port_dst_shuffled = []
- for count in range(0, 9):
- temp_array[count] = ports_dst[count * 100:count * 100 + 99]
- shuffle(temp_array[count])
- port_dst_shuffled += temp_array[count]
- else: # used for port.open
- shuffle(ports_dst)
- port_dst_shuffled = ports_dst
- return port_dst_shuffled
- def is_valid_ip_address(self,addr):
- """
- Check if the IP address family is suported.
- :param addr: IP address to be checked
- :return: Boolean
- """
- try:
- socket.inet_aton(addr)
- return True
- except socket.error:
- return False
- def __init__(self, statistics, pcap_file_path):
- """
- Creates a new instance of the PortscanAttack.
- :param statistics: A reference to the statistics class.
- """
- # Initialize attack
- super(PortscanAttack, self).__init__(statistics, "Portscan Attack", "Injects a nmap 'regular scan'",
- "Scanning/Probing")
- # Define allowed parameters and their type
- self.supported_params = {
- Param.IP_SOURCE: ParameterTypes.TYPE_IP_ADDRESS,
- Param.IP_DESTINATION: ParameterTypes.TYPE_IP_ADDRESS,
- Param.PORT_SOURCE: ParameterTypes.TYPE_PORT,
- Param.PORT_DESTINATION: ParameterTypes.TYPE_PORT,
- Param.PORT_OPEN: ParameterTypes.TYPE_PORT,
- Param.MAC_SOURCE: ParameterTypes.TYPE_MAC_ADDRESS,
- Param.MAC_DESTINATION: ParameterTypes.TYPE_MAC_ADDRESS,
- Param.INJECT_AT_TIMESTAMP: ParameterTypes.TYPE_FLOAT,
- Param.INJECT_AFTER_PACKET: ParameterTypes.TYPE_PACKET_POSITION,
- Param.PORT_DEST_SHUFFLE: ParameterTypes.TYPE_BOOLEAN,
- Param.PORT_DEST_ORDER_DESC: ParameterTypes.TYPE_BOOLEAN,
- Param.IP_SOURCE_RANDOMIZE: ParameterTypes.TYPE_BOOLEAN,
- Param.PACKETS_PER_SECOND: ParameterTypes.TYPE_FLOAT,
- Param.PORT_SOURCE_RANDOMIZE: ParameterTypes.TYPE_BOOLEAN
- }
- # PARAMETERS: initialize with default values
- # (values are overwritten if user specifies them)
- most_used_ip_address = self.statistics.get_most_used_ip_address()
- if isinstance(most_used_ip_address, list):
- most_used_ip_address = most_used_ip_address[0]
- self.add_param_value(Param.IP_SOURCE, most_used_ip_address)
- self.add_param_value(Param.IP_SOURCE_RANDOMIZE, 'False')
- self.add_param_value(Param.MAC_SOURCE, self.statistics.get_mac_address(most_used_ip_address))
- random_ip_address = self.statistics.get_random_ip_address()
- # Aidmar - ip-dst should be valid and not equal to ip.src
- while not self.is_valid_ip_address(random_ip_address) or random_ip_address==most_used_ip_address:
- random_ip_address = self.statistics.get_random_ip_address()
- self.add_param_value(Param.IP_DESTINATION, random_ip_address)
- destination_mac = self.statistics.get_mac_address(random_ip_address)
- if isinstance(destination_mac, list) and len(destination_mac) == 0:
- destination_mac = self.generate_random_mac_address()
- self.add_param_value(Param.MAC_DESTINATION, destination_mac)
- self.add_param_value(Param.PORT_DESTINATION, self.get_ports_from_nmap_service_dst(1000))
- #self.add_param_value(Param.PORT_DESTINATION, '1-1023,1720,1900,8080,56652')
- # Not used initial value
- self.add_param_value(Param.PORT_OPEN, '1,11,111,1111')
- self.add_param_value(Param.PORT_DEST_SHUFFLE, 'False')
- self.add_param_value(Param.PORT_DEST_ORDER_DESC, 'False')
- self.add_param_value(Param.PORT_SOURCE, randint(1024, 65535))
- self.add_param_value(Param.PORT_SOURCE_RANDOMIZE, 'False')
- # Aidamr - we used pps for sent packets, so no need to include received packets rate
- # most used ip not necessary provide a realsitic packet rate for portscan attack
- # calculating the pps is not accurate (taking the whole capture duration into account ingnores the intermittent
- # of packets flow)
- #self.add_param_value(Param.PACKETS_PER_SECOND,
- #(self.statistics.get_pps_sent(most_used_ip_address) +
- # self.statistics.get_pps_received(most_used_ip_address)) / 2)
- # Aidmar
- # using nmap empirically observed packet rate [5,300] packet per second
- self.add_param_value(Param.PACKETS_PER_SECOND,self.maxDefaultPPS)
- self.add_param_value(Param.INJECT_AFTER_PACKET, randint(0, self.statistics.get_packet_count()))
- def generate_attack_pcap(self):
- def update_timestamp(timestamp, pps, maxdelay):
- """
- Calculates the next timestamp to be used based on the packet per second rate (pps) and the maximum delay.
- :return: Timestamp to be used for the next packet.
- """
- # Aidmar - why to use 0.1/pps?
- #return timestamp + uniform(0.1 / pps, maxdelay)
- # Aidmar
- return timestamp + uniform(1 / pps, maxdelay)
- # Aidmar
- def getIntervalPPS(complement_interval_pps, timestamp):
- """
- Gets the packet rate (pps) in specific time interval.
- :return: the corresponding packet rate for packet rate (pps) .
- """
- for row in complement_interval_pps:
- if timestamp<=row[0]:
- return row[1]
- return complement_interval_pps[-1][1] # in case the timstamp > capture max timestamp
- mac_source = self.get_param_value(Param.MAC_SOURCE)
- mac_destination = self.get_param_value(Param.MAC_DESTINATION)
- pps = self.get_param_value(Param.PACKETS_PER_SECOND)
- # Aidmar - unjustified distribution
- #randomdelay = Lea.fromValFreqsDict({1 / pps: 70, 2 / pps: 20, 5 / pps: 7, 10 / pps: 3})
- #maxdelay = randomdelay.random()
- # Aidmar - calculate complement packet rates of BG traffic per interval
- complement_interval_pps = self.statistics.calculate_complement_packet_rates(pps)
- # Determine ports
- dest_ports = self.get_param_value(Param.PORT_DESTINATION)
- if self.get_param_value(Param.PORT_DEST_ORDER_DESC):
- dest_ports.reverse()
- elif self.get_param_value(Param.PORT_DEST_SHUFFLE):
- shuffle(dest_ports)
- if self.get_param_value(Param.PORT_SOURCE_RANDOMIZE):
- sport = randint(1, 65535)
- else:
- sport = self.get_param_value(Param.PORT_SOURCE)
- # Timestamp
- timestamp_next_pkt = self.get_param_value(Param.INJECT_AT_TIMESTAMP)
- # store start time of attack
- self.attack_start_utime = timestamp_next_pkt
- # Initialize parameters
- packets = []
- ip_source = self.get_param_value(Param.IP_SOURCE)
- ip_destination = self.get_param_value(Param.IP_DESTINATION)
- # Aidmar - check ip.src == ip.dst
- if ip_source == ip_destination:
- print("\nERROR: Invalid IP addresses; source IP is the same as destination IP: " + ip_source + ".")
- import sys
- sys.exit(0)
- # open ports
- # Aidmar
- ports_open = self.get_param_value(Param.PORT_OPEN)
- if ports_open == [1,11,111,1111]: # user did not define open ports
- # the ports that were already used by ip.dst (direction in) in the background traffic are open ports
- ports_used_by_ip_dst = self.statistics.process_db_query(
- "SELECT portNumber FROM ip_ports WHERE portDirection='in' AND ipAddress='" + ip_destination + "'")
- if ports_used_by_ip_dst:
- ports_open = ports_used_by_ip_dst
- else: # if no ports were retrieved from database
- # Take open ports from nmap-service file
- #ports_temp = self.get_ports_from_nmap_service_dst(100)
- #ports_open = ports_temp[0:randint(1,10)]
- # OR take open ports from the most used ports in traffic statistics
- ports_open = self.statistics.process_db_query(
- "SELECT portNumber FROM ip_ports GROUP BY portNumber ORDER BY SUM(portCount) DESC LIMIT "+str(randint(1,10)))
- # in case of one open port, convert ports_open to array
- if not isinstance(ports_open, list):
- ports_open = [ports_open]
- # MSS (Maximum Segment Size) for Ethernet. Allowed values [536,1500]
- # Aidmar
- mss_dst = self.statistics.get_most_used_mss(ip_destination)
- if mss_dst is None:
- mss_dst = self.statistics.process_db_query("most_used(mssValue)")
- mss_src = self.statistics.get_most_used_mss(ip_source)
- if mss_src is None:
- mss_src = self.statistics.process_db_query("most_used(mssValue)")
- # mss = self.statistics.get_mss(ip_destination)
- # Set TTL based on TTL distribution of IP address
- ttl_dist = self.statistics.get_ttl_distribution(ip_source)
- if len(ttl_dist) > 0:
- ttl_prob_dict = Lea.fromValFreqsDict(ttl_dist)
- ttl_value = ttl_prob_dict.random()
- else:
- ttl_value = self.statistics.process_db_query("most_used(ttlValue)")
- # Aidmar
- A_B_packets = []
- B_A_packets = []
- minDelay,maxDelay = self.get_reply_delay(ip_destination)
- for dport in dest_ports:
- # Parameters changing each iteration
- if self.get_param_value(Param.IP_SOURCE_RANDOMIZE) and isinstance(ip_source, list):
- ip_source = choice(ip_source)
- # 1) Build request package
- request_ether = Ether(src=mac_source, dst=mac_destination)
- request_ip = IP(src=ip_source, dst=ip_destination, ttl=ttl_value)
- # Aidmar - random src port for each packet
- sport = randint(1, 65535)
- # Aidmar - use most used window size
- win_size = self.statistics.process_db_query("most_used(winSize)")
- request_tcp = TCP(sport=sport, dport=dport, window=win_size, flags='S', options=[('MSS', mss_src)])
- request = (request_ether / request_ip / request_tcp)
- # first packet uses timestamp provided by attack parameter Param.INJECT_AT_TIMESTAMP
- """if len(packets) > 0:
- timestamp_next_pkt = update_timestamp(timestamp_next_pkt, pps, maxdelay)
- request.time = timestamp_next_pkt
- """
- # Aidmar
- request.time = timestamp_next_pkt
- # 2) Build reply (for open ports) package
- if dport in ports_open: # destination port is OPEN
- reply_ether = Ether(src=mac_destination, dst=mac_source)
- reply_ip = IP(src=ip_destination, dst=ip_source, flags='DF')
- #if mss_dst is None:
- # reply_tcp = TCP(sport=dport, dport=sport, seq=0, ack=1, flags='SA', window=29200)
- #else:
- reply_tcp = TCP(sport=dport, dport=sport, seq=0, ack=1, flags='SA', window=29200,
- options=[('MSS', mss_dst)])
- reply = (reply_ether / reply_ip / reply_tcp)
- # Aidmar - edit name timestamp_reply
- timestamp_reply = timestamp_next_pkt + uniform(minDelay, maxDelay)
- if len(B_A_packets) > 0:
- last_reply_timestamp = B_A_packets[-1].time
- while (timestamp_reply <= last_reply_timestamp):
- timestamp_reply = timestamp_reply + uniform(minDelay, maxDelay)
- reply.time = timestamp_reply
- B_A_packets.append(reply)
- # requester confirms
- confirm_ether = request_ether
- confirm_ip = request_ip
- confirm_tcp = TCP(sport=sport, dport=dport, seq=1, window=0, flags='R')
- confirm = (confirm_ether / confirm_ip / confirm_tcp)
- # Aidmar - edit name timestamp_confirm
- timestamp_confirm = timestamp_reply + uniform(minDelay, maxDelay)
- confirm.time = timestamp_confirm
- A_B_packets.append(confirm)
- # else: destination port is NOT OPEN -> no reply is sent by target
- # Aidmar
- # Append reply
- if B_A_packets:
- while timestamp_next_pkt >= B_A_packets[0].time:
- packets.append(B_A_packets[0])
- B_A_packets.remove(B_A_packets[0])
- if len(B_A_packets) == 0:
- break
- # Append confirm
- if A_B_packets:
- while timestamp_next_pkt >= A_B_packets[0].time:
- packets.append(A_B_packets[0])
- A_B_packets.remove(A_B_packets[0])
- if len(A_B_packets) == 0:
- break
- # Append request
- packets.append(request)
- # Aidmar
- pps = self.minDefaultPPS if getIntervalPPS(complement_interval_pps, timestamp_next_pkt) is None else max(getIntervalPPS(complement_interval_pps, timestamp_next_pkt),self.minDefaultPPS) # avoid case of pps = 0
- timestamp_next_pkt = update_timestamp(timestamp_next_pkt, pps, maxDelay)
- # Aidmar - In case all requests are already sent, send all replies and confirms
- temp = A_B_packets + B_A_packets
- temp.sort(key=lambda x: x.time)
- for pkt in temp:
- packets.append(pkt)
- # store end time of attack
- self.attack_end_utime = packets[-1].time
- # write attack packets to pcap
- pcap_path = self.write_attack_pcap(sorted(packets, key=lambda pkt: pkt.time))
- # return packets sorted by packet time_sec_start
- return len(packets), pcap_path
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