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- import importlib
- import sys
- import difflib
- import pkgutil
- import typing
- import Attack.AttackParameters as atkParam
- import Core.LabelManager as LabelManager
- import Core.Statistics as Statistics
- import ID2TLib.Label as Label
- import ID2TLib.PcapFile as PcapFile
- import ID2TLib.Utility as Util
- class AttackController:
- def __init__(self, pcap_file: PcapFile.PcapFile, statistics_class: Statistics, label_manager: LabelManager):
- """
- Creates a new AttackController. The controller manages the attack injection, including the PCAP writing.
- :param pcap_file: The source .pcap file to run the attack on.
- :param statistics_class: A Statistics Object.
- :param label_manager: A LabelManager Object.
- """
- self.statistics = statistics_class
- self.pcap_file = pcap_file
- self.label_mgr = label_manager
- self.current_attack = None
- self.added_attacks = []
- self.seed = None
- self.total_packets = 0
- def set_seed(self, seed: int) -> None:
- """
- Sets rng seed.
- :param seed: rng seed
- """
- self.seed = seed
- def get_seed(self) -> typing.Union[int, None]:
- """
- Gets rng seed.
- :return: The current rng seed
- """
- return self.seed
- @staticmethod
- def choose_attack(input_name):
- """"
- Finds the attack best matching to input_name
- :param input_name: The name of the attack the user put in
- :return: The best matching attack in case one was found
- """
- import Attack
- # Find all attacks, exclude some classes
- package = Attack
- available_attacks = []
- for _, name, __ in pkgutil.iter_modules(package.__path__):
- if name != 'BaseAttack' and name != 'AttackParameters':
- available_attacks.append(name)
- highest_sim = 0.0
- highest_sim_attack = None
- for attack in available_attacks:
- # Check if attack name is accurate
- if input_name == attack:
- return attack
- # Compares input with one of the available attacks
- # Makes comparison with lowercase version with generic endings removed
- # List of generic attack name endings can be found in ID2TLib.Utility
- counter_check = attack.lower()
- if not any(ending in input_name for ending in Util.generic_attack_names):
- counter_check = Util.remove_generic_ending(counter_check)
- similarity = difflib.SequenceMatcher(None, input_name.lower(), counter_check).ratio()
- # Exact match, return appropriate attack name
- if similarity == 1.0:
- return attack
- # Found more likely match
- if similarity > highest_sim:
- highest_sim = similarity
- highest_sim_attack = attack
- # Found no exactly matching attack name, print best match and exit
- if highest_sim >= 0.6:
- print('Found no attack of name ' + input_name + '. The closest match was ' + highest_sim_attack +
- '. Use ./id2t -l for a list of available attacks.')
- exit(1)
- # Found no reasonably matching attack name, recommend -l and exit
- else:
- print('Found no attack of name ' + input_name + ' or one similar to it.'
- ' Use ./id2t -l for an overview of available attacks.')
- exit(1)
- def create_attack(self, attack_name: str, seed=None):
- """
- Creates dynamically a new class instance based on the given attack_name.
- :param attack_name: The name of the attack, must correspond to the attack's class name.
- :param seed: random seed for param generation
- :return: None
- """
- attack_name = self.choose_attack(attack_name)
- print("\nCreating attack instance of \033[1m" + attack_name + "\033[0m")
- # Load attack class
- attack_module = importlib.import_module("Attack." + attack_name)
- attack_class = getattr(attack_module, attack_name)
- # Instantiate the desired attack
- self.current_attack = attack_class()
- # Initialize the parameters of the attack with defaults or user supplied values.
- self.current_attack.set_statistics(self.statistics)
- if seed is not None:
- self.current_attack.set_seed(seed=seed)
- self.current_attack.init_params()
- # Unset the user-specified-flag for all parameters set in init_params
- for k, v in self.current_attack.params.items():
- self.current_attack.params[k] = self.current_attack.ValuePair(v.value, False)
- # Record the attack
- self.added_attacks.append(self.current_attack)
- def process_attack(self, attack: str, params: str, time=False):
- """
- Takes as input the name of an attack (classname) and the attack parameters as string. Parses the string of
- attack parameters, creates the attack by writing the attack packets and returns the path of the written pcap.
- :param attack: The classname of the attack to injecect.
- :param params: The parameters for attack customization, see attack class for supported params.
- :param time: Measure packet generation time or not.
- :return: The file path to the created pcap file.
- """
- self.create_attack(attack, self.seed)
- print("Validating and adding attack parameters.")
- # Add attack parameters if provided
- params_dict = []
- if isinstance(params, list) and params:
- # Convert attack param list into dictionary
- for entry in params:
- params_dict.append(entry.split('='))
- params_dict = dict(params_dict)
- # Check if Parameter.INJECT_AT_TIMESTAMP and Parameter.INJECT_AFTER_PACKET are provided at the same time
- # if TRUE: delete Paramter.INJECT_AT_TIMESTAMP (lower priority) and use Parameter.INJECT_AFTER_PACKET
- if (atkParam.Parameter.INJECT_AFTER_PACKET.value in params_dict) and (
- atkParam.Parameter.INJECT_AT_TIMESTAMP.value in params_dict):
- print("CONFLICT: Parameters", atkParam.Parameter.INJECT_AT_TIMESTAMP.value, "and",
- atkParam.Parameter.INJECT_AFTER_PACKET.value,
- "given at the same time. Ignoring", atkParam.Parameter.INJECT_AT_TIMESTAMP.value, "and using",
- atkParam.Parameter.INJECT_AFTER_PACKET.value, "instead to derive the timestamp.")
- del params_dict[atkParam.Parameter.INJECT_AT_TIMESTAMP.value]
- # Extract attack_note parameter, if not provided returns an empty string
- key_attack_note = "attack.note"
- attack_note = params_dict.get(key_attack_note, "")
- params_dict.pop(key_attack_note, None) # delete entry if found, otherwise return an empty string
- # Pass paramters to attack controller
- self.set_params(params_dict)
- else:
- attack_note = "This attack used only (random) default parameters."
- # Write attack into pcap file
- print("Generating attack packets...", end=" ")
- sys.stdout.flush() # force python to print text immediately
- if time:
- self.current_attack.set_start_time()
- self.current_attack.generate_attack_packets()
- if time:
- self.current_attack.set_finish_time()
- duration = self.current_attack.get_packet_generation_time()
- self.total_packets, temp_attack_pcap_path = self.current_attack.generate_attack_pcap()
- print("done. (total: " + str(self.total_packets) + " pkts", end="")
- if time:
- print(" in ", duration, " seconds", end="")
- print(".)")
- # Store label into LabelManager
- label = Label.Label(attack, self.get_attack_start_utime(), self.get_attack_end_utime(),
- self.seed, self.current_attack.params, attack_note)
- self.label_mgr.add_labels(label)
- return temp_attack_pcap_path, duration
- def get_attack_start_utime(self):
- """
- :return: The start time (timestamp of first packet) of the attack as unix timestamp.
- """
- return self.current_attack.attack_start_utime
- def get_attack_end_utime(self):
- """
- :return: The end time (timestamp of last packet) of the attack as unix timestamp.
- """
- return self.current_attack.attack_end_utime
- def set_params(self, params: dict):
- """
- Sets the attack's parameters.
- :param params: The parameters in a dictionary: {parameter_name: parameter_value}
- :return: None
- """
- for param_key, param_value in params.items():
- self.current_attack.add_param_value(param_key, param_value)
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