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- import calendar as cal
- import datetime as dt
- import ipaddress
- import os
- import random as rnd
- import lea
- import xdg.BaseDirectory as BaseDir
- import scapy.layers.inet as inet
- import scipy.stats as stats
- CACHE_DIR = os.path.join(BaseDir.xdg_cache_home, 'id2t')
- CODE_DIR = os.path.dirname(os.path.abspath(__file__)) + "/../"
- ROOT_DIR = CODE_DIR + "../"
- RESOURCE_DIR = ROOT_DIR + "resources/"
- TEST_DIR = RESOURCE_DIR + "test/"
- OUT_DIR = None
- # List of common operation systems
- platforms = {"win7", "win10", "winxp", "win8.1", "macos", "linux", "win8", "winvista", "winnt", "win2000"}
- # Distribution of common operation systems
- platform_probability = {"win7": 48.43, "win10": 27.99, "winxp": 6.07, "win8.1": 6.07, "macos": 5.94, "linux": 3.38,
- "win8": 1.35, "winvista": 0.46, "winnt": 0.31}
- # List of no-ops
- x86_nops = {b'\x90', b'\xfc', b'\xfd', b'\xf8', b'\xf9', b'\xf5', b'\x9b'}
- # List of pseudo no-ops (includes ops which won't change the state e.g. read access)
- x86_pseudo_nops = {b'\x97', b'\x96', b'\x95', b'\x93', b'\x92', b'\x91', b'\x99', b'\x4d', b'\x48', b'\x47', b'\x4f',
- b'\x40', b'\x41', b'\x37', b'\x3f', b'\x27', b'\x2f', b'\x46', b'\x4e', b'\x98', b'\x9f', b'\x4a',
- b'\x44', b'\x42', b'\x43', b'\x49', b'\x4b', b'\x45', b'\x4c', b'\x60', b'\x0e', b'\x1e', b'\x50',
- b'\x55', b'\x53', b'\x51', b'\x57', b'\x52', b'\x06', b'\x56', b'\x54', b'\x16', b'\x58', b'\x5d',
- b'\x5b', b'\x59', b'\x5f', b'\x5a', b'\x5e', b'\xd6'}
- # Characters which result in operational behaviour (e.g. FTPWinaXeExploit.py)
- forbidden_chars = [b'\x00', b'\x0a', b'\x0d']
- # Used in get_attacker_config
- attacker_port_mapping = {}
- # Used in get_attacker_config
- attacker_ttl_mapping = {}
- # Identifier for attacks
- generic_attack_names = {"attack", "exploit"}
- def update_timestamp(timestamp: float, pps: float, delay: float=0, inj_pps: float=0, inj_timestamp: float=0):
- """
- 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.
- """
- # FIXME: throw Exception if pps==0
- second = 0
- packets_this_second = 0
- if inj_pps != 0 and inj_timestamp != 0:
- time = timestamp - inj_timestamp
- packets_so_far = time / inj_pps
- packets_this_second = packets_so_far % inj_pps
- else:
- inj_pps = 0
- if delay == 0:
- # Calculate request timestamp
- # To imitate the bursty behavior of traffic
- random_delay = lea.Lea.fromValFreqsDict({1 / pps: 70, 2 / pps: 20, 5 / pps: 7, 10 / pps: 3})
- result_delay = rnd.uniform(1 / pps, random_delay.random())
- else:
- # Calculate reply timestamp
- random_delay = lea.Lea.fromValFreqsDict({delay / 2: 70, delay / 3: 20, delay / 5: 7, delay / 10: 3})
- result_delay = rnd.uniform(1 / pps + delay, 1 / pps + random_delay.random())
- result = timestamp + result_delay
- if inj_pps > packets_this_second and int(result) - int(timestamp) != 1:
- result = result + 1
- return result
- def get_timestamp_from_datetime_str(time: str):
- return dt.datetime.strptime(time, "%Y-%m-%d %H:%M:%S.%f").timestamp()
- def get_interval_pps(complement_interval_pps, timestamp):
- """
- Gets the packet rate (pps) for a specific time interval.
- :param complement_interval_pps: an array of tuples (the last timestamp in the interval, the packet rate in the
- corresponding interval).
- :param timestamp: the timestamp at which the packet rate is required.
- :return: the corresponding 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 timestamp > capture max timestamp
- def get_nth_random_element(*element_list):
- """
- Returns the n-th element of every list from an arbitrary number of given lists.
- For example, list1 contains IP addresses, list 2 contains MAC addresses. Use of this function ensures that
- the n-th IP address uses always the n-th MAC address.
- :param element_list: An arbitrary number of lists.
- :return: A tuple of the n-th element of every list.
- """
- if len(element_list) <= 0:
- return None
- elif len(element_list) == 1 and len(element_list[0]) > 0:
- return rnd.choice(element_list[0])
- else:
- range_max = min([len(x) for x in element_list])
- if range_max > 0:
- range_max -= 1
- n = rnd.randint(0, range_max)
- return tuple(x[n] for x in element_list)
- else:
- return None
- def get_rnd_os():
- """
- Chooses random platform over an operating system probability distribution
- :return: random platform as string
- """
- os_dist = lea.Lea.fromValFreqsDict(platform_probability)
- return os_dist.random()
- def check_platform(platform: str) -> None:
- """
- Checks if the given platform is currently supported
- if not exits with error
- :param platform: the platform, which should be validated
- """
- if platform not in platforms:
- raise ValueError("ERROR: Invalid platform: " + platform + "." +
- "\n Please select one of the following platforms: " + ",".join(platforms))
- def get_ip_range(start_ip: str, end_ip: str):
- """
- Generates a list of IPs of a given range. If the start_ip is greater than the end_ip, the reverse range is generated
- :param start_ip: the start_ip of the desired IP-range
- :param end_ip: the end_ip of the desired IP-range
- :return: a list of all IPs in the desired IP-range, including start-/end_ip
- """
- start = ipaddress.ip_address(start_ip)
- end = ipaddress.ip_address(end_ip)
- ips = []
- if start < end:
- while start <= end:
- ips.append(start.exploded)
- start = start + 1
- elif start > end:
- while start >= end:
- ips.append(start.exploded)
- start = start - 1
- else:
- ips.append(start_ip)
- return ips
- def generate_source_port_from_platform(platform: str, previous_port=0):
- """
- Generates the next source port according to the TCP-port-selection strategy of the given platform
- :param platform: the platform for which to generate source ports
- :param previous_port: the previously used/generated source port. Must be 0 if no port was generated before
- :return: the next source port for the given platform
- """
- check_platform(platform)
- if platform in {"winnt", "winxp", "win2000"}:
- if (previous_port == 0) or (previous_port + 1 > 5000):
- return rnd.randint(1024, 5000)
- else:
- return previous_port + 1
- elif platform == "linux":
- return rnd.randint(32768, 61000)
- else:
- if (previous_port == 0) or (previous_port + 1 > 65535):
- return rnd.randint(49152, 65535)
- else:
- return previous_port + 1
- def get_filetime_format(timestamp):
- """
- Converts a timestamp into MS FILETIME format
- :param timestamp: a timestamp in seconds
- :return: MS FILETIME timestamp
- """
- boot_datetime = dt.datetime.fromtimestamp(timestamp)
- if boot_datetime.tzinfo is None or boot_datetime.tzinfo.utcoffset(boot_datetime) is None:
- boot_datetime = boot_datetime.replace(tzinfo=boot_datetime.tzname())
- boot_filetime = 116444736000000000 + (cal.timegm(boot_datetime.timetuple()) * 10000000)
- return boot_filetime + (boot_datetime.microsecond * 10)
- def get_rnd_boot_time(timestamp, platform="winxp"):
- """
- Generates a random boot time based on a given timestamp and operating system
- :param timestamp: a timestamp in seconds
- :param platform: a platform as string as specified in check_platform above. default is winxp. this param is optional
- :return: timestamp of random boot time in seconds since EPOCH
- """
- check_platform(platform)
- if platform is "linux":
- uptime_in_days = lea.Lea.fromValFreqsDict({3: 50, 7: 25, 14: 12.5, 31: 6.25, 92: 3.125, 183: 1.5625,
- 365: 0.78125, 1461: 0.390625, 2922: 0.390625})
- elif platform is "macos":
- uptime_in_days = lea.Lea.fromValFreqsDict({7: 50, 14: 25, 31: 12.5, 92: 6.25, 183: 3.125, 365: 3.076171875,
- 1461: 0.048828125})
- else:
- uptime_in_days = lea.Lea.fromValFreqsDict({3: 50, 7: 25, 14: 12.5, 31: 6.25, 92: 3.125, 183: 1.5625,
- 365: 0.78125, 1461: 0.78125})
- timestamp -= rnd.randint(0, uptime_in_days.random() * 86400)
- return timestamp
- def get_rnd_x86_nop(count=1, side_effect_free=False, char_filter=set()):
- """
- Generates a specified number of x86 single-byte (pseudo-)NOPs
- :param count: The number of bytes to generate
- :param side_effect_free: Determines whether NOPs with side-effects (to registers or the stack) are allowed
- :param char_filter: A set of bytes which are forbidden to generate
- :return: Random x86 NOP bytestring
- """
- result = b''
- nops = x86_nops.copy()
- if not side_effect_free:
- nops |= x86_pseudo_nops.copy()
- if not isinstance(char_filter, set):
- char_filter = set(char_filter)
- nops = list(nops - char_filter)
- for i in range(0, count):
- result += nops[rnd.randint(0, len(nops) - 1)]
- return result
- def get_rnd_bytes(count=1, ignore=None):
- """
- Generates a specified number of random bytes while excluding unwanted bytes
- :param count: Number of wanted bytes
- :param ignore: The bytes, which should be ignored, as an array
- :return: Random bytestring
- """
- if ignore is None:
- ignore = []
- result = b''
- for i in range(0, count):
- char = os.urandom(1)
- while char in ignore:
- char = os.urandom(1)
- result += char
- return result
- def check_payload_len(payload_len: int, limit: int) -> None:
- """
- Checks if the len of the payload exceeds a given limit
- :param payload_len: The length of the payload
- :param limit: The limit of the length of the payload which is allowed
- """
- if payload_len > limit:
- raise ValueError("Custom payload too long: " + str(payload_len) +
- " bytes. Should be a maximum of " + str(limit) + " bytes.")
- def get_bytes_from_file(filepath):
- """
- Converts the content of a file into its byte representation
- The content of the file can either be a string or hexadecimal numbers/bytes (e.g. shellcode)
- The file must have the keyword "str" or "hex" in its first line to specify the rest of the content
- If the content is hex, whitespaces, backslashes, "x", quotation marks and "+" are removed
- Example for a hexadecimal input file:
- hex
- "abcd ef \xff10\ff 'xaa' x \ ab"
- Output: b'\xab\xcd\xef\xff\x10\xff\xaa\xab'
- :param filepath: The path of the file from which to get the bytes
- :return: The bytes of the file (either a byte representation of a string or the bytes contained in the file)
- """
- try:
- file = open(filepath)
- result_bytes = b''
- header = file.readline().strip()
- content = file.read()
- if header == "hex":
- content = content.replace(" ", "").replace("\n", "").replace("\\", "").replace("x", "").replace("\"", "") \
- .replace("'", "").replace("+", "").replace("\r", "")
- try:
- result_bytes = bytes.fromhex(content)
- except ValueError:
- print("\nERROR: Content of file is not all hexadecimal.")
- file.close()
- exit(1)
- elif header == "str":
- result_bytes = content.strip().encode()
- else:
- print("\nERROR: Invalid header found: " + header + ". Try 'hex' or 'str' followed by endline instead.")
- file.close()
- exit(1)
- for forbidden_char in forbidden_chars:
- if forbidden_char in result_bytes:
- print("\nERROR: Forbidden character found in payload: ", forbidden_char)
- file.close()
- exit(1)
- file.close()
- return result_bytes
- except FileNotFoundError:
- print("\nERROR: File not found: ", filepath)
- exit(1)
- def handle_most_used_outputs(most_used_x):
- """
- :param most_used_x: Element or list (e.g. from SQL-query output) which should only be one element
- :return: most_used_x if it's not a list. The first element of most_used_x after being sorted if it's a list.
- None if that list is empty.
- """
- if isinstance(most_used_x, list):
- if len(most_used_x) == 0:
- return None
- most_used_x.sort()
- return most_used_x[0]
- else:
- return most_used_x
- def get_attacker_config(ip_source_list, ip_address: str):
- """
- Returns the attacker configuration depending on the IP address, this includes the port for the next
- attacking packet and the previously used (fixed) TTL value.
- :param ip_source_list: List of source IPs
- :param ip_address: The IP address of the attacker
- :return: A tuple consisting of (port, ttlValue)
- """
- # Gamma distribution parameters derived from MAWI 13.8G dataset
- alpha, loc, beta = (2.3261710235, -0.188306914406, 44.4853123884)
- gd = stats.gamma.rvs(alpha, loc=loc, scale=beta, size=len(ip_source_list))
- # Determine port
- port = attacker_port_mapping.get(ip_address)
- if port is not None: # use next port
- next_port = attacker_port_mapping.get(ip_address) + 1
- if next_port > (2 ** 16 - 1):
- next_port = 1
- else: # generate starting port
- next_port = inet.RandShort()
- attacker_port_mapping[ip_address] = next_port
- # Determine TTL value
- ttl = attacker_ttl_mapping.get(ip_address)
- if ttl is None: # determine TTL value
- is_invalid = True
- pos = ip_source_list.index(ip_address)
- pos_max = len(gd)
- while is_invalid:
- ttl = int(round(gd[pos]))
- if 0 < ttl < 256: # validity check
- is_invalid = False
- else:
- pos = (pos + 1) % pos_max
- attacker_ttl_mapping[ip_address] = ttl
- # return port and TTL
- return next_port, ttl
- def remove_generic_ending(string):
- """"
- Returns the input string with it's ending cut off, in case it was a generic one
- :param string: Input string
- :return: Input string with ending cut off
- """
- for end in generic_attack_names:
- if string.endswith(end):
- return string[:-len(end)]
- return string
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