Utility.py 13 KB

123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358
  1. import calendar as cal
  2. import datetime as dt
  3. import ipaddress
  4. import os
  5. import random as rnd
  6. import matplotlib
  7. import scipy.stats as stats
  8. matplotlib.use('Agg', force=True)
  9. import lea
  10. import scapy.layers.inet as inet
  11. CODE_DIR = os.path.dirname(os.path.abspath(__file__)) + "/../"
  12. ROOT_DIR = CODE_DIR + "../"
  13. RESOURCE_DIR = ROOT_DIR + "resources/"
  14. TEST_DIR = RESOURCE_DIR + "test/"
  15. # this has to be initialized to None and will be set later
  16. # if your code needs this value and it's None something went really wrong
  17. PCAP_DEST_PATH = None
  18. platforms = {"win7", "win10", "winxp", "win8.1", "macos", "linux", "win8", "winvista", "winnt", "win2000"}
  19. platform_probability = {"win7": 48.43, "win10": 27.99, "winxp": 6.07, "win8.1": 6.07, "macos": 5.94, "linux": 3.38,
  20. "win8": 1.35, "winvista": 0.46, "winnt": 0.31}
  21. x86_nops = {b'\x90', b'\xfc', b'\xfd', b'\xf8', b'\xf9', b'\xf5', b'\x9b'}
  22. 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',
  23. b'\x40', b'\x41', b'\x37', b'\x3f', b'\x27', b'\x2f', b'\x46', b'\x4e', b'\x98', b'\x9f', b'\x4a',
  24. b'\x44', b'\x42', b'\x43', b'\x49', b'\x4b', b'\x45', b'\x4c', b'\x60', b'\x0e', b'\x1e', b'\x50',
  25. b'\x55', b'\x53', b'\x51', b'\x57', b'\x52', b'\x06', b'\x56', b'\x54', b'\x16', b'\x58', b'\x5d',
  26. b'\x5b', b'\x59', b'\x5f', b'\x5a', b'\x5e', b'\xd6'}
  27. forbidden_chars = [b'\x00', b'\x0a', b'\x0d']
  28. attacker_port_mapping = {}
  29. attacker_ttl_mapping = {}
  30. def update_timestamp(timestamp, pps, delay=0):
  31. """
  32. Calculates the next timestamp to be used based on the packet per second rate (pps) and the maximum delay.
  33. :return: Timestamp to be used for the next packet.
  34. """
  35. if delay == 0:
  36. # Calculate request timestamp
  37. # To imitate the bursty behavior of traffic
  38. randomdelay = lea.Lea.fromValFreqsDict({1 / pps: 70, 2 / pps: 20, 5 / pps: 7, 10 / pps: 3})
  39. return timestamp + rnd.uniform(1 / pps, randomdelay.random())
  40. else:
  41. # Calculate reply timestamp
  42. randomdelay = lea.Lea.fromValFreqsDict({2 * delay: 70, 3 * delay: 20, 5 * delay: 7, 10 * delay: 3})
  43. return timestamp + rnd.uniform(1 / pps + delay, 1 / pps + randomdelay.random())
  44. def get_interval_pps(complement_interval_pps, timestamp):
  45. """
  46. Gets the packet rate (pps) for a specific time interval.
  47. :param complement_interval_pps: an array of tuples (the last timestamp in the interval, the packet rate in the
  48. corresponding interval).
  49. :param timestamp: the timestamp at which the packet rate is required.
  50. :return: the corresponding packet rate (pps) .
  51. """
  52. for row in complement_interval_pps:
  53. if timestamp <= row[0]:
  54. return row[1]
  55. return complement_interval_pps[-1][1] # in case the timstamp > capture max timestamp
  56. def get_nth_random_element(*element_list):
  57. """
  58. Returns the n-th element of every list from an arbitrary number of given lists.
  59. For example, list1 contains IP addresses, list 2 contains MAC addresses. Use of this function ensures that
  60. the n-th IP address uses always the n-th MAC address.
  61. :param element_list: An arbitrary number of lists.
  62. :return: A tuple of the n-th element of every list.
  63. """
  64. if len(element_list) <= 0:
  65. return None
  66. elif len(element_list) == 1 and len(element_list[0]) > 0:
  67. return rnd.choice(element_list[0])
  68. else:
  69. range_max = min([len(x) for x in element_list])
  70. if range_max > 0:
  71. range_max -= 1
  72. n = rnd.randint(0, range_max)
  73. return tuple(x[n] for x in element_list)
  74. else:
  75. return None
  76. def get_rnd_os():
  77. """
  78. Chooses random platform over an operating system probability distribution
  79. :return: random platform as string
  80. """
  81. os_dist = lea.Lea.fromValFreqsDict(platform_probability)
  82. return os_dist.random()
  83. def check_platform(platform: str):
  84. """
  85. Checks if the given platform is currently supported
  86. if not exits with error
  87. :param platform: the platform, which should be validated
  88. """
  89. if platform not in platforms:
  90. print("\nERROR: Invalid platform: " + platform + "." +
  91. "\n Please select one of the following platforms: ", platforms)
  92. exit(1)
  93. def get_ip_range(start_ip: str, end_ip: str):
  94. """
  95. Generates a list of IPs of a given range. If the start_ip is greater than the end_ip, the reverse range is generated
  96. :param start_ip: the start_ip of the desired IP-range
  97. :param end_ip: the end_ip of the desired IP-range
  98. :return: a list of all IPs in the desired IP-range, including start-/end_ip
  99. """
  100. start = ipaddress.ip_address(start_ip)
  101. end = ipaddress.ip_address(end_ip)
  102. ips = []
  103. if start < end:
  104. while start <= end:
  105. ips.append(start.exploded)
  106. start = start + 1
  107. elif start > end:
  108. while start >= end:
  109. ips.append(start.exploded)
  110. start = start - 1
  111. else:
  112. ips.append(start_ip)
  113. return ips
  114. def generate_source_port_from_platform(platform: str, previous_port=0):
  115. """
  116. Generates the next source port according to the TCP-port-selection strategy of the given platform
  117. :param platform: the platform for which to generate source ports
  118. :param previous_port: the previously used/generated source port. Must be 0 if no port was generated before
  119. :return: the next source port for the given platform
  120. """
  121. check_platform(platform)
  122. if platform in {"winnt", "winxp", "win2000"}:
  123. if (previous_port == 0) or (previous_port + 1 > 5000):
  124. return rnd.randint(1024, 5000)
  125. else:
  126. return previous_port + 1
  127. elif platform == "linux":
  128. return rnd.randint(32768, 61000)
  129. else:
  130. if (previous_port == 0) or (previous_port + 1 > 65535):
  131. return rnd.randint(49152, 65535)
  132. else:
  133. return previous_port + 1
  134. def get_filetime_format(timestamp):
  135. """
  136. Converts a timestamp into MS FILETIME format
  137. :param timestamp: a timestamp in seconds
  138. :return: MS FILETIME timestamp
  139. """
  140. boot_datetime = dt.datetime.fromtimestamp(timestamp)
  141. if boot_datetime.tzinfo is None or boot_datetime.tzinfo.utcoffset(boot_datetime) is None:
  142. boot_datetime = boot_datetime.replace(tzinfo=boot_datetime.tzname())
  143. boot_filetime = 116444736000000000 + (cal.timegm(boot_datetime.timetuple()) * 10000000)
  144. return boot_filetime + (boot_datetime.microsecond * 10)
  145. def get_rnd_boot_time(timestamp, platform="winxp"):
  146. """
  147. Generates a random boot time based on a given timestamp and operating system
  148. :param timestamp: a timestamp in seconds
  149. :param platform: a platform as string as specified in check_platform above. default is winxp. this param is optional
  150. :return: timestamp of random boot time in seconds since EPOCH
  151. """
  152. check_platform(platform)
  153. if platform is "linux":
  154. uptime_in_days = lea.Lea.fromValFreqsDict({3: 50, 7: 25, 14: 12.5, 31: 6.25, 92: 3.125, 183: 1.5625,
  155. 365: 0.78125, 1461: 0.390625, 2922: 0.390625})
  156. elif platform is "macos":
  157. uptime_in_days = lea.Lea.fromValFreqsDict({7: 50, 14: 25, 31: 12.5, 92: 6.25, 183: 3.125, 365: 3.076171875,
  158. 1461: 0.048828125})
  159. else:
  160. uptime_in_days = lea.Lea.fromValFreqsDict({3: 50, 7: 25, 14: 12.5, 31: 6.25, 92: 3.125, 183: 1.5625,
  161. 365: 0.78125, 1461: 0.78125})
  162. timestamp -= rnd.randint(0, uptime_in_days.random() * 86400)
  163. return timestamp
  164. def get_rnd_x86_nop(count=1, side_effect_free=False, char_filter=set()):
  165. """
  166. Generates a specified number of x86 single-byte (pseudo-)NOPs
  167. :param count: The number of bytes to generate
  168. :param side_effect_free: Determines whether NOPs with side-effects (to registers or the stack) are allowed
  169. :param char_filter: A set of bytes which are forbidden to generate
  170. :return: Random x86 NOP bytestring
  171. """
  172. result = b''
  173. nops = x86_nops.copy()
  174. if not side_effect_free:
  175. nops |= x86_pseudo_nops.copy()
  176. if not isinstance(char_filter, set):
  177. char_filter = set(char_filter)
  178. nops = list(nops - char_filter)
  179. for i in range(0, count):
  180. result += nops[rnd.randint(0, len(nops) - 1)]
  181. return result
  182. def get_rnd_bytes(count=1, ignore=None):
  183. """
  184. Generates a specified number of random bytes while excluding unwanted bytes
  185. :param count: Number of wanted bytes
  186. :param ignore: The bytes, which should be ignored, as an array
  187. :return: Random bytestring
  188. """
  189. if ignore is None:
  190. ignore = []
  191. result = b''
  192. for i in range(0, count):
  193. char = os.urandom(1)
  194. while char in ignore:
  195. char = os.urandom(1)
  196. result += char
  197. return result
  198. def check_payload_len(payload_len: int, limit: int):
  199. """
  200. Checks if the len of the payload exceeds a given limit
  201. :param payload_len: The length of the payload
  202. :param limit: The limit of the length of the payload which is allowed
  203. """
  204. if payload_len > limit:
  205. print("\nCustom payload too long: ", payload_len, " bytes. Should be a maximum of ", limit, " bytes.")
  206. exit(1)
  207. def get_bytes_from_file(filepath):
  208. """
  209. Converts the content of a file into its byte representation
  210. The content of the file can either be a string or hexadecimal numbers/bytes (e.g. shellcode)
  211. The file must have the keyword "str" or "hex" in its first line to specify the rest of the content
  212. If the content is hex, whitespaces, backslashes, "x", quotation marks and "+" are removed
  213. Example for a hexadecimal input file:
  214. hex
  215. "abcd ef \xff10\ff 'xaa' x \ ab"
  216. Output: b'\xab\xcd\xef\xff\x10\xff\xaa\xab'
  217. :param filepath: The path of the file from which to get the bytes
  218. :return: The bytes of the file (either a byte representation of a string or the bytes contained in the file)
  219. """
  220. try:
  221. file = open(filepath)
  222. result_bytes = b''
  223. header = file.readline().strip()
  224. content = file.read()
  225. if header == "hex":
  226. content = content.replace(" ", "").replace("\n", "").replace("\\", "").replace("x", "").replace("\"", "") \
  227. .replace("'", "").replace("+", "").replace("\r", "")
  228. try:
  229. result_bytes = bytes.fromhex(content)
  230. except ValueError:
  231. print("\nERROR: Content of file is not all hexadecimal.")
  232. file.close()
  233. exit(1)
  234. elif header == "str":
  235. result_bytes = content.strip().encode()
  236. else:
  237. print("\nERROR: Invalid header found: " + header + ". Try 'hex' or 'str' followed by endline instead.")
  238. file.close()
  239. exit(1)
  240. for forbidden_char in forbidden_chars:
  241. if forbidden_char in result_bytes:
  242. print("\nERROR: Forbidden character found in payload: ", forbidden_char)
  243. file.close()
  244. exit(1)
  245. file.close()
  246. return result_bytes
  247. except FileNotFoundError:
  248. print("\nERROR: File not found: ", filepath)
  249. exit(1)
  250. def handle_most_used_outputs(most_used_x):
  251. """
  252. :param most_used_x: Element or list (e.g. from SQL-query output) which should only be one element
  253. :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.
  254. None if that list is empty.
  255. """
  256. if isinstance(most_used_x, list):
  257. if len(most_used_x) == 0:
  258. return None
  259. most_used_x.sort()
  260. return most_used_x[0]
  261. else:
  262. return most_used_x
  263. def get_attacker_config(ip_source_list, ip_address: str):
  264. """
  265. Returns the attacker configuration depending on the IP address, this includes the port for the next
  266. attacking packet and the previously used (fixed) TTL value.
  267. :param ip_source_list: List of source IPs
  268. :param ip_address: The IP address of the attacker
  269. :return: A tuple consisting of (port, ttlValue)
  270. """
  271. # Gamma distribution parameters derived from MAWI 13.8G dataset
  272. alpha, loc, beta = (2.3261710235, -0.188306914406, 44.4853123884)
  273. gd = stats.gamma.rvs(alpha, loc=loc, scale=beta, size=len(ip_source_list))
  274. # Determine port
  275. port = attacker_port_mapping.get(ip_address)
  276. if port is not None: # use next port
  277. next_port = attacker_port_mapping.get(ip_address) + 1
  278. if next_port > (2 ** 16 - 1):
  279. next_port = 1
  280. else: # generate starting port
  281. next_port = inet.RandShort()
  282. attacker_port_mapping[ip_address] = next_port
  283. # Determine TTL value
  284. ttl = attacker_ttl_mapping.get(ip_address)
  285. if ttl is None: # determine TTL value
  286. is_invalid = True
  287. pos = ip_source_list.index(ip_address)
  288. pos_max = len(gd)
  289. while is_invalid:
  290. ttl = int(round(gd[pos]))
  291. if 0 < ttl < 256: # validity check
  292. is_invalid = False
  293. else:
  294. pos = (pos + 1) % pos_max
  295. attacker_ttl_mapping[ip_address] = ttl
  296. # return port and TTL
  297. return next_port, ttl