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Sublist3r/sublist3r.py

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#!/usr/bin/env python
# coding: utf-8
# Sublist3r v1.0
# By Ahmed Aboul-Ela - twitter.com/aboul3la
# Define your Virustotal API key
vt_apikey = 'YOUR API KEY'
# modules in standard library
from bs4 import BeautifulSoup
import re
import sys
import os
import argparse
import time
import hashlib
import random
import multiprocessing
import threading
import socket
import json
from collections import Counter
# external modules
from subbrute import subbrute
import dns.resolver
import requests
# Python 2.x and 3.x compatiablity
if sys.version > '3':
import urllib.parse as urlparse
import urllib.parse as urllib
else:
import urlparse
import urllib
# In case you cannot install some of the required development packages
# there's also an option to disable the SSL warning:
try:
import requests.packages.urllib3
requests.packages.urllib3.disable_warnings()
except:
pass
# Check if we are running this on windows platform
is_windows = sys.platform.startswith('win')
# Console Colors
if is_windows:
# Windows deserves coloring too :D
G = '\033[92m' # green
Y = '\033[93m' # yellow
B = '\033[94m' # blue
R = '\033[91m' # red
W = '\033[0m' # white
try:
import win_unicode_console , colorama
win_unicode_console.enable()
colorama.init()
#Now the unicode will work ^_^
except:
print("[!] Error: Coloring libraries not installed, no coloring will be used [Check the readme]")
G = Y = B = R = W = G = Y = B = R = W = ''
else:
G = '\033[92m' # green
Y = '\033[93m' # yellow
B = '\033[94m' # blue
R = '\033[91m' # red
W = '\033[0m' # white
def no_color():
global G, Y, B, R, W
G = Y = B = R = W = ''
def banner():
print(r"""%s
____ _ _ _ _ _____
/ ___| _ _| |__ | (_)___| |_|___ / _ __
\___ \| | | | '_ \| | / __| __| |_ \| '__|
___) | |_| | |_) | | \__ \ |_ ___) | |
|____/ \__,_|_.__/|_|_|___/\__|____/|_|%s%s
# Coded By Ahmed Aboul-Ela - @aboul3la
""" % (R, W, Y))
def parser_error(errmsg):
banner()
print("Usage: python " + sys.argv[0] + " [Options] use -h for help")
print(R + "Error: " + errmsg + W)
sys.exit()
def parse_args():
# parse the arguments
parser = argparse.ArgumentParser(epilog='\tExample: \r\npython ' + sys.argv[0] + " -d google.com")
parser.error = parser_error
parser._optionals.title = "OPTIONS"
parser.add_argument('-d', '--domain', help="Domain name to enumerate it's subdomains", required=True)
parser.add_argument('-b', '--bruteforce', help='Enable the subbrute bruteforce module', nargs='?', default=False)
parser.add_argument('-p', '--ports', help='Scan the found subdomains against specified tcp ports')
parser.add_argument('-v', '--verbose', help='Enable Verbosity and display results in realtime', nargs='?', default=False)
parser.add_argument('-t', '--threads', help='Number of threads to use for subbrute bruteforce', type=int, default=30)
parser.add_argument('-e', '--engines', help='Specify a comma-separated list of search engines')
parser.add_argument('-o', '--output', help='Save the results to text file')
parser.add_argument('-n', '--no-color', help='Output without color', default=False, action='store_true')
return parser.parse_args()
def write_file(filename, subdomains):
# saving subdomains results to output file
print("%s[-] Saving results to file: %s%s%s%s" % (Y, W, R, filename, W))
with open(str(filename), 'wt') as f:
for subdomain in subdomains:
f.write(subdomain + os.linesep)
def subdomain_sorting_key(hostname):
"""Sorting key for subdomains
This sorting key orders subdomains from the top-level domain at the right
reading left, then moving '^' and 'www' to the top of their group. For
example, the following list is sorted correctly:
[
'example.com',
'www.example.com',
'a.example.com',
'www.a.example.com',
'b.a.example.com',
'b.example.com',
'example.net',
'www.example.net',
'a.example.net',
]
"""
parts = hostname.split('.')[::-1]
if parts[-1] == 'www':
return parts[:-1], 1
return parts, 0
class enumratorBase(object):
def __init__(self, base_url, engine_name, domain, subdomains=None, silent=False, verbose=True):
subdomains = subdomains or []
self.domain = urlparse.urlparse(domain).netloc
self.session = requests.Session()
self.subdomains = []
self.timeout = 25
self.base_url = base_url
self.engine_name = engine_name
self.silent = silent
self.verbose = verbose
self.headers = {
'User-Agent': 'Mozilla/5.0 (X11; Ubuntu; Linux x86_64; rv:105.0) Gecko/20100101 Firefox/105.0',
'Accept': 'text/html,application/xhtml+xml,application/xml;q=0.9,image/webp,*/*;q=0.8',
'Accept-Language': 'en-US,en;q=0.8',
'Accept-Encoding': 'gzip',
}
self.print_banner()
def print_(self, text):
if not self.silent:
print(text)
return
def print_banner(self):
""" subclass can override this if they want a fancy banner :)"""
self.print_(G + "[-] Searching now in %s.." % (self.engine_name) + W)
return
def send_req(self, query, page_no=1):
url = self.base_url.format(query=query, page_no=page_no)
try:
resp = self.session.get(url, headers=self.headers, timeout=self.timeout)
except Exception:
resp = None
return self.get_response(resp)
def get_response(self, response):
if response is None:
return '' # return empty string if there was an error instead of 0
return response.text if hasattr(response, "text") else response.content
def check_max_subdomains(self, count):
if self.MAX_DOMAINS == 0:
return False
return count >= self.MAX_DOMAINS
def check_max_pages(self, num):
if self.MAX_PAGES == 0:
return False
return num >= self.MAX_PAGES
# override
def extract_domains(self, resp):
""" chlid class should override this function """
return
# override
def check_response_errors(self, resp):
""" chlid class should override this function
The function should return True if there are no errors and False otherwise
"""
return True
def should_sleep(self):
"""Some enumrators require sleeping to avoid bot detections like Google enumerator"""
return
def generate_query(self):
""" chlid class should override this function """
return
def get_page(self, num):
""" chlid class that user different pagnation counter should override this function """
return num + 10
def enumerate(self, altquery=False):
flag = True
page_no = 0
prev_links = []
retries = 0
while flag:
query = self.generate_query()
count = query.count(self.domain) # finding the number of subdomains found so far
# if they we reached the maximum number of subdomains in search query
# then we should go over the pages
if self.check_max_subdomains(count):
page_no = self.get_page(page_no)
if self.check_max_pages(page_no): # maximum pages for Google to avoid getting blocked
return self.subdomains
resp = self.send_req(query, page_no)
# check if there is any error occured
if not self.check_response_errors(resp):
return self.subdomains
links = self.extract_domains(resp)
# if the previous page hyperlinks was the similar to the current one, then maybe we have reached the last page
if links == prev_links:
retries += 1
page_no = self.get_page(page_no)
# make another retry maybe it isn't the last page
if retries >= 3:
return self.subdomains
prev_links = links
self.should_sleep()
return self.subdomains
class enumratorBaseThreaded(multiprocessing.Process, enumratorBase):
def __init__(self, base_url, engine_name, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
enumratorBase.__init__(self, base_url, engine_name, domain, subdomains, silent=silent, verbose=verbose)
multiprocessing.Process.__init__(self)
self.q = q
return
def run(self):
domain_list = self.enumerate()
for domain in domain_list:
self.q.append(domain)
class GoogleEnum(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = "https://google.com/search?q={query}&btnG=Search&hl=en-US&biw=1366&bih=768&gbv=1&start={page_no}&filter=0"
self.engine_name = "Google"
self.MAX_DOMAINS = 11
self.MAX_PAGES = 200
super(GoogleEnum, self).__init__(base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
self.q = q
self.headers = {
'User-Agent': 'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/98.0.4758.102 Safari/537.36',
'Accept': 'text/html,application/xhtml+xml,application/xml;q=0.9,image/webp,*/*;q=0.8',
'Accept-Language': 'en-US,en;q=0.8',
'Cache-Control': 'max-age=0',
'Connection': 'keep-alive'
}
return
def extract_domains(self, resp):
links_list = list()
link_regx = re.compile(r'<cite.*?>(.*?)<\/cite>')
try:
links_list = link_regx.findall(resp)
for link in links_list:
link = re.sub('<span.*>', '', link)
if not link.startswith('http'):
link = "http://" + link
subdomain = urlparse.urlparse(link).netloc
if subdomain and subdomain not in self.subdomains and subdomain != self.domain:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception:
pass
return links_list
def check_response_errors(self, resp):
if isinstance(resp, str) and 'Our systems have detected unusual traffic' in resp:
self.print_(R + "[!] Error: Google probably now is blocking our requests" + W)
self.print_(R + "[~] Finished now the Google Enumeration ..." + W)
return False
return True
def should_sleep(self):
time.sleep(random.uniform(5, 10)) # Random delay between 5-10 seconds
return
def generate_query(self):
if self.subdomains:
fmt = 'site:{domain} -www.{domain} -{found}'
found = ' -'.join(self.subdomains[:self.MAX_DOMAINS - 2])
query = fmt.format(domain=self.domain, found=found)
else:
query = "site:{domain} -www.{domain}".format(domain=self.domain)
return query
class YahooEnum(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = "https://search.yahoo.com/search?p={query}&b={page_no}"
self.engine_name = "Yahoo"
self.MAX_DOMAINS = 10
self.MAX_PAGES = 0
super(YahooEnum, self).__init__(base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
self.q = q
return
def extract_domains(self, resp):
link_regx2 = re.compile('<span class=" fz-.*? fw-m fc-12th wr-bw.*?">(.*?)</span>')
link_regx = re.compile('<span class="txt"><span class=" cite fw-xl fz-15px">(.*?)</span>')
links_list = []
try:
links = link_regx.findall(resp)
links2 = link_regx2.findall(resp)
links_list = links + links2
for link in links_list:
link = re.sub(r"<(\/)?b>", "", link)
if not link.startswith('http'):
link = "http://" + link
subdomain = urlparse.urlparse(link).netloc
if not subdomain.endswith(self.domain):
continue
if subdomain and subdomain not in self.subdomains and subdomain != self.domain:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception:
pass
return links_list
def should_sleep(self):
return
def get_page(self, num):
return num + 10
def generate_query(self):
if self.subdomains:
fmt = 'site:{domain} -domain:www.{domain} -domain:{found}'
found = ' -domain:'.join(self.subdomains[:77])
query = fmt.format(domain=self.domain, found=found)
else:
query = "site:{domain}".format(domain=self.domain)
return query
class AskEnum(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = 'http://www.ask.com/web?q={query}&page={page_no}&qid=8D6EE6BF52E0C04527E51F64F22C4534&o=0&l=dir&qsrc=998&qo=pagination'
self.engine_name = "Ask"
self.MAX_DOMAINS = 11
self.MAX_PAGES = 0
enumratorBaseThreaded.__init__(self, base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
self.q = q
return
def extract_domains(self, resp):
links_list = list()
link_regx = re.compile('<p class="PartialSearchResults-item-url">(.*?)</p>') #error fixed
try:
links_list = link_regx.findall(resp)
for link in links_list:
if not link.startswith('http'):
link = "http://" + link
subdomain = urlparse.urlparse(link).netloc
if subdomain not in self.subdomains and subdomain != self.domain:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception:
pass
return links_list
def get_page(self, num):
return num + 1
def generate_query(self):
if self.subdomains:
fmt = 'site:{domain} -www.{domain} -{found}'
found = ' -'.join(self.subdomains[:self.MAX_DOMAINS])
query = fmt.format(domain=self.domain, found=found)
else:
query = "site:{domain} -www.{domain}".format(domain=self.domain)
return query
class BingEnum(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = 'https://www.bing.com/search?q={query}&go=Submit&first={page_no}'
self.engine_name = "Bing"
self.MAX_DOMAINS = 30
self.MAX_PAGES = 0
enumratorBaseThreaded.__init__(self, base_url, self.engine_name, domain, subdomains, q=q, silent=silent)
self.q = q
self.verbose = verbose
return
def extract_domains(self, resp):
links_list = list()
link_regx = re.compile('<li class="b_algo"><h2><a href="(.*?)"')
link_regx2 = re.compile('<div class="b_title"><h2><a href="(.*?)"')
try:
links = link_regx.findall(resp)
links2 = link_regx2.findall(resp)
links_list = links + links2
for link in links_list:
link = re.sub(r'<(\/)?strong>|<span.*?>|<|>', '', link)
if not link.startswith('http'):
link = "http://" + link
subdomain = urlparse.urlparse(link).netloc
if subdomain not in self.subdomains and subdomain != self.domain:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception:
pass
return links_list
def generate_query(self):
if self.subdomains:
fmt = 'domain:{domain} -www.{domain} -{found}'
found = ' -'.join(self.subdomains[:self.MAX_DOMAINS])
query = fmt.format(domain=self.domain, found=found)
else:
query = "domain:{domain} -www.{domain}".format(domain=self.domain)
return query
class BaiduEnum(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = 'https://www.baidu.com/s?pn={page_no}&wd={query}&oq={query}'
self.engine_name = "Baidu"
self.MAX_DOMAINS = 2
self.MAX_PAGES = 760
enumratorBaseThreaded.__init__(self, base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
self.querydomain = self.domain
self.q = q
return
def extract_domains(self, resp):
links = list()
found_newdomain = False
subdomain_list = []
link_regx = re.compile('<a.*?class="c-showurl".*?>(.*?)</a>')
try:
links = link_regx.findall(resp)
for link in links:
link = re.sub('<.*?>|>|<|&nbsp;', '', link)
if not link.startswith('http'):
link = "http://" + link
subdomain = urlparse.urlparse(link).netloc
if subdomain.endswith(self.domain):
subdomain_list.append(subdomain)
if subdomain not in self.subdomains and subdomain != self.domain:
found_newdomain = True
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception:
pass
if not found_newdomain and subdomain_list:
self.querydomain = self.findsubs(subdomain_list)
return links
def findsubs(self, subdomains):
count = Counter(subdomains)
subdomain1 = max(count, key=count.get)
count.pop(subdomain1, "None")
subdomain2 = max(count, key=count.get) if count else ''
return (subdomain1, subdomain2)
def check_response_errors(self, resp):
return True
def should_sleep(self):
time.sleep(random.randint(2, 5))
return
def generate_query(self):
if self.subdomains and self.querydomain != self.domain:
found = ' -site:'.join(self.querydomain)
query = "site:{domain} -site:www.{domain} -site:{found} ".format(domain=self.domain, found=found)
else:
query = "site:{domain} -site:www.{domain}".format(domain=self.domain)
return query
class NetcraftEnum(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
self.base_url = 'https://searchdns.netcraft.com/?restriction=site+ends+with&host={domain}'
self.engine_name = "Netcraft"
super(NetcraftEnum, self).__init__(self.base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
self.q = q
return
def req(self, url, cookies=None):
cookies = cookies or {}
try:
resp = self.session.get(url, headers=self.headers, timeout=self.timeout, cookies=cookies)
except Exception as e:
self.print_(e)
resp = None
return resp
def should_sleep(self):
time.sleep(random.randint(1, 2))
return
def get_next(self, resp):
link_regx = re.compile('<a.*?href="(.*?)">Next Page')
link = link_regx.findall(resp)
url = 'http://searchdns.netcraft.com' + link[0]
return url
def create_cookies(self, cookie):
cookies = dict()
cookies_list = cookie[0:cookie.find(';')].split("=")
cookies[cookies_list[0]] = cookies_list[1]
# hashlib.sha1 requires utf-8 encoded str
cookies['netcraft_js_verification_response'] = hashlib.sha1(urllib.unquote(cookies_list[1]).encode('utf-8')).hexdigest()
return cookies
def get_cookies(self, headers):
if 'set-cookie' in headers:
cookies = self.create_cookies(headers['set-cookie'])
else:
cookies = {}
return cookies
def enumerate(self):
start_url = self.base_url.format(domain='example.com')
resp = self.req(start_url)
cookies = self.get_cookies(resp.headers)
url = self.base_url.format(domain=self.domain)
while True:
resp = self.get_response(self.req(url, cookies))
self.extract_domains(resp)
if 'Next Page' not in resp:
return self.subdomains
break
url = self.get_next(resp)
self.should_sleep()
def extract_domains(self, resp):
links_list = list()
link_regx = re.compile('<a class="results-table__host" href="(.*?)"')
try:
links_list = link_regx.findall(resp)
for link in links_list:
subdomain = urlparse.urlparse(link).netloc
if not subdomain.endswith(self.domain):
continue
if subdomain and subdomain not in self.subdomains and subdomain != self.domain:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception:
pass
return links_list
class DNSdumpster(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = 'https://dnsdumpster.com/'
self.live_subdomains = []
self.engine_name = "DNSdumpster"
self.q = q
self.lock = None
super(DNSdumpster, self).__init__(base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
return
def check_host(self, host):
is_valid = False
Resolver = dns.resolver.Resolver()
Resolver.nameservers = ['8.8.8.8', '8.8.4.4']
self.lock.acquire()
try:
ip = Resolver.query(host, 'A')[0].to_text()
if ip:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, host))
is_valid = True
self.live_subdomains.append(host)
except:
pass
self.lock.release()
return is_valid
def req(self, req_method, url, params=None):
params = params or {}
headers = dict(self.headers)
headers['Referer'] = 'https://dnsdumpster.com'
try:
if req_method == 'GET':
resp = self.session.get(url, headers=headers, timeout=self.timeout)
else:
resp = self.session.post(url, data=params, headers=headers, timeout=self.timeout)
except Exception as e:
self.print_(e)
resp = None
return self.get_response(resp)
def get_csrftoken(self, resp):
soup = BeautifulSoup(resp, features="html.parser")
token = soup.find('input', {'name': 'b_3cbc62d931a69e74b2c856f1a_532c46ab39'})
if token:
return token['value'].strip()
else:
raise ValueError("[!] Error: Unable to retrieve CSRF token from DNSdumpster")
def enumerate(self):
self.lock = threading.BoundedSemaphore(value=70)
resp = self.req('GET', self.base_url)
token = self.get_csrftoken(resp)
params = {'b_3cbc62d931a69e74b2c856f1a_532c46ab39': token, 'targetip': self.domain}
post_resp = self.req('POST', self.base_url, params)
self.extract_domains(post_resp)
for subdomain in self.subdomains:
t = threading.Thread(target=self.check_host, args=(subdomain,))
t.start()
t.join()
return self.live_subdomains
def extract_domains(self, resp):
if not isinstance(resp, str):
return []
tbl_regex = re.compile(r'<a name="hostanchor"><\/a>Host Records.*?<table.*?>(.*?)</table>', re.S)
link_regex = re.compile('<td class="col-md-4">(.*?)<br>', re.S)
links = []
try:
results_tbl = tbl_regex.findall(resp)[0]
except IndexError:
results_tbl = ''
links_list = link_regex.findall(results_tbl)
links = list(set(links_list))
for link in links:
subdomain = link.strip()
if not subdomain.endswith(self.domain):
continue
if subdomain and subdomain not in self.subdomains and subdomain != self.domain:
self.subdomains.append(subdomain.strip())
return links
class Virustotal(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = 'https://www.virustotal.com/api/v3/domains/{domain}/subdomains'
self.engine_name = "Virustotal"
self.q = q
super(Virustotal, self).__init__(base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
self.url = self.base_url.format(domain=self.domain)
# Virustotal requires specific headers to bypass the bot detection:
self.headers["X-Tool"] = "vt-ui-main"
self.headers["X-VT-Anti-Abuse-Header"] = "hm"
self.headers["Accept-Ianguage"] = self.headers["Accept-Language"]
return
def send_req(self, url):
try:
global vt_apikey
headers = dict(self.headers)
headers['x-apikey'] = vt_apikey
resp = self.session.get(url, headers=headers, timeout=self.timeout)
except Exception as e:
self.print_(e)
resp = None
return self.get_response(resp)
def enumerate(self):
while self.url != '':
resp = self.send_req(self.url)
if isinstance(resp, str): # Ensure the response is a string before parsing as JSON
resp = json.loads(resp)
else:
self.print_(R + "[!] Error: Unexpected response format" + W)
break
if 'error' in resp:
self.print_(R + "[!] Error: Virustotal probably now is blocking our requests" + W)
break
if 'links' in resp and 'next' in resp['links']:
self.url = resp['links']['next']
else:
self.url = ''
self.extract_domains(resp)
return self.subdomains
def extract_domains(self, resp):
# resp is already parsed as JSON
try:
for i in resp['data']:
if i['type'] == 'domain':
subdomain = i['id']
if not subdomain.endswith(self.domain):
continue
if subdomain not in self.subdomains and subdomain != self.domain:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception:
pass
class ThreatCrowd(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = 'https://www.threatcrowd.org/searchApi/v2/domain/report/?domain={domain}'
self.engine_name = "ThreatCrowd"
self.q = q
super(ThreatCrowd, self).__init__(base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
return
def req(self, url):
try:
resp = self.session.get(url, headers=self.headers, timeout=self.timeout)
except Exception:
resp = None
return self.get_response(resp)
def enumerate(self):
url = self.base_url.format(domain=self.domain)
resp = self.req(url)
self.extract_domains(resp)
return self.subdomains
def extract_domains(self, resp):
try:
links = json.loads(resp)['subdomains']
for link in links:
subdomain = link.strip()
if not subdomain.endswith(self.domain):
continue
if subdomain not in self.subdomains and subdomain != self.domain:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception as e:
pass
class CrtSearch(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = 'https://crt.sh/?q=%25.{domain}'
self.engine_name = "SSL Certificates"
self.q = q
super(CrtSearch, self).__init__(base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
return
def req(self, url):
try:
resp = self.session.get(url, headers=self.headers, timeout=self.timeout)
except Exception:
resp = None
return self.get_response(resp)
def enumerate(self):
url = self.base_url.format(domain=self.domain)
resp = self.req(url)
if resp:
self.extract_domains(resp)
return self.subdomains
def extract_domains(self, resp):
link_regx = re.compile('<TD>(.*?)</TD>')
try:
links = link_regx.findall(resp)
for link in links:
link = link.strip()
subdomains = []
if '<BR>' in link:
subdomains = link.split('<BR>')
else:
subdomains.append(link)
for subdomain in subdomains:
if not subdomain.endswith(self.domain) or '*' in subdomain:
continue
if '@' in subdomain:
subdomain = subdomain[subdomain.find('@')+1:]
if subdomain not in self.subdomains and subdomain != self.domain:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception as e:
print(e)
pass
class PassiveDNS(enumratorBaseThreaded):
def __init__(self, domain, subdomains=None, q=None, silent=False, verbose=True):
subdomains = subdomains or []
base_url = 'https://api.sublist3r.com/search.php?domain={domain}'
self.engine_name = "PassiveDNS"
self.q = q
super(PassiveDNS, self).__init__(base_url, self.engine_name, domain, subdomains, q=q, silent=silent, verbose=verbose)
return
def req(self, url):
try:
resp = self.session.get(url, headers=self.headers, timeout=self.timeout)
except Exception as e:
resp = None
return self.get_response(resp)
def enumerate(self):
url = self.base_url.format(domain=self.domain)
resp = self.req(url)
if not resp:
return self.subdomains
self.extract_domains(resp)
return self.subdomains
def extract_domains(self, resp):
try:
subdomains = json.loads(resp)
for subdomain in subdomains:
if subdomain not in self.subdomains and subdomain != self.domain:
if self.verbose:
self.print_("%s%s: %s%s" % (R, self.engine_name, W, subdomain))
self.subdomains.append(subdomain.strip())
except Exception as e:
pass
class portscan():
def __init__(self, subdomains, ports):
self.subdomains = subdomains
self.ports = ports
self.lock = None
def port_scan(self, host, ports):
openports = []
self.lock.acquire()
for port in ports:
try:
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.settimeout(2)
result = s.connect_ex((host, int(port)))
if result == 0:
openports.append(port)
s.close()
except Exception:
pass
self.lock.release()
if len(openports) > 0:
print("%s%s%s - %sFound open ports:%s %s%s%s" % (G, host, W, R, W, Y, ', '.join(openports), W))
def run(self):
self.lock = threading.BoundedSemaphore(value=20)
for subdomain in self.subdomains:
t = threading.Thread(target=self.port_scan, args=(subdomain, self.ports))
t.start()
def main(domain, threads, savefile, ports, silent, verbose, enable_bruteforce, engines):
bruteforce_list = set()
search_list = set()
if is_windows:
subdomains_queue = list()
else:
subdomains_queue = multiprocessing.Manager().list()
# Check Bruteforce Status
if enable_bruteforce or enable_bruteforce is None:
enable_bruteforce = True
# Validate domain
domain_check = re.compile(r"^(http|https)?[a-zA-Z0-9]+([\-\.]{1}[a-zA-Z0-9]+)*\.[a-zA-Z]{2,}$")
if not domain_check.match(domain):
if not silent:
print(R + "Error: Please enter a valid domain" + W)
return []
if not domain.startswith('http://') or not domain.startswith('https://'):
domain = 'http://' + domain
parsed_domain = urlparse.urlparse(domain)
if not silent:
print(B + "[-] Enumerating subdomains now for %s" % parsed_domain.netloc + W)
if verbose and not silent:
print(Y + "[-] verbosity is enabled, will show the subdomains results in realtime" + W)
supported_engines = {'baidu': BaiduEnum,
'yahoo': YahooEnum,
'google': GoogleEnum,
'bing': BingEnum,
'ask': AskEnum,
'netcraft': NetcraftEnum,
'dnsdumpster': DNSdumpster,
'virustotal': Virustotal,
'threatcrowd': ThreatCrowd,
'ssl': CrtSearch,
'passivedns': PassiveDNS
}
chosenEnums = []
if engines is None:
chosenEnums = [
BaiduEnum, YahooEnum, GoogleEnum, BingEnum, AskEnum,
NetcraftEnum, DNSdumpster, Virustotal, ThreatCrowd,
CrtSearch, PassiveDNS
]
else:
engines = engines.split(',')
for engine in engines:
if engine.lower() in supported_engines:
chosenEnums.append(supported_engines[engine.lower()])
# Start the engines enumeration
enums = [enum(domain, [], q=subdomains_queue, silent=silent, verbose=verbose) for enum in chosenEnums]
for enum in enums:
enum.start()
for enum in enums:
enum.join()
subdomains = set(subdomains_queue)
for subdomain in subdomains:
search_list.add(subdomain)
if enable_bruteforce:
if not silent:
print(G + "[-] Starting bruteforce module now using subbrute.." + W)
record_type = False
path_to_file = os.path.dirname(os.path.realpath(__file__))
subs = os.path.join(path_to_file, 'subbrute', 'names.txt')
resolvers = os.path.join(path_to_file, 'subbrute', 'resolvers.txt')
process_count = threads
output = False
json_output = False
bruteforce_list = subbrute.print_target(parsed_domain.netloc, record_type, subs, resolvers, process_count, output, json_output, search_list, verbose)
subdomains = search_list.union(bruteforce_list)
if subdomains:
subdomains = sorted(subdomains, key=subdomain_sorting_key)
if savefile:
write_file(savefile, subdomains)
if not silent:
print(Y + "[-] Total Unique Subdomains Found: %s" % len(subdomains) + W)
if ports:
if not silent:
print(G + "[-] Start port scan now for the following ports: %s%s" % (Y, ports) + W)
ports = ports.split(',')
pscan = portscan(subdomains, ports)
pscan.run()
elif not silent:
for subdomain in subdomains:
print(G + subdomain + W)
return subdomains
def interactive():
args = parse_args()
domain = args.domain
threads = args.threads
savefile = args.output
ports = args.ports
enable_bruteforce = args.bruteforce
verbose = args.verbose
engines = args.engines
if verbose or verbose is None:
verbose = True
if args.no_color:
no_color()
banner()
res = main(domain, threads, savefile, ports, silent=False, verbose=verbose, enable_bruteforce=enable_bruteforce, engines=engines)
if __name__ == "__main__":
interactive()
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