sublist3r报错解决
作者:互联网
报错信息:
AttributeError: 'NoneType' object has no attribute 'headers'
解决方法:
pip install --upgrade certifi
报错信息:
着色什么什么的
解决方法:
pip install win_unicode_console colorama
其他报错:
把sublist3r.py文件内容换成我这个,亲测有效,具体改什么地方我都忘了,被我改好几次了。
#!/usr/bin/env python
# coding: utf-8
# Sublist3r v1.0
# By Ahmed Aboul-Ela - twitter.com/aboul3la
# modules in standard library
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:
from urllib.parse 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("""%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 (Windows NT 6.1; WOW64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/58.0.3029.110 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',
'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 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=&bih=&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
return
def extract_domains(self, resp):
links_list = list()
link_regx = re.compile('<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 (type(resp) is str or type(resp) is 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(5)
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("<(\/)?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="web-result-url">(.*?)</p>')
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('<(\/)?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('<.*?>|>|<| ', '', 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):
csrf_regex = re.compile('<input type="hidden" name="csrfmiddlewaretoken" value="(.*?)">', re.S)
token = csrf_regex.findall(resp)[0]
return token.strip()
def enumerate(self):
self.lock = threading.BoundedSemaphore(value=70)
resp = self.req('GET', self.base_url)
token = self.get_csrftoken(resp)
params = {'csrfmiddlewaretoken': 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):
tbl_regex = re.compile('<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/ui/domains/{domain}/subdomains?relationships=resolutions'
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" # as of 1/20/2022, the content of this header doesn't matter, just its presence
self.headers["Accept-Ianguage"] = self.headers["Accept-Language"] # this header being present is required to prevent a captcha
return
# the main send_req need to be rewritten
def send_req(self, url):
try:
resp = self.session.get(url, headers=self.headers, timeout=self.timeout)
except Exception as e:
self.print_(e)
resp = None
return self.get_response(resp)
# once the send_req is rewritten we don't need to call this function, the stock one should be ok
def enumerate(self):
while self.url != '':
resp = self.send_req(self.url)
resp = json.loads(resp)
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("^(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()
示例:
标签:domain,self,subdomains,报错,解决,subdomain,sublist3r,resp,def 来源: https://www.cnblogs.com/defyou/p/16410189.html