#!/usr/bin/env python3 # Copyright (C) 2012 Sebastien MACKE # # This program is free software; you can redistribute it and/or modify it under # the terms of the GNU General Public License version 2, as published by the # Free Software Foundation # # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS # FOR A PARTICULAR PURPOSE. See the GNU General Public License for more # details (http://www.gnu.org/licenses/gpl.txt). import sys __author__ = 'Sebastien Macke' __email__ = 'patator@hsc.fr' __url__ = 'http://www.hsc.fr/ressources/outils/patator/' __git__ = 'https://github.com/lanjelot/patator' __twitter__ = 'https://twitter.com/lanjelot' __version__ = '1.1-dev' __license__ = 'GPLv2' __pyver__ = '%d.%d.%d' % sys.version_info[0:3] __banner__ = 'Patator %s (%s) with python-%s' % (__version__, __git__, __pyver__) # README {{{ ''' INTRODUCTION ------------ * What ? Patator is a multi-purpose brute-forcer, with a modular design and a flexible usage. Currently it supports the following modules: + ftp_login : Brute-force FTP + ssh_login : Brute-force SSH + telnet_login : Brute-force Telnet + smtp_login : Brute-force SMTP + smtp_vrfy : Enumerate valid users using SMTP VRFY + smtp_rcpt : Enumerate valid users using SMTP RCPT TO + finger_lookup : Enumerate valid users using Finger + http_fuzz : Brute-force HTTP + rdp_gateway : Brute-force RDP Gateway + ajp_fuzz : Brute-force AJP + pop_login : Brute-force POP3 + pop_passd : Brute-force poppassd (http://netwinsite.com/poppassd/) + imap_login : Brute-force IMAP4 + ldap_login : Brute-force LDAP + dcom_login : Brute-force DCOM + smb_login : Brute-force SMB + smb_lookupsid : Brute-force SMB SID-lookup + rlogin_login : Brute-force rlogin + vmauthd_login : Brute-force VMware Authentication Daemon + mssql_login : Brute-force MSSQL + oracle_login : Brute-force Oracle + mysql_login : Brute-force MySQL + mysql_query : Brute-force MySQL queries * rdp_login : Brute-force RDP (NLA) + pgsql_login : Brute-force PostgreSQL + vnc_login : Brute-force VNC + dns_forward : Forward DNS lookup + dns_reverse : Reverse DNS lookup + snmp_login : Brute-force SNMP v1/2/3 + ike_enum : Enumerate IKE transforms + unzip_pass : Brute-force the password of encrypted ZIP files + keystore_pass : Brute-force the password of Java keystore files + sqlcipher_pass : Brute-force the password of SQLCipher-encrypted databases + umbraco_crack : Crack Umbraco HMAC-SHA1 password hashes + tcp_fuzz : Fuzz TCP services + dummy_test : Testing module Future modules to be implemented: - rdp_login w/no NLA The name "Patator" comes from https://www.youtube.com/watch?v=9sF9fTALhVA * Why ? Basically, I got tired of using Medusa, Hydra, Ncrack, Metasploit auxiliary modules, Nmap NSE scripts and the like because: - they either do not work or are not reliable (got me false negatives several times in the past) - they are not flexible enough (how to iterate over all wordlists, fuzz any module parameter) - they lack useful features (display progress or pause during execution) FEATURES -------- * No false negatives, as it is the user that decides what results to ignore based on: + status code of response + size of response + matching string or regex in response data + ... see --help * Modular design + not limited to network modules (eg. the unzip_pass module) + not limited to brute-forcing (eg. remote exploit testing, or vulnerable version probing) * Interactive runtime + show progress during execution (press Enter) + pause/unpause execution (press p) + increase/decrease verbosity + add new actions & conditions during runtime (eg. to exclude more types of response from showing) + ... press h to see all available interactive commands * Use persistent connections (ie. will test several passwords until the server disconnects) * Multi-threaded * Flexible user input - Any module parameter can be fuzzed: + use the FILE keyword to iterate over a file + use the COMBO keyword to iterate over a combo file + use the NET keyword to iterate over every hosts of a network subnet + use the RANGE keyword to iterate over hexadecimal, decimal or alphabetical ranges + use the PROG keyword to iterate over the output of an external program - Iteration over the joined wordlists can be done in any order * Save every response (along with request) to separate log files for later reviewing INSTALL ------- * Dependencies (best tested versions) | Required for | URL | Version | -------------------------------------------------------------------------------------------------- paramiko | SSH | http://www.lag.net/paramiko/ | 2.7.1 | -------------------------------------------------------------------------------------------------- pycurl | HTTP | http://pycurl.sourceforge.net/ | 7.43.0 | -------------------------------------------------------------------------------------------------- libcurl | HTTP | https://curl.haxx.se/ | 7.58.0 | -------------------------------------------------------------------------------------------------- ajpy | AJP | https://github.com/hypn0s/AJPy/ | 0.0.4 | -------------------------------------------------------------------------------------------------- openldap | LDAP | http://www.openldap.org/ | 2.4.45 | -------------------------------------------------------------------------------------------------- impacket | SMB, MSSQL | https://github.com/CoreSecurity/impacket | 0.9.20 | -------------------------------------------------------------------------------------------------- pyOpenSSL | impacket | https://pyopenssl.org/ | 19.1.0 | -------------------------------------------------------------------------------------------------- cx_Oracle | Oracle | http://cx-oracle.sourceforge.net/ | 7.3.0 | -------------------------------------------------------------------------------------------------- mysqlclient | MySQL | https://github.com/PyMySQL/mysqlclient-python | 1.4.6 | -------------------------------------------------------------------------------------------------- xfreerdp | RDP (NLA) | https://github.com/FreeRDP/FreeRDP/ | 1.2.0 | -------------------------------------------------------------------------------------------------- psycopg | PostgreSQL | http://initd.org/psycopg/ | 2.8.4 | -------------------------------------------------------------------------------------------------- pycrypto | VNC, impacket | http://www.dlitz.net/software/pycrypto/ | 2.6.1 | -------------------------------------------------------------------------------------------------- dnspython | DNS | http://www.dnspython.org/ | 1.16.0 | -------------------------------------------------------------------------------------------------- IPy | NET keyword | https://github.com/haypo/python-ipy | 1.0 | -------------------------------------------------------------------------------------------------- pysnmp | SNMP | http://pysnmp.sourceforge.net/ | 4.4.12 | -------------------------------------------------------------------------------------------------- pyasn1 | SNMP, impacket | http://sourceforge.net/projects/pyasn1/ | 0.4.8 | -------------------------------------------------------------------------------------------------- ike-scan | IKE | http://www.nta-monitor.com/tools-resources/ | 1.9 | -------------------------------------------------------------------------------------------------- unzip | ZIP passwords | http://www.info-zip.org/ | 6.0 | -------------------------------------------------------------------------------------------------- Java | keystore files | http://www.oracle.com/technetwork/java/javase/ | 6 | -------------------------------------------------------------------------------------------------- pysqlcipher3 | SQLCipher | https://github.com/rigglemania/pysqlcipher3 | 1.0.3 | -------------------------------------------------------------------------------------------------- python | | http://www.python.org/ | 3.6 | -------------------------------------------------------------------------------------------------- * Shortcuts (optional) ln -s path/to/patator.py /usr/bin/ftp_login ln -s path/to/patator.py /usr/bin/http_fuzz etc. USAGE ----- $ python patator.py -h # or $ -h # if shortcuts were created There are global options and module options: - all global options start with - or -- - all module options are of the form option=value All module options are fuzzable: --------- ./module host=FILE0 port=FILE1 foobar=FILE2.google.FILE3 0=hosts.txt 1=ports.txt 2=foo.txt 3=bar.txt If a module option starts with the @ character, data will be loaded from the given filename. $ ./http_fuzz raw_request=@req.txt 0=vhosts.txt 1=uagents.txt The keywords (FILE, COMBO, NET, ...) act as place-holders. They indicate the type of wordlist and where to replace themselves with the actual words to test. Each keyword is numbered in order to: - match the corresponding wordlist - and indicate in what order to iterate over all the wordlists For example, this would be the classic order: --------- $ ./module host=FILE0 user=FILE1 password=FILE2 0=hosts.txt 1=logins.txt 2=passwords.txt 10.0.0.1 root password 10.0.0.1 root 123456 10.0.0.1 root qsdfghj ... (trying all passwords before testing next login) 10.0.0.1 admin password 10.0.0.1 admin 123456 10.0.0.1 admin qsdfghj ... (trying all logins before testing next host) 10.0.0.2 root password ... While a more effective order might be: --------- $ ./module host=FILE2 user=FILE1 password=FILE0 2=hosts.txt 1=logins.txt 0=passwords.txt 10.0.0.1 root password 10.0.0.2 root password 10.0.0.1 admin password 10.0.0.2 admin password 10.0.0.1 root 123456 10.0.0.2 root 123456 10.0.0.1 admin 123456 ... By default Patator iterates over the cartesian product of all payload sets. Use the --groups option to iterate over sets simultaneously instead. For example to distribute all payloads among identical servers: --------- $ ./module name=FILE0.FILE1 resolver=FILE2 0=names.txt 1=domains.txt 2=ips.txt --groups 0,1:2 ftp.abc.fr 8.8.8.8 ftp.xyz.fr 8.8.4.4 git.abc.fr 8.8.8.8 git.xyz.fr 8.8.4.4 www.abc.fr 8.8.8.8 www.xyz.fr 8.8.4.4 The numbers of every keyword given on the command line must be specified. Use ',' to iterate over the cartesian product of sets and use ':' to iterate over sets simultaneously. * Keywords Brute-force a list of hosts with a file containing combo entries (each line => login:password). --------- ./module host=FILE0 user=COMBO10 password=COMBO11 0=hosts.txt 1=combos.txt Scan subnets to just grab version banners. --------- ./module host=NET0 0=10.0.1.0/24,10.0.2.0/24,10.0.3.128-10.0.3.255 Fuzz a parameter by iterating over a range of values. --------- ./module param=RANGE0 0=hex:0x00-0xffff ./module param=RANGE0 0=int:0-500 ./module param=RANGE0 0=lower:a-zzz Fuzz a parameter by iterating over the output of an external program. --------- ./module param=PROG0 0='john -stdout -i' ./module param=PROG0 0='mp64.bin ?l?l?l',$(mp64.bin --combination ?l?l?l) # http://hashcat.net/wiki/doku.php?id=maskprocessor * Actions & Conditions Use the -x option to do specific actions upon receiving specific responses. For example: Ignore responses with status code 200 *AND* a size within a specific range. --------- ./module host=10.0.0.1 user=FILE0 -x ignore:code=200,size=57-74 Ignore responses with status code 500 *OR* containing "Internal error". --------- ./module host=10.0.0.1 user=FILE0 -x ignore:code=500 -x ignore:fgrep='Internal error' Remember that conditions are ANDed within the same -x option, use multiple -x options to specify ORed conditions. * Actions skip and free Stop testing the same value from keyword #0 after a valid combination is found. --------- ./module data=FILE0.FILE1 -x skip=0:fgrep=Success Stop testing the same combination after a valid match is found. --------- ./module data=FILE0.FILE1 data2=RANGE2 -x free=data:fgrep=Success * Failures During execution, failures may happen, such as a TCP connect timeout for example. By definition a failure is an exception that the module does not expect, and as a result the exception is caught upstream by the controller. Such exceptions, or failures, are not immediately reported to the user, the controller will retry 4 more times (see --max-retries) before reporting the failed payload to the user with the logging level "FAIL". * Read carefully the following examples to get a good understanding of how patator works. {{{ FTP * Brute-force authentication. Do not report wrong passwords. --------- $ ftp_login host=10.0.0.1 user=FILE0 password=FILE1 0=logins.txt 1=passwords.txt -x ignore:mesg='Login incorrect.' NB0. If you get errors like "500 OOPS: priv_sock_get_cmd", use -x ignore,reset,retry:code=500 in order to retry the last login/password using a new TCP connection. Odd servers like vsftpd return this when they shut down the TCP connection (ie. max login attempts reached). NB1. If you get errors like "too many connections from your IP address", try decreasing the number of threads, the server may be enforcing a maximum number of concurrent connections. * Same as before, but stop testing a user after his password is found. --------- $ ftp_login ... -x free=user:code=0 * Find anonymous FTP servers on a subnet. --------- $ ftp_login host=NET0 user=anonymous password=test@example.com 0=10.0.0.0/24 }}} {{{ SSH * Brute-force authentication with password same as login (aka single mode). Do not report wrong passwords. --------- $ ssh_login host=10.0.0.1 user=FILE0 password=FILE0 0=logins.txt -x ignore:mesg='Authentication failed.' NB. If you get errors like "Error reading SSH protocol banner ... Connection reset by peer", try decreasing the number of threads, the server may be enforcing a maximum number of concurrent connections (eg. MaxStartups in OpenSSH). * Brute-force several hosts and stop testing a host after a valid password is found. --------- $ ssh_login host=FILE0 user=FILE1 password=FILE2 0=hosts.txt 1=logins.txt 2=passwords.txt -x free=host:code=0 * Same as previous, but stop testing a user on a host after his password is found. --------- $ ssh_login host=FILE0 user=FILE1 password=FILE2 0=hosts.txt 1=logins.txt 2=passwords.txt -x free=host+user:code=0 }}} {{{ Telnet * Brute-force authentication. (a) Enter login after first prompt is detected, enter password after second prompt. (b) The regex to detect the login and password prompts. (c) Reconnect when we get no login prompt back (max number of tries reached or successful login). ------------ (a) $ telnet_login host=10.0.0.1 inputs='FILE0\nFILE1' 0=logins.txt 1=passwords.txt \ prompt_re='tux login:|Password:' -x reset:egrep!='Login incorrect.+tux login:' (b) (c) NB. If you get errors like "telnet connection closed", try decreasing the number of threads, the server may be enforcing a maximum number of concurrent connections. }}} {{{ SMTP * Enumerate valid users using the VRFY command. (a) Do not report invalid recipients. (b) Do not report when the server shuts us down with "421 too many errors", reconnect and resume testing. --------- (a) $ smtp_vrfy host=10.0.0.1 user=FILE0 0=logins.txt -x ignore:fgrep='User unknown in local recipient table' \ -x ignore,reset,retry:code=421 (b) * Use the RCPT TO command in case the VRFY command is not available. --------- $ smtp_rcpt host=10.0.0.1 user=FILE0@localhost 0=logins.txt helo='ehlo mx.fb.com' mail_from=root * Brute-force authentication. (a) Send a fake hostname (by default your host fqdn is sent) --------- (a) $ smtp_login host=10.0.0.1 helo='ehlo its.me.com' user=FILE0@dom.com password=FILE1 0=logins.txt 1=passwords.txt }}} {{{ HTTP * Find hidden web resources. (a) Use a specific header. (b) Follow redirects. (c) Do not report 404 errors. (d) Retry on 500 errors. --------- (a) $ http_fuzz url=http://localhost/FILE0 0=words.txt header='Cookie: SESSID=A2FD8B2DA4' \ follow=1 -x ignore:code=404 -x ignore,retry:code=500 (b) (c) (d) NB. You may be able to go 10 times faster using webef (http://www.hsc.fr/ressources/outils/webef/). It is the fastest HTTP brute-forcer I know, yet at the moment it still lacks useful features that will prevent you from performing the following attacks. * Brute-force phpMyAdmin logon. (a) Use POST requests. (b) Follow redirects using cookies sent by server. (c) Ignore failed authentications. --------- (a) (b) (b) $ http_fuzz url=http://10.0.0.1/phpmyadmin/index.php method=POST follow=1 accept_cookie=1 \ body='pma_username=root&pma_password=FILE0&server=1&lang=en' 0=passwords.txt \ -x ignore:fgrep='Cannot log in to the MySQL server' (c) * Scan subnet for directory listings. (a) Ignore not matching responses. (b) Save matching responses into directory. --------- $ http_fuzz url=http://NET0/FILE1 0=10.0.0.0/24 1=dirs.txt -x ignore:fgrep!='Index of' \ -l /tmp/directory-listings (a) (b) * Brute-force Basic authentication. (a) Single mode (login == password). (b) Do not report failed login attempts. --------- $ http_fuzz url=http://10.0.0.1/manager/html user_pass=FILE0:FILE0 0=logins.txt -x ignore:code=401 (a) (b) * Find hidden virtual hosts. (a) Read template from file. (b) Fuzz both the Host and User-Agent headers. (c) Stop testing a virtual host name after a valid one is found. --------- $ echo -e 'Host: FILE0\nUser-Agent: FILE1' > headers.txt $ http_fuzz url=http://10.0.0.1/ header=@headers.txt 0=vhosts.txt 1=agents.txt -x skip=0:code!=404 (a) (b) (c) * Brute-force logon using GET requests. (a) Encode everything surrounded by the two tags _@@_ in hexadecimal. (b) Ignore HTTP 200 responses with a content size (header+body) within given range and that also contain the given string. (c) Use a different delimiter string because the comma cannot be escaped. --------- (a) $ http_fuzz url='http://10.0.0.1/login?username=admin&password=_@@_FILE0_@@_' -e _@@_:hex \ 0=words.txt -x ignore:'code=200|size=1500-|fgrep=Welcome, unauthenticated user' -X '|' (b) (c) * Brute-force logon that enforces two random nonces to be submitted along every POST. (a) First, request the page that provides the nonces as hidden input fields. (b) Use regular expressions to extract the nonces that are to be submitted along the main request. --------- $ http_fuzz url=http://10.0.0.1/login method=POST body='user=admin&pass=FILE0&nonce1=_N1_&nonce2=_N2_' 0=passwords.txt accept_cookie=1 \ before_urls=http://10.0.0.1/index before_egrep='_N1_: ''' + '\n'.join(' <{0}>%({1})s'.format(name.replace(':', '_'), name) for name, _ in indicatorsfmt) + ''' %(candidate)s %(num)s %(mesg)s ''' super(XMLFormatter, self).__init__(fmt=fmt, datefmt='%H:%M:%S') def format(self, record): pp = {} for k, v in record.__dict__.items(): if isinstance(v, str): pp[k] = xmlescape(v) else: pp[k] = v return super(XMLFormatter, self).format(logging.makeLogRecord(pp)) class MsgFilter(logging.Filter): def filter(self, record): if record.msg: return 0 else: return 1 def process_logs(queue, indicatorsfmt, argv, log_dir, runtime_file, csv_file, xml_file, hits_file): ignore_ctrlc() if PY3: logging._levelToName[logging.ERROR] = 'FAIL' encoding = 'latin1' else: logging._levelNames[logging.ERROR] = 'FAIL' encoding = None handler_out = logging.StreamHandler() handler_out.setFormatter(TXTFormatter(indicatorsfmt)) logger = logging.getLogger('patator') logger.setLevel(logging.DEBUG) logger.addHandler(handler_out) names = [name for name, _ in indicatorsfmt] + ['candidate', 'num', 'mesg'] if runtime_file or log_dir: runtime_log = os.path.join(log_dir or '', runtime_file or 'RUNTIME.log') with open(runtime_log, 'a') as f: f.write('$ %s\n' % ' '.join(argv)) handler_log = logging.FileHandler(runtime_log, encoding=encoding) handler_log.setFormatter(TXTFormatter(indicatorsfmt)) logger.addHandler(handler_log) if csv_file or log_dir: results_csv = os.path.join(log_dir or '', csv_file or 'RESULTS.csv') if not os.path.exists(results_csv): with open(results_csv, 'w') as f: f.write('time,level,%s\n' % ','.join(names)) handler_csv = logging.FileHandler(results_csv, encoding=encoding) handler_csv.addFilter(MsgFilter()) handler_csv.setFormatter(CSVFormatter(indicatorsfmt)) logger.addHandler(handler_csv) if xml_file or log_dir: results_xml = os.path.join(log_dir or '', xml_file or 'RESULTS.xml') if not os.path.exists(results_xml): with open(results_xml, 'w') as f: f.write('\n\n') f.write('\n' % (xmlquoteattr(strfutctime()), xmlquoteattr(strflocaltime()))) f.write('%s\n' % xmlescape(' '.join(argv))) f.write('%s\n' % xmlescape(argv[0])) f.write('\n') i = 0 del argv[0] while i < len(argv): arg = argv[i] if arg[0] == '-': if arg in ('-d', '--debug', '--allow-ignore-failures', '-y'): f.write(' \n' % (xmlquoteattr(name), xmlescape(value))) else: name, value = arg.split('=', 1) f.write(' \n' % (xmlquoteattr(name), xmlescape(value))) i += 1 f.write('\n') f.write('\n') else: # remove "..." with open(results_xml, 'r+b') as f: offset = f.read().find(b'') if offset != -1: f.seek(offset) f.truncate(f.tell()) handler_xml = logging.FileHandler(results_xml, encoding=encoding) handler_xml.addFilter(MsgFilter()) handler_xml.setFormatter(XMLFormatter(indicatorsfmt)) logger.addHandler(handler_xml) if hits_file: if os.path.exists(hits_file): os.rename(hits_file, hits_file + '.' + strftime("%Y%m%d%H%M%S", localtime())) while True: pname, action, args = queue.get() if action == 'quit': if xml_file or log_dir: with open(results_xml, 'a') as f: f.write('\n\n\n' % (xmlquoteattr(strfutctime()), xmlquoteattr(strflocaltime()))) break elif action == 'headers': logger.info(' '*77) logger.info('headers', extra=dict((n, n) for n in names)) logger.info('-'*77) elif action == 'result': typ, resp, candidate, num = args results = [(name, value) for (name, _), value in zip(indicatorsfmt, resp.indicators())] results += [('candidate', candidate), ('num', num), ('mesg', str(resp)), ('target', resp.str_target())] if typ == 'fail': logger.error(None, extra=dict(results)) else: logger.info(None, extra=dict(results)) elif action == 'save_response': resp, num = args if log_dir: filename = '%d_%s' % (num, '-'.join(map(str, resp.indicators()))) with open('%s.txt' % os.path.join(log_dir, filename), 'wb') as f: f.write(resp.dump()) elif action == 'save_hit': if hits_file: with open(hits_file, 'ab') as f: f.write(b(args[0] +'\n')) elif action == 'setLevel': logger.setLevel(args[0]) else: # 'warn', 'info', 'debug' getattr(logger, action)(args[0], extra={'pname': pname}) # }}} # imports {{{ import re import os import sys from time import localtime, gmtime, strftime, sleep, time from platform import system from functools import reduce from operator import mul, itemgetter from select import select from itertools import islice, cycle import string import random from decimal import Decimal from base64 import b64encode from datetime import timedelta, datetime import socket import subprocess import hashlib from collections import defaultdict import multiprocessing import signal import ctypes import glob from xml.sax.saxutils import escape as xmlescape, quoteattr as xmlquoteattr from ssl import wrap_socket from binascii import hexlify, unhexlify PY3 = sys.version_info >= (3,) if PY3: from queue import Empty, Full from urllib.parse import quote, urlencode, urlparse, urlunparse, quote_plus, unquote from io import StringIO from sys import maxsize as maxint else: from Queue import Empty, Full from urllib import quote, urlencode, quote_plus, unquote from urlparse import urlparse, urlunparse from cStringIO import StringIO from sys import maxint if PY3: # http://python3porting.com/problems.html def b(x): if isinstance(x, bytes): return x else: return x.encode('ISO-8859-1', errors='ignore') def B(x): if isinstance(x, str): return x else: return x.decode('ISO-8859-1', errors='ignore') else: def b(x): return x def B(x): return x try: input = raw_input except NameError: pass notfound = [] try: from IPy import IP has_ipy = True except ImportError: has_ipy = False notfound.append('IPy') try: # Python 3.4+ if sys.platform.startswith('win'): import multiprocessing.popen_spawn_win32 as forking else: import multiprocessing.popen_fork as forking except ImportError: import multiprocessing.forking as forking if sys.platform.startswith('win'): # First define a modified version of Popen. class _Popen(forking.Popen): def __init__(self, *args, **kw): if hasattr(sys, 'frozen'): # We have to set original _MEIPASS2 value from sys._MEIPASS # to get --onefile mode working. os.putenv('_MEIPASS2', sys._MEIPASS) try: super(_Popen, self).__init__(*args, **kw) finally: if hasattr(sys, 'frozen'): # On some platforms (e.g. AIX) 'os.unsetenv()' is not # available. In those cases we cannot delete the variable # but only set it to the empty string. The bootloader # can handle this case. if hasattr(os, 'unsetenv'): os.unsetenv('_MEIPASS2') else: os.putenv('_MEIPASS2', '') # Second override 'Popen' class with our modified version. forking.Popen = _Popen from multiprocessing.managers import SyncManager # }}} # utils {{{ def expand_path(s): return os.path.expandvars(os.path.expanduser(s)) def strfutctime(): return strftime("%Y-%m-%d %H:%M:%S", gmtime()) def strflocaltime(): return strftime("%Y-%m-%d %H:%M:%S %Z", localtime()) def which(program): def is_exe(fpath): return os.path.exists(fpath) and os.access(fpath, os.X_OK) fpath, fname = os.path.split(program) if on_windows() and fname[-4:] != '.exe': fname += '.exe' if fpath: if is_exe(program): return program else: for path in os.environ["PATH"].split(os.pathsep): exe_file = os.path.join(path, fname) if is_exe(exe_file): return exe_file return None def build_logdir(opt_dir, opt_auto, assume_yes): if opt_auto: return create_time_dir(opt_dir or '/tmp/patator', opt_auto) elif opt_dir: return create_dir(opt_dir, assume_yes) else: return None def create_dir(top_path, assume_yes): top_path = os.path.abspath(top_path) if os.path.isdir(top_path): files = os.listdir(top_path) if files: if assume_yes or input("Directory '%s' is not empty, do you want to wipe it ? [Y/n]: " % top_path) != 'n': for root, dirs, files in os.walk(top_path): if dirs: print("Directory '%s' contains sub-directories, safely aborting..." % root) sys.exit(0) for f in files: os.unlink(os.path.join(root, f)) break else: os.mkdir(top_path) return top_path def create_time_dir(top_path, desc): now = localtime() date, time = strftime('%Y-%m-%d', now), strftime('%H%M%S', now) top_path = os.path.abspath(top_path) date_path = os.path.join(top_path, date) time_path = os.path.join(top_path, date, time + '_' + desc) if not os.path.isdir(top_path): os.makedirs(top_path) if not os.path.isdir(date_path): os.mkdir(date_path) if not os.path.isdir(time_path): os.mkdir(time_path) return time_path def pprint_seconds(seconds, fmt): return fmt % reduce(lambda x, y: divmod(x[0], y) + x[1:], [(seconds,), 60, 60]) def repr23(s): if all(True if 0x20 <= ord(c) < 0x7f else False for c in s): return s if PY3: return repr(s.encode('latin1'))[1:] else: return repr(s) def md5hex(plain): return hashlib.md5(plain).hexdigest() def sha1hex(plain): return hashlib.sha1(plain).hexdigest() def html_unescape(s): if PY3: import html return html.unescape(s) else: from HTMLParser import HTMLParser h = HTMLParser() return h.unescape(s) def count_lines(filename): with open(filename, 'rb') as f: lines = 0 buf_size = 1024 * 1024 read_f = f.read buf = read_f(buf_size) while buf: lines += buf.count(b'\n') buf = read_f(buf_size) return lines # I rewrote itertools.product to avoid memory over-consumption when using large wordlists def product(xs, *rest): if len(rest) == 0: for x in xs: yield [x] else: for head in xs: for tail in product(*rest): yield [head] + tail class chain: def __init__(self, *iterables): self.iterables = iterables def __iter__(self): for iterable in self.iterables: for element in iterable: yield element class FileIter: def __init__(self, filename): self.filename = filename def __iter__(self): return open(self.filename, 'rb') def padhex(d): x = '%x' % d return '0' * (len(x) % 2) + x # These are examples. You can easily write your own iterator to fit your needs. # Or using the PROG keyword, you can call an external program such as: # - seq(1) from coreutils # - http://hashcat.net/wiki/doku.php?id=maskprocessor # - john -stdout -i # For example: # $ ./dummy_test data=PROG0 0='seq 1 80' # $ ./dummy_test data=PROG0 0='mp64.bin ?l?l?l',$(mp64.bin --combination ?l?l?l) class RangeIter: def __init__(self, typ, rng, random=None): if typ not in ['hex', 'int', 'float', 'letters', 'lower', 'lowercase', 'upper', 'uppercase']: raise ValueError('Incorrect range type %r' % typ) if typ in ('hex', 'int', 'float'): m = re.match('(-?[^-]+)-(-?[^-]+)$', rng) # 5-50 or -5-50 or 5--50 or -5--50 if not m: raise ValueError('Unsupported range %r' % rng) mn = m.group(1) mx = m.group(2) if typ in ('hex', 'int'): mn = int(mn, 16 if '0x' in mn else 10) mx = int(mx, 16 if '0x' in mx else 10) if typ == 'hex': fmt = padhex elif typ == 'int': fmt = '%d' elif typ == 'float': mn = Decimal(mn) mx = Decimal(mx) if mn > mx: step = -1 else: step = 1 elif typ == 'letters': charset = [c for c in string.ascii_letters] elif typ in ('lower', 'lowercase'): charset = [c for c in string.ascii_lowercase] elif typ in ('upper', 'uppercase'): charset = [c for c in string.ascii_uppercase] def zrange(start, stop, step, fmt): x = start while x != stop+step: if callable(fmt): yield fmt(x) else: yield fmt % x x += step def letterrange(first, last, charset): for k in range(len(last)): for x in product(*[chain(charset)]*(k+1)): result = ''.join(x) if first: if first != result: continue else: first = None yield result if result == last: return if typ == 'float': precision = max(len(str(x).partition('.')[-1]) for x in (mn, mx)) fmt = '%%.%df' % precision exp = 10**precision step *= Decimal(1) / exp self.generator = zrange, (mn, mx, step, fmt) self.size = int(abs(mx-mn) * exp) + 1 def random_generator(): while True: yield fmt % (Decimal(random.randint(mn*exp, mx*exp)) / exp) elif typ in ('hex', 'int'): self.generator = zrange, (mn, mx, step, fmt) self.size = abs(mx-mn) + 1 def random_generator(): while True: yield fmt % random.randint(mn, mx) else: # letters, lower, upper def count(f): total = 0 i = 0 for c in f[::-1]: z = charset.index(c) + 1 total += (len(charset)**i)*z i += 1 return total + 1 first, last = rng.split('-') self.generator = letterrange, (first, last, charset) self.size = count(last) - count(first) + 1 if random: self.generator = random_generator, () self.size = maxint def __iter__(self): fn, args = self.generator return fn(*args) def __len__(self): return self.size class ProgIter: def __init__(self, prog): self.prog = prog def __iter__(self): p = subprocess.Popen(self.prog.split(' '), stdout=subprocess.PIPE, stderr=subprocess.PIPE) return p.stdout class Progress: def __init__(self): self.current = '' self.done_count = 0 self.hits_count = 0 self.skip_count = 0 self.fail_count = 0 self.seconds = [1]*25 # avoid division by zero early bug condition class TimeoutError(Exception): pass def on_windows(): return 'Win' in system() def ignore_ctrlc(): if on_windows(): ctypes.windll.kernel32.SetConsoleCtrlHandler(0, 1) else: signal.signal(signal.SIGINT, signal.SIG_IGN) def handle_alarm(): if not on_windows(): signal.signal(signal.SIGALRM, raise_timeout) def raise_timeout(signum, frame): if signum == signal.SIGALRM: raise TimeoutError('timed out') def enable_alarm(timeout): if not on_windows(): signal.alarm(timeout) def disable_alarm(): if not on_windows(): signal.alarm(0) # SyncManager.start(initializer) only available since python2.7 class MyManager(SyncManager): @classmethod def _run_server(cls, registry, address, authkey, serializer, writer, initializer=None, initargs=()): ignore_ctrlc() super(MyManager, cls)._run_server(registry, address, authkey, serializer, writer) def ppstr(s): if isinstance(s, bytes): s = B(s) if not isinstance(s, str): s = str(s) return s.rstrip('\r\n') def flatten(l): r = [] for x in l: if isinstance(x, (list, tuple)): r.extend(map(ppstr, x)) else: r.append(ppstr(x)) return r def parse_query(qs, keep_blank_values=False, encoding='utf-8', errors='replace'): '''Same as urllib.parse.parse_qsl but without replacing '+' with ' ' ''' pairs = [s2 for s1 in qs.split('&') for s2 in s1.split(';')] r = [] for name_value in pairs: if not name_value: continue nv = name_value.split('=', 1) if len(nv) != 2: if keep_blank_values: nv.append('') else: continue if len(nv[1]) or keep_blank_values: name = unquote(nv[0], encoding=encoding, errors=errors) value = unquote(nv[1], encoding=encoding, errors=errors) r.append((name, value)) return r # }}} # Controller {{{ class Controller: builtin_actions = ( ('ignore', 'do not report'), ('retry', 'try payload again'), ('skip', 'stop testing the same keyword value'), ('free', 'stop testing the same option value'), ('quit', 'terminate execution now'), ) available_encodings = { 'hex': (lambda s: B(hexlify(s)), 'encode in hexadecimal'), 'unhex': (lambda s: B(unhexlify(s)), 'decode from hexadecimal'), 'b64': (lambda s: B(b64encode(b(s))), 'encode in base64'), 'md5': (md5hex, 'hash in md5'), 'sha1': (sha1hex, 'hash in sha1'), 'url': (quote_plus, 'url encode'), } def expand_key(self, arg): yield arg.split('=', 1) def find_file_keys(self, value): return map(int, re.findall(r'FILE(\d)', value)) def find_net_keys(self, value): return map(int, re.findall(r'NET(\d)', value)) def find_combo_keys(self, value): return [map(int, t) for t in re.findall(r'COMBO(\d)(\d)', value)] def find_module_keys(self, value): return map(int, re.findall(r'MOD(\d)', value)) def find_range_keys(self, value): return map(int, re.findall(r'RANGE(\d)', value)) def find_prog_keys(self, value): return map(int, re.findall(r'PROG(\d)', value)) def usage_parser(self, name): from optparse import OptionParser from optparse import OptionGroup from optparse import IndentedHelpFormatter class MyHelpFormatter(IndentedHelpFormatter): def format_epilog(self, epilog): return epilog def format_heading(self, heading): if self.current_indent == 0 and heading == 'Options': heading = 'Global options' return "%*s%s:\n" % (self.current_indent, "", heading) def format_usage(self, usage): return '%s\nUsage: %s\n' % (__banner__, usage) available_actions = self.builtin_actions + self.module.available_actions available_conditions = self.module.Response.available_conditions usage = '''%%prog [global-options ...] Examples: %s''' % '\n '.join(self.module.usage_hints) usage += ''' Module options: %s ''' % ('\n'.join(' %-14s: %s' % (k, v) for k, v in self.module.available_options)) epilog = ''' Syntax: -x actions:conditions actions := action[,action]* action := "%s" conditions := condition=value[,condition=value]* condition := "%s" ''' % ('" | "'.join(k for k, v in available_actions), '" | "'.join(k for k, v in available_conditions)) epilog += ''' %s %s ''' % ('\n'.join(' %-12s: %s' % (k, v) for k, v in available_actions), '\n'.join(' %-12s: %s' % (k, v) for k, v in available_conditions)) epilog += ''' For example, to ignore all redirects to the home page: ... -x ignore:code=302,fgrep='Location: /home.html' -e tag:encoding tag := any unique string (eg. T@G or _@@_ or ...) encoding := "%s" %s''' % ('" | "'.join(k for k in self.available_encodings), '\n'.join(' %-12s: %s' % (k, v) for k, (f, v) in self.available_encodings.items())) epilog += ''' For example, to encode every password in base64: ... host=10.0.0.1 user=admin password=_@@_FILE0_@@_ -e _@@_:b64 Please read the README inside for more examples and usage information. ''' parser = OptionParser(usage=usage, prog=name, epilog=epilog, version=__banner__, formatter=MyHelpFormatter()) exe_grp = OptionGroup(parser, 'Execution') exe_grp.add_option('-x', dest='actions', action='append', default=[], metavar='arg', help='actions and conditions, see Syntax below') exe_grp.add_option('--start', dest='start', type='int', default=0, metavar='N', help='start from offset N in the product of all payload sets') exe_grp.add_option('--stop', dest='stop', type='int', default=None, metavar='N', help='stop at offset N') exe_grp.add_option('--resume', dest='resume', metavar='r1[,rN]*', help='resume previous run') exe_grp.add_option('-e', dest='encodings', action='append', default=[], metavar='arg', help='encode everything between two tags, see Syntax below') exe_grp.add_option('-C', dest='combo_delim', default=':', metavar='str', help="delimiter string in combo files (default is ':')") exe_grp.add_option('-X', dest='condition_delim', default=',', metavar='str', help="delimiter string in conditions (default is ',')") exe_grp.add_option('--allow-ignore-failures', dest='allow_ignore_failures', action='store_true', help="failures cannot be ignored with -x (this is by design to avoid false negatives) this option overrides this safeguard") exe_grp.add_option('-y', dest='assume_yes', action='store_true', help="automatically answer yes for all questions") opt_grp = OptionGroup(parser, 'Optimization') opt_grp.add_option('--rate-limit', dest='rate_limit', type='float', default=0, metavar='N', help='wait N seconds between each attempt (default is 0)') opt_grp.add_option('--timeout', dest='timeout', type='int', default=0, metavar='N', help='wait N seconds for a response before retrying payload (default is 0)') opt_grp.add_option('--max-retries', dest='max_retries', type='int', default=4, metavar='N', help='skip payload after N retries (default is 4) (-1 for unlimited)') opt_grp.add_option('-t', '--threads', dest='num_threads', type='int', default=10, metavar='N', help='number of threads (default is 10)') opt_grp.add_option('--groups', dest='groups', default='', metavar='', help="default is to iterate over the cartesian product of all payload sets, use this option to iterate over sets simultaneously instead (aka pitchfork), see syntax inside (default is '0,1..n')") log_grp = OptionGroup(parser, 'Logging') log_grp.add_option('-l', dest='log_dir', metavar='DIR', help="save output and response data into DIR ") log_grp.add_option('-L', dest='auto_log', metavar='SFX', help="automatically save into DIR/yyyy-mm-dd/hh:mm:ss_SFX (DIR defaults to '/tmp/patator')") log_grp.add_option('-R', dest='runtime_file', metavar='FILE', help="save output to FILE") log_grp.add_option('--csv', dest='csv_file', metavar='FILE', help="save CSV results to FILE") log_grp.add_option('--xml', dest='xml_file', metavar='FILE', help="save XML results to FILE") log_grp.add_option('--hits', dest='hits_file', metavar='FILE', help="save found candidates to FILE") dbg_grp = OptionGroup(parser, 'Debugging') dbg_grp.add_option('-d', '--debug', dest='debug', action='store_true', help='enable debug messages') dbg_grp.add_option('--auto-progress', dest='auto_progress', type='int', default=0, metavar='N', help='automatically display progress every N seconds') parser.option_groups.extend([exe_grp, opt_grp, log_grp, dbg_grp]) return parser def parse_usage(self, argv): parser = self.usage_parser(argv[0]) opts, args = parser.parse_args(argv[1:]) if not len(args) > 0: parser.print_usage() print('ERROR: wrong usage. Please read the README inside for more information.') sys.exit(2) return opts, args def __init__(self, module, argv): self.thread_report = [] self.thread_progress = [] self.payload = {} self.iter_keys = {} self.iter_groups = {} self.enc_keys = [] self.module = module opts, args = self.parse_usage(argv) self.combo_delim = opts.combo_delim self.condition_delim = opts.condition_delim self.rate_limit = opts.rate_limit self.timeout = opts.timeout self.max_retries = opts.max_retries self.num_threads = opts.num_threads self.start, self.stop = opts.start, opts.stop self.allow_ignore_failures = opts.allow_ignore_failures self.auto_progress = opts.auto_progress self.auto_progress_next = None self.resume = [int(i) for i in opts.resume.split(',')] if opts.resume else None manager = MyManager() manager.start() self.ns = manager.Namespace() self.ns.actions = {} self.ns.free_list = [] self.ns.skip_list = [] self.ns.paused = False self.ns.quit_now = False self.ns.start_time = 0 self.ns.total_size = 1 log_queue = multiprocessing.Queue() logsvc = multiprocessing.Process(name='LogSvc', target=process_logs, args=(log_queue, module.Response.indicatorsfmt, argv, build_logdir(opts.log_dir, opts.auto_log, opts.assume_yes), opts.runtime_file, opts.csv_file, opts.xml_file, opts.hits_file)) logsvc.daemon = True logsvc.start() global logger logger = Logger(log_queue) if opts.debug: logger.setLevel(logging.DEBUG) else: logger.setLevel(logging.INFO) wlists = {} kargs = [] for arg in args: # ('host=NET0', '0=10.0.0.0/24', 'user=COMBO10', 'password=COMBO11', '1=combos.txt', 'name=google.MOD2', '2=TLD') logger.debug('arg: %r' % arg) for k, v in self.expand_key(arg): logger.debug('k: %s, v: %s' % (k, v)) if k.isdigit(): wlists[k] = v else: if v.startswith('@'): p = expand_path(v[1:]) with open(p, 'rb') as f: v = B(f.read()) kargs.append((k, v)) iter_vals = [v for k, v in sorted(wlists.items())] logger.debug('kargs: %s' % kargs) # [('host', 'NET0'), ('user', 'COMBO10'), ('password', 'COMBO11'), ('name', 'google.MOD2')] logger.debug('iter_vals: %s' % iter_vals) # ['10.0.0.0/24', 'combos.txt', 'TLD'] for k, v in kargs: for e in opts.encodings: meta, enc = e.split(':') if re.search(r'{0}.+?{0}'.format(meta), v): self.enc_keys.append((k, meta, self.available_encodings[enc][0])) for i in self.find_file_keys(v): if i not in self.iter_keys: self.iter_keys[i] = ('FILE', iter_vals[i], []) self.iter_keys[i][2].append(k) else: for i in self.find_net_keys(v): if i not in self.iter_keys: self.iter_keys[i] = ('NET', iter_vals[i], []) self.iter_keys[i][2].append(k) if not has_ipy: print('IPy (https://github.com/haypo/python-ipy) is required for using NET keyword.') print('Please read the README inside for more information.') sys.exit(3) else: for i, j in self.find_combo_keys(v): if i not in self.iter_keys: self.iter_keys[i] = ('COMBO', iter_vals[i], []) self.iter_keys[i][2].append((j, k)) else: for i in self.find_module_keys(v): if i not in self.iter_keys: self.iter_keys[i] = ('MOD', iter_vals[i], []) self.iter_keys[i][2].append(k) else: for i in self.find_range_keys(v): if i not in self.iter_keys: self.iter_keys[i] = ('RANGE', iter_vals[i], []) self.iter_keys[i][2].append(k) else: for i in self.find_prog_keys(v): if i not in self.iter_keys: self.iter_keys[i] = ('PROG', iter_vals[i], []) self.iter_keys[i][2].append(k) else: self.payload[k] = v if self.iter_keys: if not opts.groups: # default is to iterate over the cartesian product of all payload sets opts.groups = ','.join(map(str, self.iter_keys)) for i, g in enumerate(opts.groups.split(':')): ks = list(map(int, g.split(','))) for k in ks: if k not in self.iter_keys: raise ValueError('Unknown keyword number %r' % k) self.iter_groups[i] = sorted(ks) logger.debug('iter_groups: %s' % self.iter_groups) # {0: [0, 1], 1: [2]} logger.debug('iter_keys: %s' % self.iter_keys) # [(0, ('NET', '10.0.0.0/24', ['host'])), (1, ('COMBO', 'combos.txt', [(0, 'user'), (1, 'password')])), (2, ('MOD', 'TLD', ['name']))] logger.debug('enc_keys: %s' % self.enc_keys) # [('password', 'ENC', hex), ('header', 'B64', b64encode), ... logger.debug('payload: %s' % self.payload) # {'host': 'NET0', 'user': 'COMBO10', 'password': 'COMBO11', 'name': 'google.MOD2'} self.iter_groups = sorted(self.iter_groups.items()) self.iter_keys = sorted(self.iter_keys.items()) self.available_actions = [k for k, _ in self.builtin_actions + self.module.available_actions] self.module_actions = [k for k, _ in self.module.available_actions] for x in opts.actions: self.update_actions(x) logger.debug('actions: %s' % self.ns.actions) def update_actions(self, arg): ns_actions = self.ns.actions actions, conditions = arg.split(':', 1) for action in actions.split(','): conds = [c.split('=', 1) for c in conditions.split(self.condition_delim)] if '=' in action: name, opts = action.split('=') else: name, opts = action, None if name not in self.available_actions: raise ValueError('Unsupported action %r' % name) if name not in ns_actions: ns_actions[name] = [] ns_actions[name].append((conds, opts)) self.ns.actions = ns_actions def lookup_actions(self, resp): actions = {} for action, conditions in self.ns.actions.items(): for condition, opts in conditions: for key, val in condition: if key[-1] == '!': if resp.match(key[:-1], val): break else: if not resp.match(key, val): break else: actions[action] = opts return actions def should_free(self, payload): # free_list: [[('host', '10.0.0.1')], [('user', 'anonymous')], [('host', '10.0.0.7'),('user','test')], ... for l in self.ns.free_list: for k, v in l: if payload[k] != v: break else: return True return False def register_free(self, payload, opts): self.ns.free_list += [[(k, payload[k]) for k in opts.split('+')]] logger.debug('free_list updated: %s' % self.ns.free_list) def should_skip(self, prod): # skip_list: [[(0, '10.0.0.1')], [(1, 'anonymous')], [(0, '10.0.0.7'), (1, 'test')], ... for l in self.ns.skip_list: for k, v in l: if prod[k] != v: break else: return True return False def register_skip(self, prod, opts): self.ns.skip_list += [[(k, prod[k]) for k in map(int, opts.split('+'))]] logger.debug('skip_list updated: %s' % self.ns.skip_list) def fire(self): logger.info('Starting %s at %s' % (__banner__, strftime('%Y-%m-%d %H:%M %Z', localtime()))) try: self.start_threads() self.monitor_progress() except KeyboardInterrupt: pass except: logging.exception(sys.exc_info()[1]) finally: self.ns.quit_now = True try: # waiting for reports enqueued by consumers to be flushed while True: active = multiprocessing.active_children() self.report_progress() if not len(active) > 2: # SyncManager and LogSvc break logger.debug('active: %s' % active) sleep(.1) except KeyboardInterrupt: pass if self.ns.total_size >= maxint: total_size = -1 else: total_size = self.ns.total_size total_time = time() - self.ns.start_time hits_count = sum(p.hits_count for p in self.thread_progress) done_count = sum(p.done_count for p in self.thread_progress) skip_count = sum(p.skip_count for p in self.thread_progress) fail_count = sum(p.fail_count for p in self.thread_progress) speed_avg = done_count / total_time self.show_final() logger.info('Hits/Done/Skip/Fail/Size: %d/%d/%d/%d/%d, Avg: %d r/s, Time: %s' % ( hits_count, done_count, skip_count, fail_count, total_size, speed_avg, pprint_seconds(total_time, '%dh %dm %ds'))) if done_count < total_size: resume = [] for i, p in enumerate(self.thread_progress): c = p.done_count + p.skip_count if self.resume: if i < len(self.resume): c += self.resume[i] resume.append(str(c)) logger.info('To resume execution, pass --resume %s' % ','.join(resume)) logger.quit() while len(multiprocessing.active_children()) > 1: sleep(.1) def push_final(self, resp): pass def show_final(self): pass def start_threads(self): task_queues = [multiprocessing.Queue(maxsize=10000) for _ in range(self.num_threads)] # consumers for num in range(self.num_threads): report_queue = multiprocessing.Queue(maxsize=1000) t = multiprocessing.Process(name='Consumer-%d' % num, target=self.consume, args=(task_queues[num], report_queue, logger.queue)) t.daemon = True t.start() self.thread_report.append(report_queue) self.thread_progress.append(Progress()) # producer t = multiprocessing.Process(name='Producer', target=self.produce, args=(task_queues, logger.queue)) t.daemon = True t.start() def produce(self, task_queues, log_queue): ignore_ctrlc() global logger logger = Logger(log_queue) def abort(msg): logger.warn(msg) self.ns.quit_now = True psets = {} for k, (t, v, _) in self.iter_keys: pset = [] size = 0 if t in ('FILE', 'COMBO'): for name in v.split(','): for fpath in sorted(glob.iglob(expand_path(name))): if not os.path.isfile(fpath): return abort("No such file '%s'" % fpath) pset.append(FileIter(fpath)) size += count_lines(fpath) elif t == 'NET': pset = [IP(n, make_net=True) for n in v.split(',')] size = sum(len(subnet) for subnet in pset) elif t == 'MOD': elements, size = self.module.available_keys[v]() pset = [elements] elif t == 'RANGE': for r in v.split(','): typ, opt = r.split(':', 1) try: ri = RangeIter(typ, opt) size += len(ri) pset.append(ri) except ValueError as e: return abort("Invalid range '%s' of type '%s', %s" % (opt, typ, e)) elif t == 'PROG': m = re.match(r'(.+),(\d+)$', v) if m: prog, size = m.groups() else: prog, size = v, maxint logger.debug('prog: %s, size: %s' % (prog, size)) pset = [ProgIter(prog)] size = int(size) else: return abort('Incorrect keyword %r' % t) psets[k] = chain(*pset), size logger.debug('payload sets: %r' % psets) zipit = [] if not psets: total_size = 1 zipit.append(['']) else: group_sizes = {} for i, ks in self.iter_groups: group_sizes[i] = reduce(mul, (size for _, size in [psets[k] for k in ks])) logger.debug('group_sizes: %s' % group_sizes) total_size = max(group_sizes.values()) biggest, _ = max(group_sizes.items(), key=itemgetter(1)) for i, ks in self.iter_groups: r = [] for k in ks: pset, _ = psets[k] r.append(pset) it = product(*r) if i != biggest: it = cycle(it) zipit.append(it) logger.debug('zipit: %s' % zipit) logger.debug('total_size: %d' % total_size) if self.stop and total_size > self.stop: total_size = self.stop - self.start else: total_size -= self.start if self.resume: total_size -= sum(self.resume) self.ns.total_size = total_size self.ns.start_time = time() logger.headers() count = 0 for pp in islice(zip(*zipit), self.start, self.stop): if self.ns.quit_now: break pp = flatten(pp) logger.debug('pp: %s' % pp) prod = [''] * len(pp) for _, ks in self.iter_groups: for k in ks: prod[k] = pp.pop(0) if self.resume: idx = count % len(self.resume) off = self.resume[idx] if count < off * len(self.resume): #logger.debug('Skipping %d %s, resume[%d]: %s' % (count, ':'.join(prod), idx, self.resume[idx])) count += 1 continue while True: if self.ns.quit_now: break try: cid = count % self.num_threads task_queues[cid].put_nowait(prod) break except Full: sleep(.1) count += 1 if not self.ns.quit_now: for q in task_queues: q.put(None) logger.debug('producer done') while True: if self.ns.quit_now: for q in task_queues: q.cancel_join_thread() break sleep(.5) logger.debug('producer exits') def consume(self, task_queue, report_queue, log_queue): ignore_ctrlc() handle_alarm() global logger logger = Logger(log_queue) module = self.module() def shutdown(): if hasattr(module, '__del__'): module.__del__() logger.debug('consumer done') while True: if self.ns.quit_now: return shutdown() try: prod = task_queue.get_nowait() except Empty: sleep(.1) continue if prod is None: return shutdown() payload = self.payload.copy() for i, (t, _, keys) in self.iter_keys: if t == 'FILE': for k in keys: payload[k] = payload[k].replace('FILE%d' % i, prod[i]) elif t == 'NET': for k in keys: payload[k] = payload[k].replace('NET%d' % i, prod[i]) elif t == 'COMBO': for j, k in keys: payload[k] = payload[k].replace('COMBO%d%d' % (i, j), prod[i].split(self.combo_delim, max(j for j, _ in keys))[j]) elif t == 'MOD': for k in keys: payload[k] = payload[k].replace('MOD%d' % i, prod[i]) elif t == 'RANGE': for k in keys: payload[k] = payload[k].replace('RANGE%d' % i, prod[i]) elif t == 'PROG': for k in keys: payload[k] = payload[k].replace('PROG%d' % i, prod[i]) for k, m, e in self.enc_keys: payload[k] = re.sub(r'{0}(.+?){0}'.format(m), lambda m: e(b(m.group(1))), payload[k]) logger.debug('product: %s' % prod) prod_str = ':'.join(prod) if self.should_free(payload): logger.debug('skipping') report_queue.put(('skip', prod_str, None, 0)) continue if self.should_skip(prod): logger.debug('skipping') report_queue.put(('skip', prod_str, None, 0)) continue try_count = 0 start_time = time() while True: while self.ns.paused and not self.ns.quit_now: sleep(1) if self.ns.quit_now: return shutdown() if self.rate_limit > 0: sleep(self.rate_limit) if try_count <= self.max_retries or self.max_retries < 0: actions = {} try_count += 1 logger.debug('payload: %s [try %d/%d]' % (payload, try_count, self.max_retries+1)) try: enable_alarm(self.timeout) resp = module.execute(**payload) disable_alarm() except: disable_alarm() mesg = '%s %s' % sys.exc_info()[:2] logger.debug('caught: %s' % mesg) #logging.exception(sys.exc_info()[1]) resp = self.module.Response('xxx', mesg, timing=time()-start_time) if hasattr(module, 'reset'): module.reset() sleep(try_count * .1) continue else: actions = {'fail': None} actions.update(self.lookup_actions(resp)) report_queue.put((actions, prod_str, resp, time() - start_time)) for name in self.module_actions: if name in actions: getattr(module, name)(**payload) if 'free' in actions: self.register_free(payload, actions['free']) break if 'skip' in actions: self.register_skip(prod, actions['skip']) break if 'fail' in actions: break if 'quit' in actions: return shutdown() if 'retry' in actions: continue break def monitor_progress(self): # loop until SyncManager, LogSvc and Producer are the only children left alive while len(multiprocessing.active_children()) > 3 and not self.ns.quit_now: self.report_progress() self.monitor_interaction() def report_progress(self): for i, pq in enumerate(self.thread_report): p = self.thread_progress[i] while True: try: actions, current, resp, seconds = pq.get_nowait() #logger.info('actions reported: %s' % '+'.join(actions)) except Empty: break if actions == 'skip': p.skip_count += 1 continue if self.resume: offset = p.done_count + self.resume[i] else: offset = p.done_count offset = (offset * self.num_threads) + i + 1 + self.start p.current = current p.seconds[p.done_count % len(p.seconds)] = seconds if 'quit' in actions: self.ns.quit_now = True if 'fail' in actions: if not self.allow_ignore_failures or 'ignore' not in actions: logger.result('fail', resp, current, offset) elif 'ignore' not in actions: logger.result('hit', resp, current, offset) if 'fail' in actions: p.fail_count += 1 elif 'retry' in actions: continue elif 'ignore' not in actions: p.hits_count += 1 logger.save_response(resp, offset) logger.save_hit(current) self.push_final(resp) p.done_count += 1 def monitor_interaction(self): def read_command(): if on_windows(): import msvcrt if not msvcrt.kbhit(): sleep(.1) return None command = msvcrt.getche() if command == 'x': command += input() else: i, _, _ = select([sys.stdin], [], [], .1) if not i: return None command = i[0].readline().strip() return command command = read_command() if command is None: if self.auto_progress == 0: return if self.ns.paused: self.auto_progress_next = None return if self.auto_progress_next is None: self.auto_progress_next = time() + self.auto_progress return if time() < self.auto_progress_next: return self.auto_progress_next = None command = '' if command == 'h': logger.info('''Available commands: h show help show progress d/D increase/decrease debug level p pause progress f show verbose progress x arg add monitor condition a show all active conditions q terminate execution now ''') elif command == 'q': self.ns.quit_now = True elif command == 'p': self.ns.paused = not self.ns.paused logger.info(self.ns.paused and 'Paused' or 'Unpaused') elif command == 'd': logger.setLevel(logging.DEBUG) elif command == 'D': logger.setLevel(logging.INFO) elif command == 'a': logger.info(repr(self.ns.actions)) elif command.startswith('x') or command.startswith('-x'): _, arg = command.split(' ', 1) try: self.update_actions(arg) except ValueError: logger.warn('usage: x actions:conditions') else: # show progress thread_progress = self.thread_progress num_threads = self.num_threads total_size = self.ns.total_size total_count = sum(p.done_count+p.skip_count for p in thread_progress) speed_avg = num_threads / (sum(sum(p.seconds) / len(p.seconds) for p in thread_progress) / num_threads) if total_size >= maxint: etc_time = 'inf' remain_time = 'inf' else: remain_seconds = (total_size - total_count) / speed_avg remain_time = pprint_seconds(remain_seconds, '%02d:%02d:%02d') etc_seconds = datetime.now() + timedelta(seconds=remain_seconds) etc_time = etc_seconds.strftime('%H:%M:%S') logger.info('Progress: {0:>3}% ({1}/{2}) | Speed: {3:.0f} r/s | ETC: {4} ({5} remaining) {6}'.format( total_count * 100 // total_size, total_count, total_size, speed_avg, etc_time, remain_time, self.ns.paused and '| Paused' or '')) if command == 'f': for i, p in enumerate(thread_progress): total_count = p.done_count + p.skip_count logger.info(' {0:>3}: {1:>3}% ({2}/{3}) {4}'.format( '#%d' % (i+1), int(100*total_count/(1.0*total_size/num_threads)), total_count, total_size/num_threads, p.current)) # }}} # Response_Base {{{ def match_range(size, val): if '-' in val: size_min, size_max = val.split('-') if not size_min and not size_max: raise ValueError('Invalid interval') elif not size_min: # size == -N return size <= float(size_max) elif not size_max: # size == N- return size >= float(size_min) else: size_min, size_max = float(size_min), float(size_max) if size_min >= size_max: raise ValueError('Invalid interval') return size_min <= size <= size_max else: return size == float(val) class Response_Base: available_conditions = ( ('code', 'match status code'), ('size', 'match size (N or N-M or N- or -N)'), ('time', 'match time (N or N-M or N- or -N)'), ('mesg', 'match message'), ('fgrep', 'search for string in mesg'), ('egrep', 'search for regex in mesg'), ) indicatorsfmt = [('code', -5), ('size', -4), ('time', 7)] def __init__(self, code, mesg, timing=0, trace=None): self.code = code self.mesg = mesg self.time = timing.time if isinstance(timing, Timing) else timing self.size = len(mesg) self.trace = trace def indicators(self): return self.code, self.size, '%.3f' % self.time def __str__(self): return self.mesg def match(self, key, val): return getattr(self, 'match_'+key)(val) def match_code(self, val): return re.match('%s$' % val, str(self.code)) def match_size(self, val): return match_range(self.size, val) def match_time(self, val): return match_range(self.time, val) def match_mesg(self, val): return val == self.mesg def match_fgrep(self, val): return val in self.mesg def match_egrep(self, val): return re.search(val, self.mesg) def dump(self): return b(self.trace or str(self)) def str_target(self): return '' class Timing: def __enter__(self): self.t1 = time() return self def __exit__(self, exc_type, exc_value, traceback): self.time = time() - self.t1 # }}} # TCP_Cache {{{ class TCP_Connection: def __init__(self, fp, banner=None): self.fp = fp self.banner = banner def close(self): self.fp.close() class TCP_Cache: available_actions = ( ('reset', 'close current connection in order to reconnect next time'), ) available_options = ( ('persistent', 'use persistent connections [1|0]'), ) def __init__(self): self.cache = {} # '10.0.0.1:22': ('root', conn1), '10.0.0.2:22': ('admin', conn2), self.curr = None def __del__(self): for _, (_, c) in self.cache.items(): c.close() self.cache.clear() def bind(self, host, port, *args, **kwargs): hp = '%s:%s' % (host, port) key = ':'.join(map(str, args)) if hp in self.cache: k, c = self.cache[hp] if key == k: self.curr = hp, k, c return c.fp, c.banner else: c.close() del self.cache[hp] self.curr = None logger.debug('connect') conn = self.connect(host, port, *args, **kwargs) self.cache[hp] = (key, conn) self.curr = hp, key, conn return conn.fp, conn.banner def reset(self, **kwargs): if self.curr: hp, _, c = self.curr c.close() del self.cache[hp] self.curr = None # }}} # FTP {{{ from ftplib import FTP, Error as FTP_Error try: from ftplib import FTP_TLS # only available since python 2.7 except ImportError: notfound.append('python') class FTP_login(TCP_Cache): '''Brute-force FTP''' usage_hints = ( '''%prog host=10.0.0.1 user=FILE0 password=FILE1 0=logins.txt 1=passwords.txt''' ''' -x ignore:mesg='Login incorrect.' -x ignore,reset,retry:code=500''', ) available_options = ( ('host', 'target host'), ('port', 'target port [21]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('tls', 'use TLS [0|1]'), ('timeout', 'seconds to wait for a response [10]'), ) available_options += TCP_Cache.available_options Response = Response_Base def connect(self, host, port, tls, timeout): if tls == '0': fp = FTP(timeout=int(timeout)) else: fp = FTP_TLS(timeout=int(timeout)) banner = fp.connect(host, int(port)) if tls != '0': fp.auth() return TCP_Connection(fp, banner) def execute(self, host, port='21', tls='0', user=None, password=None, timeout='10', persistent='1'): try: with Timing() as timing: fp, resp = self.bind(host, port, tls, timeout=timeout) if user is not None or password is not None: with Timing() as timing: if user is not None: resp = fp.sendcmd('USER ' + user) if password is not None: resp = fp.sendcmd('PASS ' + password) logger.debug('No error: %r' % resp) self.reset() except FTP_Error as e: logger.debug('FTP_Error: %s' % e) resp = str(e) if persistent == '0': self.reset() code, mesg = resp.split(' ', 1) return self.Response(code, mesg, timing) # }}} # SSH {{{ try: from logging import NullHandler # only available since python 2.7 except ImportError: class NullHandler(logging.Handler): def emit(self, record): pass try: import paramiko logging.getLogger('paramiko.transport').addHandler(NullHandler()) except ImportError: notfound.append('paramiko') def load_keyfile(keyfile): for cls in (paramiko.RSAKey, paramiko.DSSKey, paramiko.ECDSAKey, paramiko.Ed25519Key): try: return cls.from_private_key_file(keyfile) except paramiko.SSHException: pass else: raise class SSH_login(TCP_Cache): '''Brute-force SSH''' usage_hints = ( """%prog host=10.0.0.1 user=root password=FILE0 0=passwords.txt -x ignore:mesg='Authentication failed.'""", ) available_options = ( ('host', 'target host'), ('port', 'target port [22]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('auth_type', 'type of password authentication to use [password|keyboard-interactive|auto]'), ('keyfile', 'file with RSA, DSA, ECDSA or ED25519 private key to test'), ) available_options += TCP_Cache.available_options Response = Response_Base def connect(self, host, port, user): fp = paramiko.Transport('%s:%s' % (host, int(port))) fp.start_client() return TCP_Connection(fp, fp.remote_version) def execute(self, host, port='22', user=None, password=None, auth_type='password', keyfile=None, persistent='1'): try: with Timing() as timing: fp, banner = self.bind(host, port, user) if user is not None: if keyfile is not None: key = load_keyfile(keyfile) with Timing() as timing: if keyfile is not None: fp.auth_publickey(user, key) elif password is not None: if auth_type == 'password': fp.auth_password(user, password, fallback=False) elif auth_type == 'keyboard-interactive': fp.auth_interactive(user, lambda a, b, c: [password] if len(c) == 1 else []) elif auth_type == 'auto': fp.auth_password(user, password, fallback=True) else: raise ValueError('Incorrect auth_type %r' % auth_type) logger.debug('No error') code, mesg = '0', banner self.reset() except paramiko.AuthenticationException as e: logger.debug('AuthenticationException: %s' % e) code, mesg = '1', str(e) if persistent == '0': self.reset() return self.Response(code, mesg, timing) # }}} # Telnet {{{ try: from telnetlib import Telnet except ImportError: notfound.append('telnetlib') class Telnet_login(TCP_Cache): '''Brute-force Telnet''' usage_hints = ( """%prog host=10.0.0.1 inputs='FILE0\\nFILE1' 0=logins.txt 1=passwords.txt""" """ prompt_re='login:|Password:' -x ignore:fgrep='Login incorrect'""", ) available_options = ( ('host', 'target host'), ('port', 'target port [23]'), ('inputs', 'list of values to input'), ('prompt_re', 'regular expression to match prompts [\w+:]'), ('timeout', 'seconds to wait for a response and for prompt_re to match received data [20]'), ) available_options += TCP_Cache.available_options Response = Response_Base def connect(self, host, port, timeout): self.prompt_count = 0 fp = Telnet(host, int(port), int(timeout)) return TCP_Connection(fp) def execute(self, host, port='23', inputs=None, prompt_re='\w+:', timeout='20', persistent='0'): with Timing() as timing: fp, _ = self.bind(host, port, timeout=timeout) trace = b'' prompt_re = b(prompt_re) timeout = int(timeout) if self.prompt_count == 0: _, _, raw = fp.expect([prompt_re], timeout=timeout) logger.debug('raw banner: %r' % raw) trace += raw self.prompt_count += 1 if inputs is not None: with Timing() as timing: for val in inputs.split(r'\n'): logger.debug('input: %s' % val) cmd = b(val + '\n') #'\r\x00' fp.write(cmd) trace += cmd _, _, raw = fp.expect([prompt_re], timeout=timeout) logger.debug('raw %d: %r' % (self.prompt_count, raw)) trace += raw self.prompt_count += 1 if persistent == '0': self.reset() mesg = B(raw).strip() return self.Response(0, mesg, timing, trace) # }}} # SMTP {{{ from smtplib import SMTP, SMTP_SSL, SMTPException, SMTPResponseException class SMTP_Base(TCP_Cache): available_options = TCP_Cache.available_options available_options += ( ('timeout', 'seconds to wait for a response [10]'), ('host', 'target host'), ('port', 'target port [25]'), ('ssl', 'use SSL [0|1]'), ('helo', 'helo or ehlo command to send after connect [skip]'), ('starttls', 'send STARTTLS [0|1]'), ('user', 'usernames to test'), ) Response = Response_Base def connect(self, host, port, ssl, helo, starttls, timeout): if ssl == '0': if not port: port = 25 fp = SMTP(timeout=int(timeout)) else: if not port: port = 465 fp = SMTP_SSL(timeout=int(timeout)) resp = fp.connect(host, int(port)) if helo: cmd, name = helo.split(' ', 1) if cmd.lower() == 'ehlo': resp = fp.ehlo(name) else: resp = fp.helo(name) if not starttls == '0': fp._host = host resp = fp.starttls() return TCP_Connection(fp, resp) class SMTP_vrfy(SMTP_Base): '''Enumerate valid users using SMTP VRFY''' usage_hints = ( '''%prog host=10.0.0.1 user=FILE0 0=logins.txt [helo='ehlo its.me.com']''' ''' -x ignore:fgrep='User unknown' -x ignore,reset,retry:code=421''', ) def execute(self, host, port='', ssl='0', helo='', starttls='0', user=None, timeout='10', persistent='1'): with Timing() as timing: fp, resp = self.bind(host, port, ssl, helo, starttls, timeout=timeout) if user is not None: with Timing() as timing: resp = fp.verify(user) if persistent == '0': self.reset() code, mesg = resp return self.Response(code, B(mesg), timing) class SMTP_rcpt(SMTP_Base): '''Enumerate valid users using SMTP RCPT TO''' usage_hints = ( '''%prog host=10.0.0.1 user=FILE0@localhost 0=logins.txt [helo='ehlo its.me.com']''' ''' [mail_from=bar@example.com] -x ignore:fgrep='User unknown' -x ignore,reset,retry:code=421''', ) available_options = SMTP_Base.available_options available_options += ( ('mail_from', 'sender email [test@example.org]'), ) def execute(self, host, port='', ssl='0', helo='', starttls='0', mail_from='test@example.org', user=None, timeout='10', persistent='1'): with Timing() as timing: fp, resp = self.bind(host, port, ssl, helo, starttls, timeout=timeout) if mail_from or user is not None: with Timing() as timing: if mail_from: resp = fp.mail(mail_from) if user is not None: resp = fp.rcpt(user) fp.rset() if persistent == '0': self.reset() code, mesg = resp return self.Response(code, B(mesg), timing) class SMTP_login(SMTP_Base): '''Brute-force SMTP''' usage_hints = ( '''%prog host=10.0.0.1 user=f.bar@dom.com password=FILE0 0=passwords.txt [helo='ehlo its.me.com']''' ''' -x ignore:fgrep='Authentication failed' -x ignore,reset,retry:code=421''', ) available_options = SMTP_Base.available_options available_options += ( ('password', 'passwords to test'), ) def execute(self, host, port='', ssl='0', helo='', starttls='0', user=None, password=None, timeout='10', persistent='1'): with Timing() as timing: fp, resp = self.bind(host, port, ssl, helo, starttls, timeout=timeout) try: if user is not None and password is not None: with Timing() as timing: resp = fp.login(user, password) logger.debug('No error: %s' % str(resp)) self.reset() except SMTPResponseException as e: logger.debug('SMTPResponseException: %s' % e) resp = e.args if persistent == '0': self.reset() code, mesg = resp return self.Response(code, B(mesg), timing) # }}} # Finger {{{ class Controller_Finger(Controller): user_list = [] def push_final(self, resp): if hasattr(resp, 'lines'): for l in resp.lines: if l not in self.user_list: self.user_list.append(l) def show_final(self): print('\n'.join(self.user_list)) class Finger_lookup: '''Enumerate valid users using Finger''' usage_hints = ( """%prog host=10.0.0.1 user=FILE0 0=words.txt -x ignore:fgrep='no such user'""", ) available_options = ( ('host', 'target host'), ('port', 'target port [79]'), ('user', 'usernames to test'), ('timeout', 'seconds to wait for a response [5]'), ) available_actions = () Response = Response_Base def execute(self, host, port='79', user='', timeout='5'): s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.settimeout(int(timeout)) with Timing() as timing: s.connect((host, int(port))) if user: s.send(b(user)) s.send(b'\r\n') raw = b'' with Timing() as timing: while True: resp = s.recv(1024) if not resp: break raw += resp s.close() logger.debug('recv: %r' % raw) mesg = B(raw).strip() resp = self.Response(0, mesg, timing, raw) resp.lines = [l.strip('\r\n') for l in mesg.split('\n')] return resp # }}} # DCOM {{{ try: from impacket.dcerpc.v5.dcomrt import DCOMConnection from impacket.dcerpc.v5.dcom import wmi except ImportError: notfound.append('impacket') class DCOM_login: '''Brute-force DCOM''' usage_hints = ( """%prog host=10.0.0.1 user='admin' password=FILE0 0=passwords.txt""", ) available_options = ( ('host', 'target host'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('domain', 'domains to test'), ) available_actions = () Response = Response_Base def execute(self, host, user='', password='', domain=''): dcom = DCOMConnection(host, user, password, domain) try: with Timing() as timing: iInterface = dcom.CoCreateInstanceEx(wmi.CLSID_WbemLevel1Login,wmi.IID_IWbemLevel1Login) code, mesg = 0, 'OK' except Exception as e: code, mesg = 1, e.error_string dcom.disconnect() return self.Response(code, mesg, timing) # }}} # LDAP {{{ if not which('ldapsearch'): notfound.append('openldap') # Because python-ldap-2.4.4 did not allow using a PasswordPolicyControl # during bind authentication (cf. http://article.gmane.org/gmane.comp.python.ldap/1003), # I chose to wrap around ldapsearch with "-e ppolicy". class LDAP_login: '''Brute-force LDAP''' usage_hints = ( """%prog host=10.0.0.1 binddn='cn=Directory Manager' bindpw=FILE0 0=passwords.txt""" """ -x ignore:mesg='ldap_bind: Invalid credentials (49)'""", ) available_options = ( ('host', 'target host'), ('port', 'target port [389]'), ('binddn', 'usernames to test'), ('bindpw', 'passwords to test'), ('basedn', 'base DN for search'), ('ssl', 'use SSL/TLS [0|1]'), ) available_actions = () Response = Response_Base def execute(self, host, port='389', binddn='', bindpw='', basedn='', ssl='0'): uri = 'ldap%s://%s:%s' % ('s' if ssl != '0' else '', host, port) cmd = ['ldapsearch', '-H', uri, '-e', 'ppolicy', '-D', binddn, '-w', bindpw, '-b', basedn, '-s', 'one'] with Timing() as timing: p = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env={'LDAPTLS_REQCERT': 'never'}) out, err = map(B, p.communicate()) code = p.returncode mesg = (out + err).strip() trace = '%s\n[out]\n%s\n[err]\n%s\n' % (' '.join(cmd), out, err) return self.Response(code, mesg, timing, trace) # }}} # SMB {{{ try: from impacket.smbconnection import SMBConnection, SessionError from impacket import nt_errors from impacket.dcerpc.v5 import transport, lsat, lsad from impacket.dcerpc.v5.samr import SID_NAME_USE from impacket.dcerpc.v5.dtypes import MAXIMUM_ALLOWED from impacket.dcerpc.v5.rpcrt import DCERPCException except ImportError: notfound.append('impacket') class SMB_Connection(TCP_Connection): def close(self): self.fp.getSMBServer().get_socket().close() class Response_SMB(Response_Base): indicatorsfmt = [('code', -8), ('size', -4), ('time', 6)] def split_ntlm(password_hash): if password_hash: if ':' in password_hash: lmhash, nthash = password_hash.split(':') else: lmhash, nthash = 'aad3b435b51404eeaad3b435b51404ee', password_hash else: lmhash, nthash = '', '' return lmhash, nthash class SMB_login(TCP_Cache): '''Brute-force SMB''' usage_hints = ( """%prog host=10.0.0.1 user=FILE0 password=FILE1 0=logins.txt 1=passwords.txt""" """ -x ignore:fgrep='unknown user name or bad password'""", ) available_options = ( ('host', 'target host'), ('port', 'target port [139]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('password_hash', "LM/NT hashes to test, at least one hash must be provided ('lm:nt' or ':nt' or 'lm:')"), ('domain', 'domain to test'), ) available_options += TCP_Cache.available_options Response = Response_SMB def connect(self, host, port): # if port == 445, impacket will use instead of '*SMBSERVER' as the remote_name fp = SMBConnection('*SMBSERVER', host, sess_port=int(port)) return SMB_Connection(fp) def execute(self, host, port='139', user=None, password='', password_hash=None, domain='', persistent='1'): with Timing() as timing: fp, _ = self.bind(host, port) try: if user is None: fp.login('', '') # retrieve workgroup/domain and computer name else: with Timing() as timing: if password_hash: lmhash, nthash = split_ntlm(password_hash) fp.login(user, '', domain, lmhash, nthash) else: fp.login(user, password, domain) logger.debug('No error') code, mesg = '0', '%s\\%s (%s)' % (fp.getServerDomain(), fp.getServerName(), fp.getServerOS()) self.reset() except SessionError as e: code = '%x' % e.getErrorCode() mesg = nt_errors.ERROR_MESSAGES[e.getErrorCode()][0] if persistent == '0': self.reset() return self.Response(code, mesg, timing) class DCE_Connection(TCP_Connection): def __init__(self, fp, rpct): self.rpct = rpct TCP_Connection.__init__(self, fp) def close(self): self.rpct.get_socket().close() # impacket/examples/lookupsid.py is much faster because it queries 1000 SIDs per packet class SMB_lookupsid(TCP_Cache): '''Brute-force SMB SID-lookup''' usage_hints = ( '''%prog host=10.0.0.1 sid=S-1-5-21-1234567890-1234567890-1234567890 rid=RANGE0 0=int:500-2000 -x ignore:code=1''', ) available_options = ( ('host', 'target host'), ('port', 'target port [445]'), ('sid', 'SID to test'), ('rid', 'RID to test'), ('user', 'username to use if auth required'), ('password', 'password to use if auth required'), ('password_hash', "LM/NT hashes to test, at least one hash must be provided ('lm:nt' or ':nt' or 'lm:')"), ('domain', 'domain to test'), ) available_options += TCP_Cache.available_options Response = Response_Base def connect(self, host, port, user, password, domain, password_hash, sid): lmhash, nthash = split_ntlm(password_hash) rpctransport = transport.DCERPCTransportFactory(r'ncacn_np:%s[\pipe\lsarpc]' % host) # remoteName rpctransport.set_dport(port) rpctransport.setRemoteHost(host) rpctransport.set_credentials(user, password, domain, lmhash, nthash) dce = rpctransport.get_dce_rpc() dce.connect() dce.bind(lsat.MSRPC_UUID_LSAT) op2 = lsad.hLsarOpenPolicy2(dce, MAXIMUM_ALLOWED | lsat.POLICY_LOOKUP_NAMES) if sid is None: res = lsad.hLsarQueryInformationPolicy2(dce, op2['PolicyHandle'], lsad.POLICY_INFORMATION_CLASS.PolicyAccountDomainInformation) sid = res['PolicyInformation']['PolicyAccountDomainInfo']['DomainSid'].formatCanonical() self.sid = sid self.policy_handle = op2['PolicyHandle'] return DCE_Connection(dce, rpctransport) def execute(self, host, port='445', user='', password='', password_hash=None, domain='', sid=None, rid=None, persistent='1'): dce, _ = self.bind(host, port, user, password, domain, password_hash, sid) if rid: sid = '%s-%s' % (self.sid, rid) else: sid = self.sid try: res = lsat.hLsarLookupSids(dce, self.policy_handle, [sid], lsat.LSAP_LOOKUP_LEVEL.LsapLookupWksta) code, names = 0, [] for n, item in enumerate(res['TranslatedNames']['Names']): names.append("%s\\%s (%s)" % (res['ReferencedDomains']['Domains'][item['DomainIndex']]['Name'], item['Name'], SID_NAME_USE.enumItems(item['Use']).name[7:])) except DCERPCException: code, names = 1, ['unknown'] # STATUS_NONE_MAPPED if persistent == '0': self.reset() return self.Response(code, ', '.join(names)) # }}} # POP {{{ from poplib import POP3, POP3_SSL, error_proto as pop_error class POP_Connection(TCP_Connection): def close(self): if PY3: self.fp.close() else: self.fp.quit() class POP_login(TCP_Cache): '''Brute-force POP3''' usage_hints = ( '''%prog host=10.0.0.1 user=FILE0 password=FILE1 0=logins.txt 1=passwords.txt -x ignore:code=-ERR''', ) available_options = ( ('host', 'target host'), ('port', 'target port [110]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('ssl', 'use SSL [0|1]'), ('timeout', 'seconds to wait for a response [10]'), ) available_options += TCP_Cache.available_options Response = Response_Base def connect(self, host, port, ssl, timeout): if ssl == '0': if not port: port = 110 fp = POP3(host, int(port), timeout=int(timeout)) else: if not port: port = 995 fp = POP3_SSL(host, int(port)) # timeout=int(timeout)) # no timeout option in python2 return POP_Connection(fp, fp.welcome) def execute(self, host, port='', ssl='0', user=None, password=None, timeout='10', persistent='1'): with Timing() as timing: fp, resp = self.bind(host, port, ssl, timeout=timeout) try: if user is not None or password is not None: with Timing() as timing: if user is not None: resp = fp.user(user) if password is not None: resp = fp.pass_(password) logger.debug('No error: %s' % resp) self.reset() except pop_error as e: logger.debug('pop_error: %s' % e) resp = ', '.join(map(B, e.args)) if persistent == '0': self.reset() code, mesg = B(resp).split(' ', 1) return self.Response(code, mesg, timing) class POP_passd: '''Brute-force poppassd (http://netwinsite.com/poppassd/)''' usage_hints = ( '''%prog host=10.0.0.1 user=FILE0 password=FILE1 0=logins.txt 1=passwords.txt -x ignore:code=500''', ) available_options = ( ('host', 'target host'), ('port', 'target port [106]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('timeout', 'seconds to wait for a response [10]'), ) available_actions = () Response = Response_Base def execute(self, host, port='106', user=None, password=None, timeout='10'): fp = LineReceiver() with Timing() as timing: resp = fp.connect(host, int(port), int(timeout)) trace = resp + '\r\n' try: if user is not None or password is not None: with Timing() as timing: if user is not None: cmd = 'USER %s' % user resp = fp.sendcmd(cmd) trace += '%s\r\n%s\r\n' % (cmd, resp) if password is not None: cmd = 'PASS %s' % password resp = fp.sendcmd(cmd) trace += '%s\r\n%s\r\n' % (cmd, resp) except LineReceiver_Error as e: logger.debug('LineReceiver_Error: %s' % e) resp = str(e) trace += '%s\r\n%s\r\n' % (cmd, resp) finally: fp.close() code, mesg = fp.parse(resp) return self.Response(code, mesg, timing, trace) # }}} # IMAP {{{ from imaplib import IMAP4, IMAP4_SSL class IMAP_login: '''Brute-force IMAP4''' usage_hints = ( '''%prog host=10.0.0.1 user=FILE0 password=FILE1 0=logins.txt 1=passwords.txt''', ) available_options = ( ('host', 'target host'), ('port', 'target port [143]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('ssl', 'use SSL [0|1]'), ) available_actions = () Response = Response_Base def execute(self, host, port='', ssl='0', user=None, password=None): if ssl == '0': if not port: port = 143 klass = IMAP4 else: if not port: port = 993 klass = IMAP4_SSL with Timing() as timing: fp = klass(host, port) code, resp = 0, B(fp.welcome) try: if user is not None and password is not None: with Timing() as timing: r = fp.login(user, password) code, resp = r[0], ', '.join(map(B, r[1])) except IMAP4.error as e: logger.debug('imap_error: %s' % e) code, resp = 1, ', '.join(map(B, e.args)) return self.Response(code, resp, timing) # }}} # rlogin {{{ class Rlogin_login(TCP_Cache): '''Brute-force rlogin''' usage_hints = ( """Please note that rlogin requires to bind a socket to an Internet domain privileged port.""", """%prog host=10.0.0.1 user=root luser=FILE0 0=logins.txt""", """%prog host=10.0.0.1 user=john password=FILE0 0=passwords.txt""", ) available_options = ( ('host', 'target host'), ('port', 'target port [513]'), ('luser', 'client username [root]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('prompt_re', 'regular expression to match prompts [\w+:]'), ('timeout', 'seconds to wait for a response and for prompt_re to match received data [10]'), ) available_options += TCP_Cache.available_options Response = Response_Base def connect(self, host, port, timeout): fp = Telnet() for i in range(50): try: fp.sock = socket.create_connection((host, int(port)), timeout=int(timeout), source_address=('', 1023 - i)) break except socket.error as e: if (e.errno, e.strerror) != (98, 'Address already in use'): raise e self.need_handshake = True return TCP_Connection(fp) def execute(self, host, port='513', luser='root', user='', password=None, prompt_re='\w+:', timeout='10', persistent='0'): fp, _ = self.bind(host, port, timeout=int(timeout)) trace = b'' prompt_re = b(prompt_re) timeout = int(timeout) with Timing() as timing: if self.need_handshake: fp.write(b('\x00%s\x00%s\x00vt100/9600\x00' % (luser, user))) self.need_handshake = False else: fp.write(b('%s\r' % user)) _, m, raw = fp.expect([prompt_re], timeout=timeout) # expecting the Password: prompt logger.debug('raw: %r' % raw) trace += raw if m and password is not None: fp.write(b('%s\r' % password)) _, _, raw = fp.expect([prompt_re], timeout=timeout) # expecting the login: prompt logger.debug('raw: %r' % raw) trace += raw if persistent == '0': self.reset() mesg = B(raw).strip() return self.Response(0, mesg, timing, trace) # }}} # VMauthd {{{ class LineReceiver_Error(Exception): pass class LineReceiver: def connect(self, host, port, timeout, ssl=False): self.sock = socket.create_connection((host, port), timeout) banner = self.getresp() if ssl: self.sock = wrap_socket(self.sock) return banner # welcome banner def close(self): self.sock.close() def sendcmd(self, cmd): self.sock.sendall(b(cmd + '\r\n')) return self.getresp() def getresp(self): resp = self.sock.recv(1024) while not resp.endswith(b'\n'): resp += self.sock.recv(1024) resp = B(resp).rstrip() code, _ = self.parse(resp) if not code.isdigit(): raise Exception('Unexpected response: %r' % resp) if code[0] not in ('1', '2', '3'): raise LineReceiver_Error(resp) return resp def parse(self, resp): i = resp.rfind('\n') + 1 code = resp[i:i+3] mesg = resp[i+4:] return code, mesg class VMauthd_login(TCP_Cache): '''Brute-force VMware Authentication Daemon''' usage_hints = ( '''%prog host=10.0.0.1 user=root password=FILE0 0=passwords.txt''', ) available_options = ( ('host', 'target host'), ('port', 'target port [902]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('ssl', 'use SSL [1|0]'), ('timeout', 'seconds to wait for a response [10]'), ) available_options += TCP_Cache.available_options Response = Response_Base def connect(self, host, port, ssl, timeout): fp = LineReceiver() banner = fp.connect(host, int(port), int(timeout), ssl != '0') return TCP_Connection(fp, banner) def execute(self, host, port='902', user=None, password=None, ssl='1', timeout='10', persistent='1'): with Timing() as timing: fp, resp = self.bind(host, port, ssl, timeout=timeout) trace = resp + '\r\n' try: if user is not None or password is not None: with Timing() as timing: if user is not None: cmd = 'USER %s' % user resp = fp.sendcmd(cmd) trace += '%s\r\n%s\r\n' % (cmd, resp) if password is not None: cmd = 'PASS %s' % password resp = fp.sendcmd(cmd) trace += '%s\r\n%s\r\n' % (cmd, resp) except LineReceiver_Error as e: logger.debug('LineReceiver_Error: %s' % e) resp = str(e) trace += '%s\r\n%s\r\n' % (cmd, resp) if persistent == '0': self.reset() code, mesg = fp.parse(resp) return self.Response(code, mesg, timing, trace) # }}} # MySQL {{{ try: from MySQLdb import _mysql except ImportError: notfound.append('mysqlclient') class MySQL_login: '''Brute-force MySQL''' usage_hints = ( """%prog host=10.0.0.1 user=FILE0 password=FILE1 0=logins.txt 1=passwords.txt -x ignore:fgrep='Access denied for user'""", ) available_options = ( ('host', 'target host'), ('port', 'target port [3306]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('timeout', 'seconds to wait for a response [10]'), ) available_actions = () Response = Response_Base def execute(self, host, port='3306', user='anony', password='', timeout='10'): try: with Timing() as timing: if PY3: fp = _mysql.connect(host=host, port=int(port), user=user, password=password, connect_timeout=int(timeout)) else: fp = _mysql.connect(host=host, port=int(port), user=user, passwd=password, connect_timeout=int(timeout)) resp = '0', fp.get_server_info() except _mysql.Error as e: logger.debug('MysqlError: %s' % e) resp = e.args code, mesg = resp return self.Response(code, mesg, timing) class MySQL_query(TCP_Cache): '''Brute-force MySQL queries''' usage_hints = ( '''%prog host=10.0.0.1 user=root password=s3cr3t query="select length(load_file('/home/adam/FILE0'))" 0=files.txt -x ignore:size=0''', ) available_options = ( ('host', 'target host'), ('port', 'target port [3306]'), ('user', 'username to use'), ('password', 'password to use'), ('query', 'SQL query to execute'), ) available_actions = () Response = Response_Base def connect(self, host, port, user, password): if PY3: fp = _mysql.connect(host=host, port=int(port), user=user, password=password) # db=db else: fp = _mysql.connect(host=host, port=int(port), user=user, passwd=password) return TCP_Connection(fp) def execute(self, host, port='3306', user='', password='', query='select @@version'): fp, _ = self.bind(host, port, user, password) with Timing() as timing: fp.query(query) rs = fp.store_result() rows = rs.fetch_row(maxrows=0, how=0) logger.debug('fetched %d rows: %s' % (len(rows), rows)) code, mesg = '0', '\n'.join(', '.join(map(B, r)) for r in filter(any, rows)) return self.Response(code, mesg, timing) # }}} # MSSQL {{{ # I did not use pymssql because neither version 1.x nor 2.0.0b1_dev were multithreads safe (they all segfault) try: from impacket import tds from impacket.tds import TDS_ERROR_TOKEN, TDS_LOGINACK_TOKEN except ImportError: notfound.append('pyopenssl') class MSSQL_login: '''Brute-force MSSQL''' usage_hints = ( """%prog host=10.0.0.1 user=sa password=FILE0 0=passwords.txt -x ignore:fgrep='Login failed for user'""", ) available_options = ( ('host', 'target host'), ('port', 'target port [1433]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('windows_auth', 'use Windows auth [0|1]'), ('domain', 'domain to test []'), ('password_hash', "LM/NT hashes to test ('lm:nt' or ':nt')"), #('timeout', 'seconds to wait for a response [10]'), ) available_actions = () Response = Response_Base def execute(self, host, port='1433', user='', password='', windows_auth='0', domain='', password_hash=None): #, timeout='10'): fp = tds.MSSQL(host, int(port)) fp.connect() with Timing() as timing: if windows_auth == '0': r = fp.login(None, user, password, None, None, False) else: r = fp.login(None, user, password, domain, password_hash, True) if not r: key = fp.replies[TDS_ERROR_TOKEN][0] code = key['Number'] mesg = key['MsgText'].decode('utf-16le') else: key = fp.replies[TDS_LOGINACK_TOKEN][0] code = '0' mesg = '%s (%d%d %d%d)' % (key['ProgName'].decode('utf-16le'), key['MajorVer'], key['MinorVer'], key['BuildNumHi'], key['BuildNumLow']) fp.disconnect() return self.Response(code, mesg, timing) # }}} # Oracle {{{ try: import cx_Oracle except ImportError: notfound.append('cx_Oracle') class Response_Oracle(Response_Base): indicatorsfmt = [('code', -9), ('size', -4), ('time', 6)] class Oracle_login: '''Brute-force Oracle''' usage_hints = ( '''%prog host=10.0.0.1 sid=FILE0 0=sids.txt -x ignore:code=ORA-12505''', '''%prog host=10.0.0.1 user=SYS password=FILE0 0=passwords.txt -x ignore:code=ORA-01017''', ) available_options = ( ('host', 'hostnames or subnets to target'), ('port', 'ports to target [1521]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('sid', 'sid to test'), ('service_name', 'service name to test'), ) available_actions = () Response = Response_Oracle def execute(self, host, port='1521', user='', password='', sid='', service_name=''): if sid: dsn = cx_Oracle.makedsn(host=host, port=port, sid=sid) elif service_name: dsn = cx_Oracle.makedsn(host=host, port=port, service_name=service_name) else: raise ValueError('Options sid and service_name cannot be both empty') try: with Timing() as timing: fp = cx_Oracle.connect(user, password, dsn, threaded=True) code, mesg = '0', fp.version except cx_Oracle.DatabaseError as e: code, mesg = e.args[0].message[:-1].split(': ', 1) return self.Response(code, mesg, timing) # }}} # PostgreSQL {{{ try: import psycopg2 except ImportError: notfound.append('psycopg') class Pgsql_login: '''Brute-force PostgreSQL''' usage_hints = ( """%prog host=10.0.0.1 user=postgres password=FILE0 0=passwords.txt -x ignore:fgrep='password authentication failed for user'""", ) available_options = ( ('host', 'target host'), ('port', 'target port [5432]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ('database', 'databases to test [postgres]'), ('timeout', 'seconds to wait for a response [10]'), ) available_actions = () Response = Response_Base def execute(self, host, port='5432', user=None, password=None, database='postgres', ssl='disable', timeout='10'): try: with Timing() as timing: psycopg2.connect(host=host, port=int(port), user=user, password=password, database=database, sslmode=ssl, connect_timeout=int(timeout)) code, mesg = '0', 'OK' except psycopg2.OperationalError as e: logger.debug('OperationalError: %s' % e) code, mesg = '1', str(e).strip() return self.Response(code, mesg, timing) # }}} # HTTP {{{ try: import pycurl if hasattr(pycurl, 'PRIMARY_PORT'): proxytype_mapping = { 'http': pycurl.PROXYTYPE_HTTP, 'socks4': pycurl.PROXYTYPE_SOCKS4, 'socks4a': pycurl.PROXYTYPE_SOCKS4A, 'socks5': pycurl.PROXYTYPE_SOCKS5, 'socks5_with_hostname': pycurl.PROXYTYPE_SOCKS5_HOSTNAME, } else: # PRIMARY_PORT available since libcurl-7.21.0 and all PROXY_* since libcurl-7.18 # PRIMARY_PORT and all PROXY_* available since pycurl-7.19.5.1 notfound.append('libcurl') except ImportError: notfound.append('pycurl') class Response_HTTP(Response_Base): indicatorsfmt = [('code', -4), ('size:clen', -13), ('time', 6)] def __init__(self, code, response, timing=0, trace=None, content_length=-1, target={}): Response_Base.__init__(self, code, response, timing, trace=trace) self.content_length = content_length self.target = target def indicators(self): return self.code, '%d:%d' % (self.size, self.content_length), '%.3f' % self.time def __str__(self): lines = re.findall('^(HTTP/.+)$', self.mesg, re.M) if lines: return lines[-1].rstrip('\r') else: return self.mesg def match_clen(self, val): return match_range(self.content_length, val) def match_egrep(self, val): return re.search(val, self.mesg, re.M) def str_target(self): return ' '.join('%s=%s' % (k, xmlquoteattr(str(v))) for k, v in self.target.items()) available_conditions = Response_Base.available_conditions available_conditions += ( ('clen', 'match Content-Length header (N or N-M or N- or -N)'), ) try: from http.server import BaseHTTPRequestHandler except ImportError: from BaseHTTPServer import BaseHTTPRequestHandler class HTTPRequestParser(BaseHTTPRequestHandler): def __init__(self, fd): self.rfile = fd self.error = None self.body = None command, path, version = B(self.rfile.readline()).split() self.raw_requestline = b('%s %s %s' % (command, path, 'HTTP/1.1' if version.startswith('HTTP/2') else version)) self.parse_request() self.request_version = version if self.command == 'POST': self.body = B(self.rfile.read(-1)).rstrip('\r\n') if 'Content-Length' in self.headers: del self.headers['Content-Length'] def send_error(self, code, message): self.error = message class Controller_HTTP(Controller): def expand_key(self, arg): key, val = arg.split('=', 1) if key == 'raw_request': with open(val, 'rb') as fd: r = HTTPRequestParser(fd) if r.error: raise ValueError('Failed to parse file %r as a raw HTTP request' % val, r.error) opts = {} if r.path.startswith('http'): opts['url'] = r.path else: _, _, opts['path'], opts['params'], opts['query'], opts['fragment'] = urlparse(r.path) opts['host'] = r.headers['Host'] opts['header'] = str(r.headers) opts['method'] = r.command opts['body'] = r.body for key, val in opts.items(): if val: yield (key, val) else: yield (key, val) class HTTP_fuzz(TCP_Cache): '''Brute-force HTTP''' usage_hints = [ '''%prog url=http://10.0.0.1/FILE0 0=paths.txt -x ignore:code=404 -x ignore,retry:code=500''', '''%prog url=http://10.0.0.1/manager/html user_pass=COMBO00:COMBO01 0=combos.txt -x ignore:code=401''', '''%prog url=http://10.0.0.1/phpmyadmin/index.php method=POST''' ''' body='pma_username=root&pma_password=FILE0&server=1&lang=en' 0=passwords.txt follow=1''' """ accept_cookie=1 -x ignore:fgrep='Cannot log in to the MySQL server'""", ] available_options = ( ('url', 'target url (scheme://host[:port]/path?query)'), #('host', 'target host'), #('port', 'target port'), #('path', 'web path [/]'), #('query', 'query string'), ('body', 'body data'), ('header', 'use custom headers'), ('method', 'method to use [GET|POST|HEAD|...]'), ('raw_request', 'load request from file'), ('scheme', 'scheme [http|https]'), ('auto_urlencode', 'automatically perform URL-encoding [1|0]'), ('pathasis', 'retain sequences of /../ or /./ [0|1]'), ('user_pass', 'username and password for HTTP authentication (user:pass)'), ('auth_type', 'type of HTTP authentication [basic | digest | ntlm]'), ('follow', 'follow any Location redirect [0|1]'), ('max_follow', 'redirection limit [5]'), ('accept_cookie', 'save received cookies to issue them in future requests [0|1]'), ('proxy', 'proxy to use (host:port)'), ('proxy_type', 'proxy type [http|socks4|socks4a|socks5]'), ('resolve', 'hostname to IP address resolution to use (hostname:IP)'), ('ssl_cert', 'client SSL certificate file (cert+key in PEM format)'), ('timeout_tcp', 'seconds to wait for a TCP handshake [10]'), ('timeout', 'seconds to wait for a HTTP response [20]'), ('before_urls', 'comma-separated URLs to query before the main request'), ('before_header', 'use a custom header in the before_urls request'), ('before_egrep', 'extract data from the before_urls response to place in the main request'), ('after_urls', 'comma-separated URLs to query after the main request'), ('max_mem', 'store no more than N bytes of request+response data in memory [-1 (unlimited)]'), ) available_options += TCP_Cache.available_options Response = Response_HTTP def connect(self, host, port, scheme): fp = pycurl.Curl() fp.setopt(pycurl.SSL_VERIFYPEER, 0) fp.setopt(pycurl.SSL_VERIFYHOST, 0) fp.setopt(pycurl.HEADER, 1) fp.setopt(pycurl.USERAGENT, 'Mozilla/5.0') fp.setopt(pycurl.NOSIGNAL, 1) return TCP_Connection(fp) @staticmethod def perform_fp(fp, method, url, header='', body=''): #logger.debug('perform: %s' % url) fp.setopt(pycurl.URL, url) if method == 'GET': fp.setopt(pycurl.HTTPGET, 1) elif method == 'POST': fp.setopt(pycurl.POST, 1) fp.setopt(pycurl.POSTFIELDS, body) elif method == 'HEAD': fp.setopt(pycurl.NOBODY, 1) else: fp.setopt(pycurl.CUSTOMREQUEST, method) headers = [h.strip('\r') for h in header.split('\n') if h] fp.setopt(pycurl.HTTPHEADER, headers) fp.perform() def execute(self, url=None, host=None, port='', scheme='http', path='/', params='', query='', fragment='', body='', header='', method='GET', auto_urlencode='1', pathasis='0', user_pass='', auth_type='basic', follow='0', max_follow='5', accept_cookie='0', proxy='', proxy_type='http', resolve='', ssl_cert='', timeout_tcp='10', timeout='20', persistent='1', before_urls='', before_header='', before_egrep='', after_urls='', max_mem='-1'): if url: scheme, host, path, params, query, fragment = urlparse(url) del url if host: if ':' in host: host, port = host.split(':') if resolve: resolve_host, resolve_ip = resolve.split(':', 1) if port: resolve_port = port else: resolve_port = 80 resolve = '%s:%s:%s' % (resolve_host, resolve_port, resolve_ip) if proxy_type in proxytype_mapping: proxy_type = proxytype_mapping[proxy_type] else: raise ValueError('Invalid proxy_type %r' % proxy_type) fp, _ = self.bind(host, port, scheme) fp.setopt(pycurl.PATH_AS_IS, int(pathasis)) fp.setopt(pycurl.FOLLOWLOCATION, int(follow)) fp.setopt(pycurl.MAXREDIRS, int(max_follow)) fp.setopt(pycurl.CONNECTTIMEOUT, int(timeout_tcp)) fp.setopt(pycurl.TIMEOUT, int(timeout)) fp.setopt(pycurl.PROXY, proxy) fp.setopt(pycurl.PROXYTYPE, proxy_type) if resolve: fp.setopt(pycurl.RESOLVE, [resolve]) def noop(buf): pass fp.setopt(pycurl.WRITEFUNCTION, noop) def debug_func(t, s): if max_mem > 0 and trace.tell() > max_mem: return 0 if t not in (pycurl.INFOTYPE_HEADER_OUT, pycurl.INFOTYPE_DATA_OUT, pycurl.INFOTYPE_TEXT, pycurl.INFOTYPE_HEADER_IN, pycurl.INFOTYPE_DATA_IN): return 0 s = B(s) if t in (pycurl.INFOTYPE_HEADER_OUT, pycurl.INFOTYPE_DATA_OUT): trace.write(s) elif t == pycurl.INFOTYPE_TEXT and 'upload completely sent off' in s: trace.write('\n\n') elif t in (pycurl.INFOTYPE_HEADER_IN, pycurl.INFOTYPE_DATA_IN): trace.write(s) response.write(s) max_mem = int(max_mem) response, trace = StringIO(), StringIO() fp.setopt(pycurl.DEBUGFUNCTION, debug_func) fp.setopt(pycurl.VERBOSE, 1) if user_pass: fp.setopt(pycurl.USERPWD, user_pass) if auth_type == 'basic': fp.setopt(pycurl.HTTPAUTH, pycurl.HTTPAUTH_BASIC) elif auth_type == 'digest': fp.setopt(pycurl.HTTPAUTH, pycurl.HTTPAUTH_DIGEST) elif auth_type == 'ntlm': fp.setopt(pycurl.HTTPAUTH, pycurl.HTTPAUTH_NTLM) else: raise ValueError('Incorrect auth_type %r' % auth_type) if ssl_cert: fp.setopt(pycurl.SSLCERT, ssl_cert) if accept_cookie == '1': fp.setopt(pycurl.COOKIEFILE, '') # warning: do not pass a Cookie: header into HTTPHEADER if using COOKIEFILE as it will # produce requests with more than one Cookie: header # and the server will process only one of them (eg. Apache only reads the last one) if before_urls: for before_url in before_urls.split(','): self.perform_fp(fp, 'GET', before_url, before_header) if before_egrep: for be in before_egrep.split('|'): mark, regex = be.split(':', 1) val = re.search(regex, response.getvalue(), re.M).group(1) if auto_urlencode == '1': val = html_unescape(val) val = quote(val) header = header.replace(mark, val) query = query.replace(mark, val) body = body.replace(mark, val) response = StringIO() if auto_urlencode == '1': path = quote(path) query = urlencode(parse_query(query, True)) body = urlencode(parse_query(body, True)) if port: host = '%s:%s' % (host, port) url = urlunparse((scheme, host, path, params, query, fragment)) self.perform_fp(fp, method, url, header, body) target = {} target['ip'] = fp.getinfo(pycurl.PRIMARY_IP) target['port'] = fp.getinfo(pycurl.PRIMARY_PORT) target['hostname'] = host for h in header.split('\n'): if ': ' in h: k, v = h.split(': ', 1) if k.lower() == 'host': target['vhost'] = v.rstrip('\r') break if after_urls: for after_url in after_urls.split(','): self.perform_fp(fp, 'GET', after_url) http_code = fp.getinfo(pycurl.HTTP_CODE) content_length = fp.getinfo(pycurl.CONTENT_LENGTH_DOWNLOAD) response_time = fp.getinfo(pycurl.TOTAL_TIME) - fp.getinfo(pycurl.PRETRANSFER_TIME) if persistent == '0': self.reset() return self.Response(http_code, response.getvalue(), response_time, trace.getvalue(), content_length, target) # }}} # RDP Gateway {{{ import uuid class RDP_gateway(HTTP_fuzz): '''Brute-force RDP Gateway''' usage_hints = ( '''%prog url='https://example.com/remoteDesktopGateway/' user_pass=COMBO00:COMBO01 0=combos.txt -x ignore:code=401''', ) @staticmethod def perform_fp(fp, method, url, header='', body=''): method = 'RDG_OUT_DATA' header += '\nRDG-Connection-Id: {%s}' % uuid.uuid4() # if authentication is successful the gateway server hangs and won't send a body fp.setopt(pycurl.NOBODY, 1) HTTP_fuzz.perform_fp(fp, method, url, header) # }}} # AJP {{{ try: from ajpy.ajp import AjpForwardRequest except ImportError: notfound.append('ajpy') class AJP_Connection(TCP_Connection): def close(self): sock, stream = self.fp sock.close() class Response_AJP(Response_HTTP): def __init__(self, code, response, timing=0, trace=None, content_length=-1, target={}): Response_HTTP.__init__(self, code, response, timing, trace, content_length, target) def __str__(self): lines = self.mesg.splitlines() if lines: return lines[0].rstrip('\r') else: return self.mesg def prepare_ajp_forward_request(target_host, req_uri, method): fr = AjpForwardRequest(AjpForwardRequest.SERVER_TO_CONTAINER) fr.method = method fr.protocol = 'HTTP/1.1' fr.req_uri = req_uri fr.remote_addr = target_host fr.remote_host = None fr.server_name = target_host fr.server_port = 80 fr.request_headers = { 'SC_REQ_ACCEPT': 'text/html,application/xhtml+xml,application/xml;q=0.9,image/webp,*/*;q=0.8', 'SC_REQ_CONNECTION': 'keep-alive', 'SC_REQ_CONTENT_LENGTH': '0', 'SC_REQ_HOST': target_host, 'SC_REQ_USER_AGENT': 'Mozilla/5.0 (X11; Linux x86_64; rv:46.0) Gecko/20100101 Firefox/46.0', 'Accept-Encoding': 'gzip, deflate, sdch', 'Accept-Language': 'en-US,en;q=0.5', 'Upgrade-Insecure-Requests': '1', 'Cache-Control': 'max-age=0' } fr.is_ssl = False fr.attributes = [] return fr class AJP_fuzz(TCP_Cache): '''Brute-force AJP''' usage_hints = [ '''%prog url=ajp://10.0.0.1/FILE0 0=paths.txt -x ignore:code=404 -x ignore,retry:code=500''', '''%prog url=ajp://10.0.0.1/manager/html user_pass=COMBO00:COMBO01 0=combos.txt -x ignore:code=401''', ] available_options = ( ('url', 'target url (ajp://host[:port]/path?query)'), ('header', 'use custom headers'), ('user_pass', 'username and password for HTTP authentication (user:pass)'), ) Response = Response_AJP def connect(self, host, port): sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) sock.connect((host, int(port))) stream = sock.makefile('rb', None if PY3 else 0) return AJP_Connection((sock, stream)) def execute(self, url=None, host=None, port='8009', path='/', params='', query='', header='', user_pass='', persistent='1'): if url: scheme, host, path, params, query, fragment = urlparse(url) if ':' in host: host, port = host.split(':') del url req_uri = urlunparse(('', '', path, params, query, fragment)) fr = prepare_ajp_forward_request(host, req_uri, AjpForwardRequest.REQUEST_METHODS.get('GET')) fr.request_headers['SC_REQ_AUTHORIZATION'] = "Basic " + B(b64encode(b(user_pass))) headers = [h.strip('\r') for h in header.split('\n') if h] for h in headers: k, _, v = h.partition(':') fr.request_headers[k] = v (sock, stream), _ = self.bind(host, port) with Timing() as timing: responses = fr.send_and_receive(sock, stream) snd_hdrs_res = responses[0] http_code = snd_hdrs_res.http_status_code http_status_msg = B(snd_hdrs_res.http_status_msg) content_length = int(snd_hdrs_res.response_headers.get('Content-Length', 0)) data_res = responses[1:-1] data = '' for dr in data_res: data += B(dr.data) target = {} target['ip'] = host target['port'] = port if persistent == '0': self.reset() return self.Response(http_code, http_status_msg + '\n' + data, timing, data, content_length, target) # }}} # RDP {{{ if not which('xfreerdp'): notfound.append('xfreerdp') class RDP_login: '''Brute-force RDP (NLA)''' usage_hints = ( '''%prog host=10.0.0.1 user='administrator' password=FILE0 0=passwords.txt''', ) available_options = ( ('host', 'target host'), ('port', 'target port [3389]'), ('user', 'usernames to test'), ('password', 'passwords to test'), ) available_actions = () Response = Response_Base def execute(self, host, port='3389', user=None, password=None): cmd = ['xfreerdp', '/v:%s:%d' % (host, int(port)), '/u:%s' % user, '/p:%s' % password, '/cert:ignore', '/tls-seclevel:0', '+auth-only', '/sec:nla', '/log-level:error'] with Timing() as timing: p = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = map(B, p.communicate()) code = p.returncode mesg = [] m = re.search(' Authentication only, exit status (\d+)', err) if m: mesg.append(('exit', m.group(1))) m = re.search(' (ERR.+?) ', err) if m: mesg.append(('err', m.group(1))) mesg = ', '.join([f'{k}: {v}' for k, v in mesg]) trace = '%s\n[out]\n%s\n[err]\n%s\n' % (' '.join(cmd), out, err) return self.Response(code, mesg, timing, trace) # }}} # VNC {{{ try: from Cryptodome.Cipher import DES except ImportError: notfound.append('pycrypto') class VNC_Error(Exception): pass class VNC: def connect(self, host, port, timeout): self.fp = socket.create_connection((host, port), timeout=timeout) resp = self.fp.recv(99) # banner logger.debug('banner: %r' % resp) self.version = B(resp[:11]) if len(resp) > 12: raise VNC_Error('%s %r' % (self.version, B(resp[12:]))) return self.version def login(self, password): logger.debug('Remote version: %r' % self.version) major, minor = self.version[6], self.version[10] if (major, minor) in [('3', '8'), ('4', '1')]: proto = 'RFB 003.008\n' elif (major, minor) == ('3', '7'): proto = 'RFB 003.007\n' else: proto = 'RFB 003.003\n' logger.debug('Client version: %r' % proto[:-1]) self.fp.sendall(b(proto)) sleep(0.5) resp = self.fp.recv(99) logger.debug('Security types supported: %r' % resp) if major == '4' or (major == '3' and int(minor) >= 7): code = ord(resp[0:1]) if code == 0: raise VNC_Error('Session setup failed: %s' % B(resp)) self.fp.sendall(b'\x02') # always use classic VNC authentication resp = self.fp.recv(99) else: # minor == '3': code = ord(resp[3:4]) if code != 2: raise VNC_Error('Session setup failed: %s' % B(resp)) resp = resp[-16:] if len(resp) != 16: raise VNC_Error('Unexpected challenge size (No authentication required? Unsupported authentication type?)') logger.debug('challenge: %r' % resp) pw = password.ljust(8, '\x00')[:8] # make sure it is 8 chars long, zero padded key = self.gen_key(pw) logger.debug('key: %r' % key) des = DES.new(key, DES.MODE_ECB) enc = des.encrypt(resp) logger.debug('enc: %r' % enc) self.fp.sendall(enc) resp = self.fp.recv(99) logger.debug('resp: %r' % resp) code = ord(resp[3:4]) mesg = B(resp[8:]) if code == 1: return code, mesg or 'Authentication failure' elif code == 0: return code, mesg or 'OK' else: raise VNC_Error('Unknown response: %r (code: %s)' % (resp, code)) def gen_key(self, key): newkey = [] for ki in range(len(key)): bsrc = ord(key[ki]) btgt = 0 for i in range(8): if bsrc & (1 << i): btgt = btgt | (1 << 7-i) newkey.append(btgt) if PY3: return bytes(newkey) else: return ''.join(chr(c) for c in newkey) class VNC_login: '''Brute-force VNC''' usage_hints = ( '''%prog host=10.0.0.1 password=FILE0 0=passwords.txt -t 1 -x 'retry:fgrep!=Authentication failure' --max-retries -1 -x quit:code=0''', ) available_options = ( ('host', 'target host'), ('port', 'target port [5900]'), ('password', 'passwords to test'), ('timeout', 'seconds to wait for a response [10]'), ) available_actions = () Response = Response_Base def execute(self, host, port=None, password=None, timeout='10'): v = VNC() try: with Timing() as timing: code, mesg = 0, v.connect(host, int(port or 5900), int(timeout)) if password is not None: with Timing() as timing: code, mesg = v.login(password) except VNC_Error as e: logger.debug('VNC_Error: %s' % e) code, mesg = 2, str(e) return self.Response(code, mesg, timing) # }}} # DNS {{{ try: import dns.rdatatype import dns.message import dns.query import dns.reversename except ImportError: notfound.append('dnspython') def dns_query(server, timeout, protocol, qname, qtype, qclass): request = dns.message.make_query(qname, qtype, qclass) if protocol == 'tcp': response = dns.query.tcp(request, server, timeout=timeout, one_rr_per_rrset=True) else: response = dns.query.udp(request, server, timeout=timeout, one_rr_per_rrset=True) if response.flags & dns.flags.TC: response = dns.query.tcp(request, server, timeout=timeout, one_rr_per_rrset=True) return response def generate_tld(): # NB. does not return an exhaustive list (ie. missing co.uk, co.nz etc.) from itertools import product from string import ascii_lowercase # http://data.iana.org/TLD/tlds-alpha-by-domain.txt gtld = ['academy', 'actor', 'aero', 'agency', 'archi', 'arpa', 'asia', 'axa', 'bar', 'bargains', 'berlin', 'best', 'bid', 'bike', 'biz', 'black', 'blue', 'boutique', 'build', 'builders', 'buzz', 'cab', 'camera', 'camp', 'cards', 'careers', 'cat', 'catering', 'center', 'ceo', 'cheap', 'christmas', 'cleaning', 'clothing', 'club', 'codes', 'coffee', 'cologne', 'com', 'community', 'company', 'computer', 'condos', 'construction', 'contractors', 'cooking', 'cool', 'coop', 'country', 'cruises', 'dance', 'dating', 'democrat', 'diamonds', 'directory', 'dnp', 'domains', 'edu', 'education', 'email', 'enterprises', 'equipment', 'estate', 'events', 'expert', 'exposed', 'farm', 'fish', 'fishing', 'flights', 'florist', 'foundation', 'futbol', 'gallery', 'gift', 'glass', 'gov', 'graphics', 'guitars', 'guru', 'haus', 'holdings', 'holiday', 'horse', 'house', 'immobilien', 'industries', 'info', 'ink', 'institute', 'int', 'international', 'jetzt', 'jobs', 'kaufen', 'kim', 'kitchen', 'kiwi', 'koeln', 'kred', 'land', 'lighting', 'limo', 'link', 'london', 'luxury', 'maison', 'management', 'mango', 'marketing', 'meet', 'menu', 'miami', 'mil', 'mobi', 'moda', 'moe', 'monash', 'museum', 'nagoya', 'name', 'net', 'neustar', 'ninja', 'nyc', 'okinawa', 'onl', 'org', 'partners', 'parts', 'photo', 'photography', 'photos', 'pics', 'pink', 'plumbing', 'post', 'pro', 'productions', 'properties', 'pub', 'qpon', 'recipes', 'red', 'ren', 'rentals', 'repair', 'report', 'reviews', 'rich', 'rodeo', 'ruhr', 'sexy', 'shiksha', 'shoes', 'singles', 'social', 'sohu', 'solar', 'solutions', 'supplies', 'supply', 'support', 'systems', 'tattoo', 'technology', 'tel', 'tienda', 'tips', 'today', 'tokyo', 'tools', 'trade', 'training', 'travel', 'uno', 'vacations', 'vegas', 'ventures', 'viajes', 'villas', 'vision', 'vodka', 'vote', 'voting', 'voto', 'voyage', 'wang', 'watch', 'webcam', 'wed', 'wien', 'wiki', 'works', 'xn--3bst00m', 'xn--3ds443g', 'xn--3e0b707e', 'xn--45brj9c', 'xn--55qw42g', 'xn--55qx5d', 'xn--6frz82g', 'xn--6qq986b3xl', 'xn--80ao21a', 'xn--80asehdb', 'xn--80aswg', 'xn--90a3ac', 'xn--c1avg', 'xn--cg4bki', 'xn--clchc0ea0b2g2a9gcd', 'xn--czru2d', 'xn--d1acj3b', 'xn--fiq228c5hs', 'xn--fiq64b', 'xn--fiqs8s', 'xn--fiqz9s', 'xn--fpcrj9c3d', 'xn--fzc2c9e2c', 'xn--gecrj9c', 'xn--h2brj9c', 'xn--i1b6b1a6a2e', 'xn--io0a7i', 'xn--j1amh', 'xn--j6w193g', 'xn--kprw13d', 'xn--kpry57d', 'xn--l1acc', 'xn--lgbbat1ad8j', 'xn--mgb9awbf', 'xn--mgba3a4f16a', 'xn--mgbaam7a8h', 'xn--mgbab2bd', 'xn--mgbayh7gpa', 'xn--mgbbh1a71e', 'xn--mgbc0a9azcg', 'xn--mgberp4a5d4ar', 'xn--mgbx4cd0ab', 'xn--ngbc5azd', 'xn--nqv7f', 'xn--nqv7fs00ema', 'xn--o3cw4h', 'xn--ogbpf8fl', 'xn--p1ai', 'xn--pgbs0dh', 'xn--q9jyb4c', 'xn--rhqv96g', 'xn--s9brj9c', 'xn--unup4y', 'xn--wgbh1c', 'xn--wgbl6a', 'xn--xkc2al3hye2a', 'xn--xkc2dl3a5ee0h', 'xn--yfro4i67o', 'xn--ygbi2ammx', 'xn--zfr164b', 'xxx', 'xyz', 'zone'] cctld = [''.join(i) for i in product(*[ascii_lowercase]*2)] tld = gtld + cctld return tld, len(tld) def generate_srv(): common = [ '_gc._tcp', '_kerberos._tcp', '_kerberos._udp', '_ldap._tcp', '_test._tcp', '_sips._tcp', '_sip._udp', '_sip._tcp', '_aix._tcp', '_aix._udp', '_finger._tcp', '_ftp._tcp', '_http._tcp', '_nntp._tcp', '_telnet._tcp', '_whois._tcp', '_h323cs._tcp', '_h323cs._udp', '_h323be._tcp', '_h323be._udp', '_h323ls._tcp', '_h323ls._udp', '_sipinternal._tcp', '_sipinternaltls._tcp', '_sip._tls', '_sipfederationtls._tcp', '_jabber._tcp', '_xmpp-server._tcp', '_xmpp-client._tcp', '_imap.tcp', '_certificates._tcp', '_crls._tcp', '_pgpkeys._tcp', '_pgprevokations._tcp', '_cmp._tcp', '_svcp._tcp', '_crl._tcp', '_ocsp._tcp', '_PKIXREP._tcp', '_smtp._tcp', '_hkp._tcp', '_hkps._tcp', '_jabber._udp', '_xmpp-server._udp', '_xmpp-client._udp', '_jabber-client._tcp', '_jabber-client._udp', '_adsp._domainkey', '_policy._domainkey', '_domainkey', '_ldap._tcp.dc._msdcs', '_ldap._udp.dc._msdcs'] def distro(): import os import re files = ['/usr/share/nmap/nmap-protocols', '/usr/share/nmap/nmap-services', '/etc/protocols', '/etc/services'] ret = [] for filepath in files: if not os.path.isfile(filepath): logger.warn("File '%s' is missing, there will be less records to test" % filepath) continue with open(filepath, 'rb') as f: for line in f: match = re.match(r'([a-zA-Z0-9]+)\s', B(line)) if not match: continue for w in re.split(r'[^a-z0-9]', match.group(1).strip().lower()): ret.extend(['_%s.%s' % (w, i) for i in ('_tcp', '_udp')]) return ret srv = set(common + distro()) return srv, len(srv) class HostInfo: def __init__(self): self.name = set() self.ip = set() self.alias = set() def __str__(self): line = '' if self.name: line = ' '.join(self.name) if self.ip: if line: line += ' / ' line += ' '.join(map(str, self.ip)) if self.alias: if line: line += ' / ' line += ' '.join(self.alias) return line class Controller_DNS(Controller): records = defaultdict(list) hostmap = defaultdict(HostInfo) # show_final {{{ def show_final(self): ''' Expected output: Records ----- ftp.example.com. IN A 10.0.1.1 www.example.com. IN A 10.0.1.1 prod.example.com. IN CNAME www.example.com. ipv6.example.com. IN AAAA dead:beef:: dev.example.com. IN A 10.0.1.2 svn.example.com. IN A 10.0.2.1 websrv1.example.com. IN CNAME prod.example.com. blog.example.com. IN CNAME example.wordpress.com. ''' print('Records ' + '-'*42) for name, infos in sorted(self.records.items()): for qclass, qtype, rdata in infos: print('%34s %4s %-7s %s' % (name, qclass, qtype, rdata)) ''' Expected output: Hostmap ------ ipv6.example.com dead:beef:: ftp.example.com 10.0.1.1 www.example.com 10.0.1.1 prod.example.com websrv1.example.com dev.example.com 10.0.1.2 svn.example.com 10.0.2.1 example.wordpress.com ? blog.example.com Domains --------------------------- example.com 8 Networks -------------------------- dead:beef:: 10.0.1.x 10.0.2.1 ''' ipmap = defaultdict(HostInfo) noips = defaultdict(list) ''' hostmap = { 'www.example.com': {'ip': ['10.0.1.1'], 'alias': ['prod.example.com']}, 'ftp.example.com': {'ip': ['10.0.1.1'], 'alias': []}, 'prod.example.com': {'ip': [], 'alias': ['websrv1.example.com']}, 'ipv6.example.com': {'ip': ['dead:beef::'], 'alias': []}, 'dev.example.com': {'ip': ['10.0.1.2'], 'alias': []}, 'example.wordpress.com': {'ip': [], 'alias': ['blog.example.com']}, ipmap = {'10.0.1.1': {'name': ['www.example.com', 'ftp.example.com'], 'alias': ['prod.example.com', 'websrv1.example.com']}, ... noips = {'example.wordpress.com': ['blog.example.com'], ''' for name, hinfo in self.hostmap.items(): for ip in hinfo.ip: ip = IP(ip) ipmap[ip].name.add(name) ipmap[ip].alias.update(hinfo.alias) for name, hinfo in self.hostmap.items(): if not hinfo.ip and hinfo.alias: found = False for ip, v in ipmap.items(): if name in v.alias: for alias in hinfo.alias: ipmap[ip].alias.add(alias) found = True if not found: # orphan CNAME hostnames (with no IP address) may be still valid virtual hosts noips[name].extend(hinfo.alias) print('Hostmap ' + '-'*42) for ip, hinfo in sorted(ipmap.items()): for name in hinfo.name: print('%34s %s' % (name, ip)) for alias in hinfo.alias: print('%34s' % alias) for k, v in noips.items(): print('%34s ?' % k) for alias in v: print('%34s' % alias) print('Domains ' + '-'*42) domains = {} for ip, hinfo in ipmap.items(): for name in hinfo.name.union(hinfo.alias): if name.count('.') > 1: i = 1 else: i = 0 d = '.'.join(name.split('.')[i:]) if d not in domains: domains[d] = 0 domains[d] += 1 for domain, count in sorted(domains.items(), key=lambda a: a[0].split('.')[-1::-1]): print('%34s %d' % (domain, count)) print('Networks ' + '-'*41) nets = {} for ip in set(ipmap): if not ip.version() == 4: nets[ip] = [ip] else: n = ip.make_net('255.255.255.0') if n not in nets: nets[n] = [] nets[n].append(ip) for net, ips in sorted(nets.items()): if len(ips) == 1: print(' '*34 + ' %s' % ips[0]) else: print(' '*34 + ' %s.x' % '.'.join(str(net).split('.')[:-1])) # }}} def push_final(self, resp): if hasattr(resp, 'rrs'): for rr in resp.rrs: name, qclass, qtype, data = rr info = (qclass, qtype, data) if info not in self.records[name]: self.records[name].append(info) if not qclass == 'IN': continue if qtype == 'PTR': data = data[:-1] self.hostmap[data].ip.add(name) else: if qtype in ('A', 'AAAA'): name = name[:-1] self.hostmap[name].ip.add(data) elif qtype == 'CNAME': name, data = name[:-1], data[:-1] self.hostmap[data].alias.add(name) class DNS_reverse: '''Reverse DNS lookup''' usage_hints = [ '''%prog host=NET0 0=192.168.0.0/24 -x ignore:code=3''', '''%prog host=NET0 0=216.239.32.0-216.239.47.255,8.8.8.0/24 -x ignore:code=3 -x ignore:fgrep!=google.com -x ignore:fgrep=216-239-''', ] available_options = ( ('host', 'IP addresses to reverse lookup'), ('server', 'name server to query (directly asking a zone authoritative NS may return more results) [8.8.8.8]'), ('timeout', 'seconds to wait for a response [5]'), ('protocol', 'send queries over udp or tcp [udp]'), ) available_actions = () Response = Response_Base def execute(self, host, server='8.8.8.8', timeout='5', protocol='udp'): with Timing() as timing: response = dns_query(server, int(timeout), protocol, dns.reversename.from_address(host), qtype='PTR', qclass='IN') rcode = response.rcode() code = int(rcode) status = dns.rcode.to_text(rcode) rrs = [[host, c, t, d] for _, _, c, t, d in [rr.to_text().split(' ', 4) for rr in response.answer]] mesg = '%s %s' % (status, ''.join('[%s]' % ' '.join(rr) for rr in rrs)) resp = self.Response(code, mesg, timing) resp.rrs = rrs return resp class DNS_forward: '''Forward DNS lookup''' usage_hints = [ '''%prog name=FILE0.google.com 0=names.txt -x ignore:code=3''', '''%prog name=google.MOD0 0=TLD -x ignore:code=3''', '''%prog name=MOD0.microsoft.com 0=SRV qtype=SRV -x ignore:code=3''', ] available_options = ( ('name', 'domain names to lookup'), ('server', 'name server to query (directly asking the zone authoritative NS may return more results) [8.8.8.8]'), ('timeout', 'seconds to wait for a response [5]'), ('protocol', 'send queries over udp or tcp [udp]'), ('qtype', 'type to query [ANY]'), ('qclass', 'class to query [IN]'), ) available_actions = () available_keys = { 'TLD': generate_tld, 'SRV': generate_srv, } Response = Response_Base def execute(self, name, server='8.8.8.8', timeout='5', protocol='udp', qtype='ANY', qclass='IN'): with Timing() as timing: response = dns_query(server, int(timeout), protocol, name, qtype=qtype, qclass=qclass) rcode = response.rcode() code = int(rcode) status = dns.rcode.to_text(rcode) rrs = [[n, c, t, d] for n, _, c, t, d in [rr.to_text().split(' ', 4) for rr in response.answer + response.additional + response.authority]] mesg = '%s %s' % (status, ''.join('[%s]' % ' '.join(rr) for rr in rrs)) resp = self.Response(code, mesg, timing) resp.rrs = rrs return resp # }}} # SNMP {{{ try: from pysnmp.hlapi import getCmd, SnmpEngine, CommunityData, UsmUserData from pysnmp.hlapi import UdpTransportTarget, ContextData, ObjectType, ObjectIdentity from pysnmp.hlapi import usmHMACMD5AuthProtocol, usmHMACSHAAuthProtocol, usmHMAC384SHA512AuthProtocol from pysnmp.hlapi import usmDESPrivProtocol, usmAesCfb128Protocol SNMP_AUTHPROTO = {'md5': usmHMACMD5AuthProtocol, 'sha': usmHMACSHAAuthProtocol, 'sha512': usmHMAC384SHA512AuthProtocol} SNMP_PRIVPROTO = {'des': usmDESPrivProtocol, 'aes': usmAesCfb128Protocol} except ImportError: notfound.append('pysnmp') try: import pyasn1 except ImportError: notfound.append('pyasn1') class SNMP_login: '''Brute-force SNMP v1/2/3''' usage_hints = ( """%prog host=10.0.0.1 version=2 community=FILE0 0=names.txt -x ignore:mesg='No SNMP response received before timeout'""", """%prog host=10.0.0.1 version=3 user=FILE0 0=logins.txt -x ignore:mesg=unknownUserName""", """%prog host=10.0.0.1 version=3 user=myuser auth_key=FILE0 0=passwords.txt -x ignore:mesg=wrongDigest""", ) available_options = ( ('host', 'target host'), ('port', 'target port [161]'), ('version', 'SNMP version to use [2|3|1]'), ('community', 'SNMPv1/2c community names to test [public]'), ('user', 'SNMPv3 usernames to test [op5user]'), ('auth_key', 'SNMPv3 passwords to test [authPass]'), ('auth_proto', 'SNMPv3 authentication protocol [md5|sha|sha512]'), ('priv_key', 'SNMPv3 encryption key'), ('priv_proto', 'SNMPv3 encryption protocol [des|aes]'), ('timeout', 'seconds to wait for a response [1]'), ('retries', 'number of successive request retries [2]'), ) available_actions = () Response = Response_Base def execute(self, host, port=None, version='2', community='public', user='op5user', auth_key='authPass', auth_proto='md5', priv_key='', priv_proto='des', timeout='1', retries='2'): if version in ('1', '2', '2c'): security_model = CommunityData(community, mpModel=0 if version == '1' else 1) elif version == '3': if auth_proto not in SNMP_AUTHPROTO: raise ValueError('Unsupported SNMPv3 auth protocol %r' % auth_proto) if priv_proto not in SNMP_PRIVPROTO: raise ValueError('Unsupported SNMPv3 priv protocol %r' % priv_proto) if len(auth_key) < 8 or priv_key and len(priv_key) < 8: return self.Response('1', 'SNMPv3 requires passwords to be at least 8 characters long') kwargs = dict(authKey=auth_key, authProtocol=SNMP_AUTHPROTO[auth_proto]) if priv_key: kwargs.update(dict(privKey=priv_key, privProtocol=SNMP_PRIVPROTO[priv_proto])) security_model = UsmUserData(user, **kwargs) else: raise ValueError('Incorrect SNMP version %r' % version) with Timing() as timing: errorIndication, errorStatus, errorIndex, varBinds = next( getCmd( SnmpEngine(), security_model, UdpTransportTarget((host, int(port or 161)), timeout=int(timeout), retries=int(retries)), ContextData(), ObjectType(ObjectIdentity('SNMPv2-MIB', 'sysDescr', 0))) #(1, 3, 6, 1, 2, 1, 1, 1, 0) ) if errorIndication: mesg = '%s' % errorIndication elif errorStatus: mesg = '%s' % (errorStatus.prettyPrint()) if errorIndex > 0: mesg += ' %s' % varBinds[int(errorIndex) - 1][0] else: mesg = ''.join(' = '.join([x.prettyPrint() for x in varBind]) for varBind in varBinds) return self.Response(int(errorStatus), mesg, timing) # }}} # IKE {{{ if not which('ike-scan'): notfound.append('ike-scan') # http://www.iana.org/assignments/ipsec-registry/ipsec-registry.xhtml (except for vendor specifics.) These transforms below are IKEv1 only. IKEv2 is not assessed. IKE_ENC = [('1', 'DES'), ('2', 'IDEA'), ('3', 'BLOWFISH'), ('4', 'RC5'), ('5', '3DES'), ('6', 'CAST'), ('7/128', 'AES128'), ('7/192', 'AES192'), ('7/256', 'AES256'), ('8', 'Camellia'), ('65001', 'Mars'), ('65002', 'RC6'), ('65004', 'Serpent'), ('65005', 'Twofish')] IKE_HASH = [('1', 'MD5'), ('2', 'SHA1'), ('3', 'Tiger'), ('4', 'SHA2-256'), ('5', 'SHA2-384'), ('6', 'SHA2-512')] IKE_AUTH = [('1', 'PSK'), ('2', 'DSS-Sig'), ('3', 'RSA-Sig'), ('4', 'RSA-Enc'), ('5', 'Revised-RSA-Enc'), ('6', 'EIGAMEL-Enc'), ('7', 'Revised-EIGAMEL-Enc'), #('8', 'ECDSA-Sig'), # Reserved #('9', 'ECDSA-SHA-256'), ('10', 'ECDSA-SHA-384'), ('11', 'ECDSA-SHA-512'), # RFC4754 ('128', 'Harkins-CRACK'), # https://tools.ietf.org/html/draft-harkins-ipsec-ike-crack-00.txt ('64221', 'Hybrid-RSA-Sig'), ('64223', 'Hybrid-DSS-Sig'), ('65001', 'XAUTH&PSK')] #, ('65003', 'XAUTH&DSS-Sig'), ('65005', 'XAUTH&RSA-Sig'), ('65007', 'XAUTH&RSA-Enc'), ('65009', 'XAUTH&Revised-RSA-Enc')] IKE_GROUP = [('1', 'modp768'), ('2', 'modp1024'), ('5', 'modp1536'), #('3', 'ec2n155'), ('4', 'ec2n185'), # ('6', 'ec2n163'), ('7', 'ec2n163'), ('8', 'ec2n283'), ('9', 'ec2n283'), ('10', 'ec2n409'), ('11', 'ec2n409'), ('12', 'ec2n571'), ('13', 'ec2n571'), # only in draft, not RFC ('14', 'modp2048')] #, ('15', 'modp3072'), ('16', 'modp4096'), ('17', 'modp6144'), ('18', 'modp8192')] # RFC3526 # ('19', 'ecp256'), ('20', 'ecp384'), ('21', 'ecp521'), ('22', 'modp1024s160'), ('23', 'modp2048s224'), ('24', 'modp2048s256'), ('25', 'ecp192'), ('26', 'ecp224'), # RFC5903 # ('27', 'brainpoolP224r1'), ('28', 'brainpoolP256r1'), ('29', 'brainpoolP384r1'), ('30', 'brainpoolP512r1')] # RFC6932 def generate_transforms(): lists = list(map(lambda l: [i[0] for i in l], [IKE_ENC, IKE_HASH, IKE_AUTH, IKE_GROUP])) return map(lambda p: ','.join(p), product(*[chain(l) for l in lists])), reduce(lambda x, y: x*y, map(len, lists)) class Controller_IKE(Controller): results = defaultdict(list) def show_final(self): ''' Expected output: + 10.0.0.1:500 (Main Mode) Encryption Hash Auth Group ---------- ---------- ---------- ---------- 3DES MD5 PSK modp1024 3DES MD5 XAUTH modp1024 AES128 SHA1 PSK modp1024 AES128 SHA1 XAUTH modp1024 + 10.0.0.1:500 (Aggressive Mode) Encryption Hash Auth Group ---------- ---------- ---------- ---------- 3DES MD5 PSK modp1024 3DES MD5 XAUTH modp1024 AES128 SHA1 PSK modp1024 AES128 SHA1 XAUTH modp1024 ''' ike_enc = dict(IKE_ENC) ike_hsh = dict(IKE_HASH) ike_ath = dict(IKE_AUTH) ike_grp = dict(IKE_GROUP) for endpoint, transforms in self.results.items(): print('\n+ %s' % endpoint) print(' %10s %10s %12s %10s' % ('Encryption', 'Hash', 'Auth', 'Group')) print(' %10s %10s %12s %10s' % ('-'*10, '-'*10, '-'*10, '-'*10)) for transform in transforms: e, h, a, g = transform.split(',') enc = ike_enc[e] hsh = ike_hsh[h] ath = ike_ath[a] grp = ike_grp[g] print(' %10s %10s %12s %10s' % (enc, hsh, ath, grp)) def push_final(self, resp): if hasattr(resp, 'rrs'): endpoint, transform = resp.rrs self.results[endpoint].append(transform) class IKE_enum: '''Enumerate IKE transforms''' usage_hints = [ '''%prog host=10.0.0.1 transform=MOD0 0=TRANS -x ignore:fgrep=NO-PROPOSAL''', '''%prog host=10.0.0.1 transform=MOD0 0=TRANS -x ignore:fgrep=NO-PROPOSAL aggressive=RANGE1 1=int:0-1''', ] available_options = ( ('host', 'target host'), ('port', 'target port [500]'), ('transform', 'transform to test [5,1,1,2]'), ('aggressive', 'use aggressive mode [0|1]'), ('groupname', 'identification value for aggressive mode [foo]'), ('vid', 'comma-separated vendor IDs to use'), ) available_actions = () available_keys = { 'TRANS': generate_transforms, } Response = Response_Base def __init__(self): uid = multiprocessing.current_process().name[9:] self.sport = '51%d' % int(uid) def execute(self, host, port='500', transform='5,1,1,2', aggressive='0', groupname='foo', vid=''): cmd = ['ike-scan', '-M', '--sport', self.sport, host, '--dport', port, '--trans', transform] if aggressive == '1': cmd.append('-A') if groupname: cmd.extend(['--id', groupname]) for v in vid.split(','): cmd.extend(['--vendor', v]) with Timing() as timing: p = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = map(B, p.communicate()) code = p.returncode trace = '%s\n[out]\n%s\n[err]\n%s\n' % (' '.join(cmd), out, err) logger.debug('trace: %r' % trace) has_sa = 'SA=(' in out if has_sa: mesg = 'Handshake returned: %s (%s)' % (re.search('SA=\((.+) LifeType', out).group(1), re.search('\t(.+) Mode Handshake returned', out).group(1)) else: try: mesg = out.strip().split('\n')[1].split('\t')[-1] except: mesg = ' '.join(repr(s) for s in filter(None, [out, err])) resp = self.Response(code, mesg, timing, trace) if has_sa: endpoint = '%s:%s (%s Mode)' % (host, port, 'Aggressive' if aggressive == '1' else 'Main') resp.rrs = endpoint, transform return resp # }}} # Unzip {{{ if not which('unzip'): notfound.append('unzip') class Unzip_pass: '''Brute-force the password of encrypted ZIP files''' usage_hints = [ """%prog zipfile=file.zip password=FILE0 0=passwords.txt -x ignore:code!=0""", ] available_options = ( ('zipfile', 'ZIP files to test'), ('password', 'passwords to test'), ) available_actions = () Response = Response_Base def execute(self, zipfile, password): zipfile = os.path.abspath(zipfile) cmd = ['unzip', '-t', '-q', '-P', password, zipfile] with Timing() as timing: p = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = map(B, p.communicate()) code = p.returncode mesg = out.strip() trace = '%s\n[out]\n%s\n[err]\n%s\n' % (' '.join(cmd), out, err) return self.Response(code, mesg, timing, trace) # }}} # Keystore {{{ if not which('keytool'): notfound.append('java') class Keystore_pass: '''Brute-force the password of Java keystore files''' usage_hints = [ """%prog keystore=keystore.jks password=FILE0 0=passwords.txt -x ignore:fgrep='password was incorrect'""", ] available_options = ( ('keystore', 'keystore files to test'), ('password', 'passwords to test'), ('storetype', 'type of keystore to test'), ) available_actions = () Response = Response_Base def execute(self, keystore, password, storetype='jks'): keystore = os.path.abspath(keystore) cmd = ['keytool', '-list', '-keystore', keystore, '-storepass', password, '-storetype', storetype] with Timing() as timing: p = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = map(B, p.communicate()) code = p.returncode mesg = out.strip() trace = '%s\n[out]\n%s\n[err]\n%s\n' % (' '.join(cmd), out, err) return self.Response(code, mesg, timing, trace) # }}} # SQLCipher {{{ try: if PY3: from pysqlcipher3 import dbapi2 as sqlcipher else: from pysqlcipher import dbapi2 as sqlcipher except ImportError: notfound.append('pysqlcipher') class SQLCipher_pass: '''Brute-force the password of SQLCipher-encrypted databases''' usage_hints = [ """%prog database=db.sqlite password=FILE0 0=passwords.txt -x ignore:fgrep='file is encrypted'""", ] available_options = ( ('database', 'database files to test'), ('password', 'passwords to test'), ) available_actions = () Response = Response_Base def execute(self, database, password): with sqlcipher.connect(database) as db: c = db.cursor() c.execute('PRAGMA key=%r' % password) try: c.execute('PRAGMA integrity_check') code, mesg = '0', 'OK' except sqlcipher.DatabaseError as e: code, mesg = '1', str(e) return self.Response(code, mesg) # }}} # Umbraco {{{ import hmac class Umbraco_crack: '''Crack Umbraco HMAC-SHA1 password hashes''' usage_hints = ( '''%prog hashlist=@umbraco_users.pw password=FILE0 0=passwords.txt''', ) available_options = ( ('hashlist', 'hashes to crack'), ('password', 'password to test'), ) available_actions = () Response = Response_Base def execute(self, password, hashlist): p = password.encode('utf-16-le') h = B(b64encode(hmac.new(p, p, digestmod=hashlib.sha1).digest())) if h not in hashlist: code, mesg = 1, 'fail' else: cracked = [line.rstrip() for line in hashlist.split('\n') if h in line] code, mesg = 0, ' '.join(cracked) return self.Response(code, mesg) # }}} # TCP Fuzz {{{ class TCP_fuzz: '''Fuzz TCP services''' usage_hints = ( '''%prog host=10.0.0.1 port=10000 data=RANGE0 0=hex:0x00-0xffffff''', ) available_options = ( ('host', 'target host'), ('port', 'target port'), ('timeout', 'seconds to wait for a response [10]'), ('ssl', 'use SSL/TLS [0|1]'), ) available_actions = () Response = Response_Base def execute(self, host, port, data='', timeout='2', ssl='0'): fp = socket.create_connection((host, port), int(timeout)) if ssl != '0': fp = wrap_socket(fp) fp.send(unhexlify(data)) #fp.send(b(data)) with Timing() as timing: resp = fp.recv(1024) fp.close() code = 0 #mesg = B(hexlify(resp)) mesg = B(resp) return self.Response(code, mesg, timing) # }}} # Dummy Test {{{ def generate_tst(): return ['prd', 'dev'], 2 class Dummy_test: '''Testing module''' usage_hints = ( """%prog data=_@@_RANGE0_@@_ 0=hex:0x00-0xff -e _@@_:unhex""", """%prog data=RANGE0 0=int:10-0""", """%prog data=PROG0 0='seq -w 10 -1 0'""", """%prog data=PROG0 0='mp64.bin -i ?l?l?l',$(mp64.bin --combination -i ?l?l?l)""", ) available_options = ( ('data', 'data to test'), ('data2', 'data2 to test'), ('delay', 'fake random delay'), ) available_actions = () available_keys = { 'TST': generate_tst, } Response = Response_Base def execute(self, data, data2='', delay='1'): code, mesg = 0, '%s / %s' % (data, data2) with Timing() as timing: sleep(random.randint(0, int(delay)*1000)/1000.0) return self.Response(code, mesg, timing) # }}} # modules {{{ modules = [ ('ftp_login', (Controller, FTP_login)), ('ssh_login', (Controller, SSH_login)), ('telnet_login', (Controller, Telnet_login)), ('smtp_login', (Controller, SMTP_login)), ('smtp_vrfy', (Controller, SMTP_vrfy)), ('smtp_rcpt', (Controller, SMTP_rcpt)), ('finger_lookup', (Controller_Finger, Finger_lookup)), ('http_fuzz', (Controller_HTTP, HTTP_fuzz)), ('rdp_gateway', (Controller_HTTP, RDP_gateway)), ('ajp_fuzz', (Controller, AJP_fuzz)), ('pop_login', (Controller, POP_login)), ('pop_passd', (Controller, POP_passd)), ('imap_login', (Controller, IMAP_login)), ('ldap_login', (Controller, LDAP_login)), ('dcom_login', (Controller, DCOM_login)), ('smb_login', (Controller, SMB_login)), ('smb_lookupsid', (Controller, SMB_lookupsid)), ('rlogin_login', (Controller, Rlogin_login)), ('vmauthd_login', (Controller, VMauthd_login)), ('mssql_login', (Controller, MSSQL_login)), ('oracle_login', (Controller, Oracle_login)), ('mysql_login', (Controller, MySQL_login)), ('mysql_query', (Controller, MySQL_query)), ('rdp_login', (Controller, RDP_login)), ('pgsql_login', (Controller, Pgsql_login)), ('vnc_login', (Controller, VNC_login)), ('dns_forward', (Controller_DNS, DNS_forward)), ('dns_reverse', (Controller_DNS, DNS_reverse)), ('snmp_login', (Controller, SNMP_login)), ('ike_enum', (Controller_IKE, IKE_enum)), ('unzip_pass', (Controller, Unzip_pass)), ('keystore_pass', (Controller, Keystore_pass)), ('sqlcipher_pass', (Controller, SQLCipher_pass)), ('umbraco_crack', (Controller, Umbraco_crack)), ('tcp_fuzz', (Controller, TCP_fuzz)), ('dummy_test', (Controller, Dummy_test)), ] dependencies = { 'paramiko': [('ssh_login',), 'http://www.paramiko.org/', '2.7.1'], 'telnetlib': [('telnet_login',), 'telnetlib was removed in Python 3.13', '<= 3.12'], 'pycurl': [('http_fuzz', 'rdp_gateway'), 'http://pycurl.io/', '7.43.0'], 'libcurl': [('http_fuzz', 'rdp_gateway'), 'https://curl.haxx.se/', '7.58.0'], 'ajpy': [('ajp_fuzz',), 'https://github.com/hypn0s/AJPy/', '0.0.4'], 'openldap': [('ldap_login',), 'http://www.openldap.org/', '2.4.45'], 'impacket': [('smb_login', 'smb_lookupsid', 'dcom_login', 'mssql_login'), 'https://github.com/CoreSecurity/impacket', '0.9.20'], 'pyopenssl': [('mssql_login',), 'https://pyopenssl.org/', '19.1.0'], 'cx_Oracle': [('oracle_login',), 'http://cx-oracle.sourceforge.net/', '7.3.0'], 'mysqlclient': [('mysql_login',), 'https://github.com/PyMySQL/mysqlclient-python', '1.4.6'], 'xfreerdp': [('rdp_login',), 'https://github.com/FreeRDP/FreeRDP.git', '1.2.0-beta1'], 'psycopg': [('pgsql_login',), 'http://initd.org/psycopg/', '2.8.4'], 'pycrypto': [('smb_login', 'smb_lookupsid', 'mssql_login', 'vnc_login',), 'http://www.dlitz.net/software/pycrypto/', '2.6.1'], 'dnspython': [('dns_reverse', 'dns_forward'), 'http://www.dnspython.org/', '1.16.0'], 'IPy': [('dns_reverse', 'dns_forward'), 'https://github.com/haypo/python-ipy', '1.0'], 'pysnmp': [('snmp_login',), 'http://pysnmp.sf.net/', '4.4.12'], 'pyasn1': [('smb_login', 'smb_lookupsid', 'mssql_login', 'snmp_login'), 'http://sourceforge.net/projects/pyasn1/', '0.4.8'], 'ike-scan': [('ike_enum',), 'http://www.nta-monitor.com/tools-resources/security-tools/ike-scan', '1.9'], 'unzip': [('unzip_pass',), 'http://www.info-zip.org/', '6.0'], 'java': [('keystore_pass',), 'http://www.oracle.com/technetwork/java/javase/', '6'], 'pysqlcipher': [('sqlcipher_pass',), 'https://github.com/rigglemania/pysqlcipher3', '1.0.3'], 'python': [('ftp_login',), 'Patator requires Python 3.6 or above and may still work on Python 2.'], } # }}} # main {{{ if __name__ == '__main__': multiprocessing.freeze_support() def show_usage(): print(__banner__) print('''Usage: patator.py module --help Available modules: %s''' % '\n'.join(' + %-13s : %s' % (k, v[1].__doc__) for k, v in modules)) sys.exit(2) available = dict(modules) name = os.path.basename(sys.argv[0]).lower() if name not in available: if len(sys.argv) == 1: show_usage() name = os.path.basename(sys.argv[1]).lower() if name not in available: show_usage() del sys.argv[0] # dependencies abort = False for k in set(notfound): args = dependencies[k] if name in args[0]: if len(args) == 2: print('WARNING: %s' % args[1]) else: url, ver = args[1:] print('ERROR: %s %s (%s) is required to run %s.' % (k, ver, url, name)) abort = True if abort: print('Please read the README inside for more information.') sys.exit(3) # start ctrl, module = available[name] powder = ctrl(module, [name] + sys.argv[1:]) powder.fire() # }}} # vim: ts=2 sw=2 sts=2 et fdm=marker bg=dark