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�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/LICENSE������������������������������������������������������������������������������0000664�0000000�0000000�00000104505�13536066444�0014252�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ GNU GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc.
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address new problems or concerns.
Each version is given a distinguishing version number. If the
Program specifies that a certain numbered version of the GNU General
Public License "or any later version" applies to it, you have the
option of following the terms and conditions either of that numbered
version or of any later version published by the Free Software
Foundation. If the Program does not specify a version number of the
GNU General Public License, you may choose any version ever published
by the Free Software Foundation.
If the Program specifies that a proxy can decide which future
versions of the GNU General Public License can be used, that proxy's
public statement of acceptance of a version permanently authorizes you
to choose that version for the Program.
Later license versions may give you additional or different
permissions. However, no additional obligations are imposed on any
author or copyright holder as a result of your choosing to follow a
later version.
15. Disclaimer of Warranty.
THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY
APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT
HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY
OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO,
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM
IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF
ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
16. Limitation of Liability.
IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS
THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY
GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
SUCH DAMAGES.
17. Interpretation of Sections 15 and 16.
If the disclaimer of warranty and limitation of liability provided
above cannot be given local legal effect according to their terms,
reviewing courts shall apply local law that most closely approximates
an absolute waiver of all civil liability in connection with the
Program, unless a warranty or assumption of liability accompanies a
copy of the Program in return for a fee.
END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
free software which everyone can redistribute and change under these terms.
To do so, attach the following notices to the program. It is safest
to attach them to the start of each source file to most effectively
state the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
{one line to give the program's name and a brief idea of what it does.}
Copyright (C) {year} {name of author}
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
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.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
{project} Copyright (C) {year} {fullname}
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
.
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/README.md����������������������������������������������������������������������������0000664�0000000�0000000�00000003063�13536066444�0014521�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������# The Recon-ng Framework
Recon-ng is a full-featured reconnaissance framework designed with the goal of providing a powerful environment to conduct open source web-based reconnaissance quickly and thoroughly.
Recon-ng has a look and feel similar to the Metasploit Framework, reducing the learning curve for leveraging the framework. However, it is quite different. Recon-ng is not intended to compete with existing frameworks, as it is designed exclusively for web-based open source reconnaissance. If you want to exploit, use the Metasploit Framework. If you want to social engineer, use the Social-Engineer Toolkit. If you want to conduct reconnaissance, use Recon-ng! See the [Wiki](https://github.com/lanmaster53/recon-ng/wiki) to get started.
Recon-ng is a completely modular framework and makes it easy for even the newest of Python developers to contribute. See the [Development Guide](https://github.com/lanmaster53/recon-ng/wiki/Development-Guide) for more information on building and maintaining modules.
## Sponsors
[](http://www.blackhillsinfosec.com)
[](http://www.practisec.com)
## Donations
Recon-ng is free software. However, large amounts of time and effort go into its continued development. If you are interested in financially supporting the development of Recon-ng, please send your donation to tjt1980[at]gmail.com via PayPal. Thank you.
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/REQUIREMENTS�������������������������������������������������������������������������0000664�0000000�0000000�00000000141�13536066444�0015102�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������# framework
pyyaml
dnspython
lxml
mechanize
requests
# web
flask
dicttoxml
XlsxWriter
unicodecsv
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/VERSION������������������������������������������������������������������������������0000664�0000000�0000000�00000000453�13536066444�0014312�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������__version__ = '5.0.1'
# ex. x.y.z
# x - Incremented for changes requiring migration. (major revision)
# y - Incremented for the addition of new features. (minor revision)
# z - Incremented for minor code changes and bug fixes. (hotfix)
# Subordinate items reset to 0 when superior items increment.
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/recon-cli����������������������������������������������������������������������������0000775�0000000�0000000�00000010032�13536066444�0015035�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#!/usr/bin/env python3
import argparse
import sys
# prevent creation of compiled bytecode files
sys.dont_write_bytecode = True
from recon.core import base
from recon.core.framework import Colors
def output(string):
print(f"{Colors.B}[*]{Colors.N} {string}")
def recon_cli(args):
# process toggle flag arguments
flags = {
'check': args.check if not args.stealth else False,
'analytics': args.analytics if not args.stealth else False,
'marketplace': args.marketplace if not args.stealth else False,
}
# instantiate framework
x = base.Recon(**flags)
options = [base.Mode.CLI]
if args.workspace:
options.append(args.workspace)
x.start(*options)
# set given workspace
if args.workspace:
x._init_workspace(args.workspace)
print(f"WORKSPACE => {args.workspace}")
# run given global commands
for command in args.global_commands:
print(f"GLOBAL COMMAND => {command}")
x.onecmd(command)
# set given global options
for option in args.goptions:
param = ' '.join(option.split('='))
x._do_options_set(param)
# if requested, show global options and exit
if args.gshow:
x._do_options_list('')
return
# if requested, show modules and exit
if args.show_modules:
x._do_modules_search('')
return
# exit if module not specified
if not args.module:
output('No module provided.')
return
# load the module
y = x._do_modules_load(args.module)
# exit if module not successfully loaded
if not y: return
print(f"MODULE => {args.module}")
# run given module commands
for command in args.module_commands:
print(f"MODULE COMMAND => {command}")
y.onecmd(command)
# set given module options
for option in args.options:
param = ' '.join(option.split('='))
y._do_options_set(param)
# if requested, show module options and exit
if args.show:
y._do_options_list('')
return
if args.run:
# run the module
y.do_run(None)
description = f"%(prog)s - {base.__author__}"
parser = argparse.ArgumentParser(description=description)
parser.add_argument('-w', help='load/create a workspace', metavar='workspace', dest='workspace', action='store')
parser.add_argument('-C', help='runs a command at the global context', metavar='command', dest='global_commands' ,default=[], action='append')
parser.add_argument('-c', help='runs a command at the module context (pre-run)', metavar='command', dest='module_commands' ,default=[], action='append')
parser.add_argument('-G', help='show available global options', dest='gshow', default=False, action='store_true')
parser.add_argument('-g', help='set a global option (can be used more than once)', metavar='name=value', dest='goptions', default=[], action='append')
parser.add_argument('-M', help='show modules', dest='show_modules', default=False, action='store_true')
parser.add_argument('-m', help='specify the module', metavar='module', dest='module', action='store')
parser.add_argument('-O', help='show available module options', dest='show', default=False, action='store_true')
parser.add_argument('-o', help='set a module option (can be used more than once)', metavar='name=value', dest='options', default=[], action='append')
parser.add_argument('-x', help='run the module', dest='run', default=False, action='store_true')
parser.add_argument('--no-version', help='disable version check', dest='check', default=True, action='store_false')
parser.add_argument('--no-analytics', help='disable analytics reporting', dest='analytics', default=True, action='store_false')
parser.add_argument('--no-marketplace', help='disable remote module management', dest='marketplace', default=True, action='store_false')
parser.add_argument('--stealth', help='disable all passive requests (--no-*)', dest='stealth', default=False, action='store_true')
parser.add_argument('--version', help='displays the current version', action='version', version=base.__version__)
args = parser.parse_args()
recon_cli(args)
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/recon-ng�����������������������������������������������������������������������������0000775�0000000�0000000�00000004702�13536066444�0014701�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#!/usr/bin/env python3
import argparse
import re
import sys
# prevent creation of compiled bytecode files
sys.dont_write_bytecode = True
from recon.core import base
from recon.core.framework import Colors
def recon_ui(args):
# set up command completion
try:
import readline
except ImportError:
print(f"{Colors.R}[!] Module 'readline' not available. Tab complete disabled.{Colors.N}")
else:
import rlcompleter
if 'libedit' in readline.__doc__:
readline.parse_and_bind('bind ^I rl_complete')
else:
readline.parse_and_bind('tab: complete')
readline.set_completer_delims(re.sub('[/-]', '', readline.get_completer_delims()))
# for possible future use to format command completion output
#readline.set_completion_display_matches_hook(display_hook)
# process toggle flag arguments
flags = {
'check': args.check if not args.stealth else False,
'analytics': args.analytics if not args.stealth else False,
'marketplace': args.marketplace if not args.stealth else False,
}
# instantiate framework
x = base.Recon(**flags)
# check for and run script session
if args.script_file:
x._do_script_execute(args.script_file)
# launch the interactive session
options = [base.Mode.CONSOLE]
if args.workspace:
options.append(args.workspace)
try:
x.start(*options)
except KeyboardInterrupt:
print('')
description = f"%(prog)s - {base.__author__}"
parser = argparse.ArgumentParser(description=description)
parser.add_argument('-w', help='load/create a workspace', metavar='workspace', dest='workspace', action='store')
parser.add_argument('-r', help='load commands from a resource file', metavar='filename', dest='script_file', action='store')
parser.add_argument('--no-version', help='disable version check', dest='check', default=True, action='store_false')
parser.add_argument('--no-analytics', help='disable analytics reporting', dest='analytics', default=True, action='store_false')
parser.add_argument('--no-marketplace', help='disable remote module management', dest='marketplace', default=True, action='store_false')
parser.add_argument('--stealth', help='disable all passive requests (--no-*)', dest='stealth', default=False, action='store_true')
parser.add_argument('--version', help='displays the current version', action='version', version=base.__version__)
args = parser.parse_args()
recon_ui(args)
��������������������������������������������������������������recon-ng-5.0.1/recon-web����������������������������������������������������������������������������0000775�0000000�0000000�00000000141�13536066444�0015043�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#!/usr/bin/env python3
from recon.core.web import app
if __name__ == '__main__':
app.run()
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/recon/�������������������������������������������������������������������������������0000775�0000000�0000000�00000000000�13536066444�0014346�5����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/recon/__init__.py��������������������������������������������������������������������0000664�0000000�0000000�00000000000�13536066444�0016445�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/recon/core/��������������������������������������������������������������������������0000775�0000000�0000000�00000000000�13536066444�0015276�5����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/recon/core/__init__.py���������������������������������������������������������������0000664�0000000�0000000�00000000000�13536066444�0017375�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������recon-ng-5.0.1/recon/core/base.py�������������������������������������������������������������������0000664�0000000�0000000�00000114532�13536066444�0016570�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������__author__ = 'Tim Tomes (@lanmaster53)'
from datetime import datetime
from urllib.parse import urljoin
import errno
import imp
import json
import os
import random
import re
import shutil
import sys
import yaml
import builtins
# import framework libs
from recon.core import framework
from recon.core.constants import BANNER
# set the __version__ variable based on the VERSION file
exec(open(os.path.join(sys.path[0], 'VERSION')).read())
# using stdout to spool causes tab complete issues
# therefore, override print function
# use a lock for thread safe console and spool output
from threading import Lock
_print_lock = Lock()
# spooling system
def spool_print(*args, **kwargs):
with _print_lock:
if framework.Framework._spool:
framework.Framework._spool.write(f"{args[0]}{os.linesep}")
framework.Framework._spool.flush()
if 'console' in kwargs and kwargs['console'] is False:
return
# new print function must still use the old print function via the backup
builtins._print(*args, **kwargs)
# make a builtin backup of the original print function
builtins._print = print
# override the builtin print function with the new print function
builtins.print = spool_print
#=================================================
# BASE CLASS
#=================================================
class Recon(framework.Framework):
repo_url = 'https://raw.githubusercontent.com/lanmaster53/recon-ng-modules/master/'
def __init__(self, check=True, analytics=True, marketplace=True):
framework.Framework.__init__(self, 'base')
self._name = 'recon-ng'
self._prompt_template = '{}[{}] > '
self._base_prompt = self._prompt_template.format('', self._name)
# set toggle flags
self._check = check
self._analytics = analytics
self._marketplace = marketplace
# set path variables
self.app_path = framework.Framework.app_path = sys.path[0]
self.core_path = framework.Framework.core_path = os.path.join(self.app_path, 'core')
self.home_path = framework.Framework.home_path = os.path.join(os.path.expanduser('~'), '.recon-ng')
self.mod_path = framework.Framework.mod_path = os.path.join(self.home_path, 'modules')
self.data_path = framework.Framework.data_path = os.path.join(self.home_path, 'data')
self.spaces_path = framework.Framework.spaces_path = os.path.join(self.home_path, 'workspaces')
def start(self, mode, workspace='default'):
# initialize framework components
self._mode = mode
self._init_global_options()
self._init_home()
self._init_workspace(workspace)
self._check_version()
if self._mode == Mode.CONSOLE:
self._print_banner()
self.cmdloop()
#==================================================
# SUPPORT METHODS
#==================================================
def _init_global_options(self):
self.options = self._global_options
self.register_option('nameserver', '8.8.8.8', True, 'default nameserver for the resolver mixin')
self.register_option('proxy', None, False, 'proxy server (address:port)')
self.register_option('threads', 10, True, 'number of threads (where applicable)')
self.register_option('timeout', 10, True, 'socket timeout (seconds)')
self.register_option('user-agent', f"Recon-ng/v{__version__.split('.')[0]}", True, 'user-agent string')
self.register_option('verbosity', 1, True, 'verbosity level (0 = minimal, 1 = verbose, 2 = debug)')
def _init_home(self):
# initialize home folder
if not os.path.exists(self.home_path):
os.makedirs(self.home_path)
# initialize keys database
self._query_keys('CREATE TABLE IF NOT EXISTS keys (name TEXT PRIMARY KEY, value TEXT)')
# initialize module index
self._fetch_module_index()
def _check_version(self):
if self._check:
pattern = r"'(\d+\.\d+\.\d+[^']*)'"
remote = 0
local = 0
try:
remote = re.search(pattern, self.request('GET', 'https://raw.githubusercontent.com/lanmaster53/recon-ng/master/VERSION').text).group(1)
local = re.search(pattern, open('VERSION').read()).group(1)
except Exception as e:
self.error(f"Version check failed ({type(e).__name__}).")
#self.print_exception()
if remote != local:
self.alert('Your version of Recon-ng does not match the latest release.')
self.alert('Please consider updating before further use.')
self.output(f"Remote version: {remote}")
self.output(f"Local version: {local}")
else:
self.alert('Version check disabled.')
def _print_banner(self):
banner_len = len(max(BANNER.split(os.linesep), key=len))
print(BANNER)
print('{0:^{1}}'.format(f"{framework.Colors.O}[{self._name} v{__version__}, {__author__}]{framework.Colors.N}", banner_len + 8))
print('')
counts = [(len(self._loaded_category[x]), x) for x in self._loaded_category]
if counts:
count_len = len(max([self.to_unicode_str(x[0]) for x in counts], key=len))
for count in sorted(counts, reverse=True):
cnt = f"[{count[0]}]"
print(f"{framework.Colors.B}{cnt.ljust(count_len+2)} {count[1].title()} modules{framework.Colors.N}")
# create dynamic easter egg command based on counts
setattr(self, f"do_{count[0]}", self._menu_egg)
else:
self.alert('No modules enabled/installed.')
print('')
def _send_analytics(self, cd):
if self._analytics:
try:
cid_path = os.path.join(self.home_path, '.cid')
if not os.path.exists(cid_path):
# create the cid and file
import uuid
with open(cid_path, 'w') as fp:
fp.write(self.to_unicode_str(uuid.uuid4()))
with open(cid_path) as fp:
cid = fp.read().strip()
params = {
'v': 1,
'tid': 'UA-52269615-2',
'cid': cid,
't': 'screenview',
'an': 'Recon-ng',
'av': __version__,
'cd': cd
}
self.request('GET', 'https://www.google-analytics.com/collect', params=params)
except Exception as e:
self.debug(f"Analytics failed ({type(e).__name__}).")
#self.print_exception()
return
else:
self.debug('Analytics disabled.')
def _menu_egg(self, params):
eggs = [
'Really? A menu option? Try again.',
'You clearly need \'help\'.',
'That makes no sense to me.',
'*grunt* *grunt* Nope. I got nothin\'.',
'Wait for it...',
'This is not the Social Engineering Toolkit.',
'Don\'t you think if that worked the numbers would at least be in order?',
'Reserving that option for the next-NEXT generation of the framework.',
'You\'ve clearly got the wrong framework. Attempting to start SET...',
'1980 called. They want there menu driven UI back.',
]
print(random.choice(eggs))
return
#==================================================
# WORKSPACE METHODS
#==================================================
def _init_workspace(self, workspace):
if not workspace:
return
path = os.path.join(self.spaces_path, workspace)
self.workspace = framework.Framework.workspace = path
if not os.path.exists(path):
os.makedirs(path)
self._create_db()
else:
self._migrate_db()
# set workspace prompt
self.prompt = self._prompt_template.format(self._base_prompt[:-3], self.workspace.split('/')[-1])
# load workspace configuration
self._load_config()
# reload modules after config to populate options
self._load_modules()
return True
def delete_workspace(self, workspace):
path = os.path.join(self.spaces_path, workspace)
try:
shutil.rmtree(path)
except OSError:
return False
if workspace == self.workspace.split('/')[-1]:
self._init_workspace('default')
return True
def _get_workspaces(self):
dirnames = []
path = os.path.join(self.spaces_path)
for name in os.listdir(path):
if os.path.isdir(os.path.join(path, name)):
dirnames.append(name)
return dirnames
def _get_snapshots(self):
snapshots = []
for f in os.listdir(self.workspace):
if re.search(r'^snapshot_\d{14}.db$', f):
snapshots.append(f)
return snapshots
def _create_db(self):
self.query('CREATE TABLE IF NOT EXISTS domains (domain TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS companies (company TEXT, description TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS netblocks (netblock TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS locations (latitude TEXT, longitude TEXT, street_address TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS vulnerabilities (host TEXT, reference TEXT, example TEXT, publish_date TEXT, category TEXT, status TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS ports (ip_address TEXT, host TEXT, port TEXT, protocol TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS hosts (host TEXT, ip_address TEXT, region TEXT, country TEXT, latitude TEXT, longitude TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS contacts (first_name TEXT, middle_name TEXT, last_name TEXT, email TEXT, title TEXT, region TEXT, country TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS credentials (username TEXT, password TEXT, hash TEXT, type TEXT, leak TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS leaks (leak_id TEXT, description TEXT, source_refs TEXT, leak_type TEXT, title TEXT, import_date TEXT, leak_date TEXT, attackers TEXT, num_entries TEXT, score TEXT, num_domains_affected TEXT, attack_method TEXT, target_industries TEXT, password_hash TEXT, password_type TEXT, targets TEXT, media_refs TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS pushpins (source TEXT, screen_name TEXT, profile_name TEXT, profile_url TEXT, media_url TEXT, thumb_url TEXT, message TEXT, latitude TEXT, longitude TEXT, time TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS profiles (username TEXT, resource TEXT, url TEXT, category TEXT, notes TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS repositories (name TEXT, owner TEXT, description TEXT, resource TEXT, category TEXT, url TEXT, module TEXT)')
self.query('CREATE TABLE IF NOT EXISTS dashboard (module TEXT PRIMARY KEY, runs INT)')
self.query('PRAGMA user_version = 8')
def _migrate_db(self):
db_version = lambda self: self.query('PRAGMA user_version')[0][0]
if db_version(self) == 0:
# add mname column to contacts table
tmp = self.get_random_str(20)
self.query(f"ALTER TABLE contacts RENAME TO {tmp}")
self.query('CREATE TABLE contacts (fname TEXT, mname TEXT, lname TEXT, email TEXT, title TEXT, region TEXT, country TEXT)')
self.query(f"INSERT INTO contacts (fname, lname, email, title, region, country) SELECT fname, lname, email, title, region, country FROM {tmp}")
self.query(f"DROP TABLE {tmp}")
self.query('PRAGMA user_version = 1')
if db_version(self) == 1:
# rename name columns
tmp = self.get_random_str(20)
self.query(f"ALTER TABLE contacts RENAME TO {tmp}")
self.query('CREATE TABLE contacts (first_name TEXT, middle_name TEXT, last_name TEXT, email TEXT, title TEXT, region TEXT, country TEXT)')
self.query(f"INSERT INTO contacts (first_name, middle_name, last_name, email, title, region, country) SELECT fname, mname, lname, email, title, region, country FROM {tmp}")
self.query(f"DROP TABLE {tmp}")
# rename pushpin table
self.query('ALTER TABLE pushpin RENAME TO pushpins')
# add new tables
self.query('CREATE TABLE IF NOT EXISTS domains (domain TEXT)')
self.query('CREATE TABLE IF NOT EXISTS companies (company TEXT, description TEXT)')
self.query('CREATE TABLE IF NOT EXISTS netblocks (netblock TEXT)')
self.query('CREATE TABLE IF NOT EXISTS locations (latitude TEXT, longitude TEXT)')
self.query('CREATE TABLE IF NOT EXISTS vulnerabilities (host TEXT, reference TEXT, example TEXT, publish_date TEXT, category TEXT)')
self.query('CREATE TABLE IF NOT EXISTS ports (ip_address TEXT, host TEXT, port TEXT, protocol TEXT)')
self.query('CREATE TABLE IF NOT EXISTS leaks (leak_id TEXT, description TEXT, source_refs TEXT, leak_type TEXT, title TEXT, import_date TEXT, leak_date TEXT, attackers TEXT, num_entries TEXT, score TEXT, num_domains_affected TEXT, attack_method TEXT, target_industries TEXT, password_hash TEXT, targets TEXT, media_refs TEXT)')
self.query('PRAGMA user_version = 2')
if db_version(self) == 2:
# add street_address column to locations table
self.query('ALTER TABLE locations ADD COLUMN street_address TEXT')
self.query('PRAGMA user_version = 3')
if db_version(self) == 3:
# account for db_version bug
if 'creds' in self.get_tables():
# rename creds table
self.query('ALTER TABLE creds RENAME TO credentials')
self.query('PRAGMA user_version = 4')
if db_version(self) == 4:
# add status column to vulnerabilities table
if 'status' not in [x[0] for x in self.get_columns('vulnerabilities')]:
self.query('ALTER TABLE vulnerabilities ADD COLUMN status TEXT')
# add module column to all tables
for table in ['domains', 'companies', 'netblocks', 'locations', 'vulnerabilities', 'ports', 'hosts', 'contacts', 'credentials', 'leaks', 'pushpins']:
if 'module' not in [x[0] for x in self.get_columns(table)]:
self.query(f"ALTER TABLE {table} ADD COLUMN module TEXT")
self.query('PRAGMA user_version = 5')
if db_version(self) == 5:
# add profile table
self.query('CREATE TABLE IF NOT EXISTS profiles (username TEXT, resource TEXT, url TEXT, category TEXT, notes TEXT, module TEXT)')
self.query('PRAGMA user_version = 6')
if db_version(self) == 6:
# add profile table
self.query('CREATE TABLE IF NOT EXISTS repositories (name TEXT, owner TEXT, description TEXT, resource TEXT, category TEXT, url TEXT, module TEXT)')
self.query('PRAGMA user_version = 7')
if db_version(self) == 7:
# add password_type column to leaks table
self.query('ALTER TABLE leaks ADD COLUMN password_type TEXT')
self.query('UPDATE leaks SET password_type=\'unknown\'')
self.query('PRAGMA user_version = 8')
#==================================================
# MODULE METHODS
#==================================================
def _request_file_from_repo(self, path):
resp = self.request('GET', urljoin(self.repo_url, path))
if resp.status_code != 200:
raise framework.FrameworkException(f"Invalid response from module repository ({resp.status_code}).")
return resp
def _write_local_file(self, path, content):
dirpath = os.path.sep.join(path.split(os.path.sep)[:-1])
if not os.path.exists(dirpath):
os.makedirs(dirpath)
with open(path, 'w') as outfile:
outfile.write(content)
def _remove_empty_dirs(self, base_path):
for root, dirs, files in os.walk(base_path, topdown=False):
for rel_path in dirs:
abs_path = os.path.join(root, rel_path)
if os.path.exists(abs_path):
if not os.listdir(abs_path):
os.removedirs(abs_path)
def _fetch_module_index(self):
if self._marketplace:
content = '[]'
self.debug('Fetching index file...')
try:
resp = self._request_file_from_repo('modules.yml')
except Exception as e:
self.error(f"Unable to synchronize module index. ({type(e).__name__})")
#self.print_exception()
return
content = resp.text
path = os.path.join(self.home_path, 'modules.yml')
self._write_local_file(path, content)
else:
self.alert('Marketplace disabled.')
def _update_module_index(self):
self.debug('Updating index file...')
# initialize module index
self._module_index = []
# load module index from local copy
path = os.path.join(self.home_path, 'modules.yml')
if os.path.exists(path):
with open(path, 'r') as infile:
self._module_index = yaml.safe_load(infile)
# add status to index for each module
for module in self._module_index:
status = 'not installed'
if module['path'] in self._loaded_category.get('disabled', []):
status = 'disabled'
elif module['path'] in self._loaded_modules.keys():
status = 'installed'
loaded = self._loaded_modules[module['path']]
if loaded.meta['version'] != module['version']:
status = 'outdated'
module['status'] = status
def _search_module_index(self, s):
keys = ('path', 'name', 'description', 'status')
modules = []
for module in self._module_index:
for key in keys:
if re.search(s, module[key]):
modules.append(module)
break
return modules
def _get_module_from_index(self, path):
for module in self._module_index:
if module['path'] == path:
return module
return None
def _install_module(self, path):
# download supporting data files
downloads = {}
files = self._get_module_from_index(path).get('files', [])
for filename in files:
try:
resp = self._request_file_from_repo('/'.join(['data', filename]))
except:
self.error(f"Supporting file download for {path} failed: ({filename})")
self.error('Module installation aborted.')
raise
abs_path = os.path.join(self.data_path, filename)
downloads[abs_path] = resp.text
# download the module
rel_path = '.'.join([path, 'py'])
try:
resp = self._request_file_from_repo('/'.join(['modules', rel_path]))
except:
self.error(f"Module installation failed: {path}")
raise
abs_path = os.path.join(self.mod_path, rel_path)
downloads[abs_path] = resp.text
# install the module
for abs_path, content in downloads.items():
self._write_local_file(abs_path, content)
self.output(f"Module installed: {path}")
def _remove_module(self, path):
# remove the module
rel_path = '.'.join([path, 'py'])
abs_path = os.path.join(self.mod_path, rel_path)
os.remove(abs_path)
# remove supporting data files
files = self._get_module_from_index(path).get('files', [])
for filename in files:
abs_path = os.path.join(self.data_path, filename)
if os.path.exists(abs_path):
os.remove(abs_path)
self.output(f"Module removed: {path}")
def _load_modules(self):
self._loaded_category = {}
self._loaded_modules = framework.Framework._loaded_modules = {}
# crawl the module directory and build the module tree
for dirpath, dirnames, filenames in os.walk(self.mod_path, followlinks=True):
# remove hidden files and directories
filenames = [f for f in filenames if not f[0] == '.']
dirnames[:] = [d for d in dirnames if not d[0] == '.']
if len(filenames) > 0:
for filename in [f for f in filenames if f.endswith('.py')]:
self._load_module(dirpath, filename)
# cleanup module directory
self._remove_empty_dirs(self.mod_path)
# update module index
self._update_module_index()
def _load_module(self, dirpath, filename):
mod_name = filename.split('.')[0]
mod_category = re.search('/modules/([^/]*)', dirpath).group(1)
mod_dispname = '/'.join(re.split('/modules/', dirpath)[-1].split('/') + [mod_name])
mod_loadname = mod_dispname.replace('/', '_')
mod_loadpath = os.path.join(dirpath, filename)
mod_file = open(mod_loadpath)
try:
# import the module into memory
mod = imp.load_source(mod_loadname, mod_loadpath, mod_file)
__import__(mod_loadname)
# add the module to the framework's loaded modules
self._loaded_modules[mod_dispname] = sys.modules[mod_loadname].Module(mod_dispname)
self._categorize_module(mod_category, mod_dispname)
# return indication of success to support module reload
return True
except ImportError as e:
# notify the user of missing dependencies
self.error(f"Module '{mod_dispname}' disabled. Dependency required: '{self.to_unicode_str(e)[16:]}'")
except:
# notify the user of errors
self.print_exception()
self.error(f"Module '{mod_dispname}' disabled.")
# remove the module from the framework's loaded modules
self._loaded_modules.pop(mod_dispname, None)
self._categorize_module('disabled', mod_dispname)
def _categorize_module(self, category, module):
if not category in self._loaded_category:
self._loaded_category[category] = []
self._loaded_category[category].append(module)
#==================================================
# COMMAND METHODS
#==================================================
def do_index(self, params):
'''Creates a module index (dev only)'''
mod_path, file_name = self._parse_params(params)
if not mod_path:
self.help_index()
return
self.output('Building index markup...')
yaml_objs = []
modules = [m for m in self._loaded_modules.items() if mod_path in m[0] or mod_path == 'all']
for path, module in sorted(modules, key=lambda k: k[0]):
yaml_obj = {}
# not in meta
yaml_obj['path'] = path
yaml_obj['last_updated'] = datetime.strftime(datetime.now(), '%Y-%m-%d')
# meta required
yaml_obj['author'] = module.meta.get('author')
yaml_obj['name'] = module.meta.get('name')
yaml_obj['description'] = module.meta.get('description')
yaml_obj['version'] = module.meta.get('version', '1.0')
# meta optional
#yaml_obj['comments'] = module.meta.get('comments', [])
yaml_obj['dependencies'] = module.meta.get('dependencies', [])
yaml_obj['files'] = module.meta.get('files', [])
#yaml_obj['options'] = module.meta.get('options', [])
#yaml_obj['query'] = module.meta.get('query', '')
yaml_obj['required_keys'] = module.meta.get('required_keys', [])
yaml_objs.append(yaml_obj)
if yaml_objs:
markup = yaml.safe_dump(yaml_objs)
print(markup)
# write to file if index name provided
if file_name:
with open(file_name, 'w') as outfile:
outfile.write(markup)
self.output('Module index created.')
else:
self.output('No modules found.')
def do_marketplace(self, params):
'''Interfaces with the module marketplace'''
if not self._marketplace:
self.alert('Marketplace disabled.')
return
if not params:
self.help_marketplace()
return
arg, params = self._parse_params(params)
if arg in self._parse_subcommands('marketplace'):
return getattr(self, '_do_marketplace_'+arg)(params)
else:
self.help_marketplace()
def _do_marketplace_refresh(self, params):
'''Refreshes the marketplace index'''
self._fetch_module_index()
self._update_module_index()
self.output('Marketplace index refreshed.')
def _do_marketplace_search(self, params):
'''Searches marketplace modules'''
modules = [m for m in self._module_index]
if params:
self.output(f"Searching module index for '{params}'...")
modules = self._search_module_index(params)
if modules:
rows = []
for module in sorted(modules, key=lambda m: m['path']):
row = []
for key in ('path', 'version', 'status', 'last_updated'):
row.append(module[key])
row.append('*' if module['dependencies'] else '')
row.append('*' if module['required_keys'] else '')
rows.append(row)
header = ('Path', 'Version', 'Status', 'Updated', 'D', 'K')
self.table(rows, header=header)
print(f"{self.spacer}D = Has dependencies. See info for details.")
print(f"{self.spacer}K = Requires keys. See info for details.{os.linesep}")
else:
self.error('No modules found.')
self._help_marketplace_search()
def _do_marketplace_info(self, params):
'''Shows detailed information about available modules'''
if not params:
self._help_marketplace_info()
return
modules = [m for m in self._module_index if params in m['path'] or params == 'all']
if modules:
for module in modules:
rows = []
for key in ('path', 'name', 'author', 'version', 'last_updated', 'description', 'required_keys', 'dependencies', 'files', 'status'):
row = (key, module[key])
rows.append(row)
self.table(rows)
else:
self.error('Invalid module path.')
def _do_marketplace_install(self, params):
'''Installs modules from the marketplace'''
if not params:
self._help_marketplace_install()
return
modules = [m for m in self._module_index if params in m['path'] or params == 'all']
if modules:
for module in modules:
self._install_module(module['path'])
self._do_modules_reload('')
else:
self.error('Invalid module path.')
def _do_marketplace_remove(self, params):
'''Removes marketplace modules from the framework'''
if not params:
self._help_marketplace_remove()
return
modules = [m for m in self._module_index if m['status'] in ('installed', 'disabled') and (params in m['path'] or params == 'all')]
if modules:
for module in modules:
self._remove_module(module['path'])
self._do_modules_reload('')
else:
self.error('Invalid module path.')
def do_workspaces(self, params):
'''Manages workspaces'''
if not params:
self.help_workspaces()
return
arg, params = self._parse_params(params)
if arg in self._parse_subcommands('workspaces'):
return getattr(self, '_do_workspaces_'+arg)(params)
else:
self.help_workspaces()
def _do_workspaces_list(self, params):
'''Lists existing workspaces'''
self.table([[x] for x in self._get_workspaces()], header=['Workspaces'])
def _do_workspaces_create(self, params):
'''Creates a new workspace'''
if not params:
self._help_workspaces_create()
return
if not self._init_workspace(params):
self.output(f"Unable to create '{params}' workspace.")
def _do_workspaces_select(self, params):
'''Selects an existing workspace'''
if not params:
self._help_workspaces_select()
return
if not self._init_workspace(params):
self.output(f"Unable to initialize '{params}' workspace.")
def _do_workspaces_delete(self, params):
'''Deletes an existing workspace'''
if not params:
self._help_workspaces_delete()
return
if not self.delete_workspace(params):
self.output(f"Unable to delete '{params}' workspace.")
def do_snapshots(self, params):
'''Manages workspace snapshots'''
if not params:
self.help_snapshots()
return
arg, params = self._parse_params(params)
if arg in self._parse_subcommands('snapshots'):
return getattr(self, '_do_snapshots_'+arg)(params)
else:
self.help_snapshots()
def _do_snapshots_list(self, params):
'''Lists existing database snapshots'''
snapshots = self._get_snapshots()
if snapshots:
self.table([[x] for x in snapshots], header=['Snapshots'])
else:
self.output('This workspace has no snapshots.')
def _do_snapshots_take(self, params):
'''Takes a snapshot of the current database'''
ts = datetime.strftime(datetime.now(), '%Y%m%d%H%M%S')
snapshot = f"snapshot_{ts}.db"
src = os.path.join(self.workspace, 'data.db')
dst = os.path.join(self.workspace, snapshot)
shutil.copyfile(src, dst)
self.output(f"Snapshot created: {snapshot}")
def _do_snapshots_load(self, params):
'''Loads an existing database snapshot'''
if not params:
self._help_snapshots_load()
return
if params in self._get_snapshots():
src = os.path.join(self.workspace, params)
dst = os.path.join(self.workspace, 'data.db')
shutil.copyfile(src, dst)
self.output(f"Snapshot loaded: {params}")
else:
self.error(f"No snapshot named '{params}'.")
def _do_snapshots_delete(self, params):
'''Deletes an existing snapshot'''
if not params:
self._help_snapshots_delete()
return
if params in self._get_snapshots():
os.remove(os.path.join(self.workspace, params))
self.output(f"Snapshot removed: {params}")
else:
self.error(f"No snapshot named '{params}'.")
def _do_modules_load(self, params):
'''Loads a module'''
# validate global options before loading the module
try:
self._validate_options()
except framework.FrameworkException as e:
self.error(e)
return
if not params:
self._help_modules_load()
return
# finds any modules that contain params
modules = self._match_modules(params)
# notify the user if none or multiple modules are found
if len(modules) != 1:
if not modules:
self.error('Invalid module name.')
else:
self.output(f"Multiple modules match '{params}'.")
self._list_modules(modules)
return
# load the module
mod_dispname = modules[0]
# loop to support reload logic
while True:
y = self._loaded_modules[mod_dispname]
# send analytics information
mod_loadpath = os.path.abspath(sys.modules[y.__module__].__file__)
self._send_analytics(mod_dispname)
# return the loaded module if in command line mode
if self._mode == Mode.CLI:
return y
# begin a command loop
y.prompt = self._prompt_template.format(self.prompt[:-3], mod_dispname.split('/')[-1])
try:
y.cmdloop()
except KeyboardInterrupt:
print('')
if y._exit == 1:
return True
if y._reload == 1:
self.output('Reloading module...')
# reload the module in memory
is_loaded = self._load_module(os.path.dirname(mod_loadpath), os.path.basename(mod_loadpath))
if is_loaded:
# reload the module in the framework
continue
# shuffle category counts?
break
def _do_modules_reload(self, params):
'''Reloads installed modules'''
self.output('Reloading modules...')
self._load_modules()
#==================================================
# HELP METHODS
#==================================================
def help_index(self):
print(getattr(self, 'do_index').__doc__)
print(f"{os.linesep}Usage: index {os.linesep}")
def help_marketplace(self):
print(getattr(self, 'do_marketplace').__doc__)
print(f"{os.linesep}Usage: marketplace <{'|'.join(self._parse_subcommands('marketplace'))}> [...]{os.linesep}")
def _help_marketplace_search(self):
print(getattr(self, '_do_marketplace_search').__doc__)
print(f"{os.linesep}Usage: marketplace search []{os.linesep}")
def _help_marketplace_info(self):
print(getattr(self, '_do_marketplace_info').__doc__)
print(f"{os.linesep}Usage: marketplace info <||all>{os.linesep}")
def _help_marketplace_install(self):
print(getattr(self, '_do_marketplace_install').__doc__)
print(f"{os.linesep}Usage: marketplace install <||all>{os.linesep}")
def _help_marketplace_remove(self):
print(getattr(self, '_do_marketplace_remove').__doc__)
print(f"{os.linesep}Usage: marketplace remove <||all>{os.linesep}")
def help_workspaces(self):
print(getattr(self, 'do_workspaces').__doc__)
print(f"{os.linesep}Usage: workspaces <{'|'.join(self._parse_subcommands('workspaces'))}> [...]{os.linesep}")
def _help_workspaces_create(self):
print(getattr(self, '_do_workspaces_create').__doc__)
print(f"{os.linesep}Usage: workspace create {os.linesep}")
def _help_workspaces_select(self):
print(getattr(self, '_do_workspaces_select').__doc__)
print(f"{os.linesep}Usage: workspace select {os.linesep}")
def _help_workspaces_delete(self):
print(getattr(self, '_do_workspaces_delete').__doc__)
print(f"{os.linesep}Usage: workspace delete {os.linesep}")
def help_snapshots(self):
print(getattr(self, 'do_snapshots').__doc__)
print(f"{os.linesep}Usage: snapshots <{'|'.join(self._parse_subcommands('snapshots'))}> [...]{os.linesep}")
def _help_snapshots_load(self):
print(getattr(self, '_do_snapshots_load').__doc__)
print(f"{os.linesep}Usage: snapshots load {os.linesep}")
def _help_snapshots_delete(self):
print(getattr(self, '_do_snapshots_delete').__doc__)
print(f"{os.linesep}Usage: snapshots delete {os.linesep}")
#==================================================
# COMPLETE METHODS
#==================================================
def complete_index(self, text, line, *ignored):
if len(line.split(' ')) == 2:
return [x for x in self._loaded_modules if x.startswith(text)]
return []
def complete_marketplace(self, text, line, *ignored):
arg, params = self._parse_params(line.split(' ', 1)[1])
subs = self._parse_subcommands('marketplace')
if arg in subs:
return getattr(self, '_complete_marketplace_'+arg)(text, params)
return [sub for sub in subs if sub.startswith(text)]
def _complete_marketplace_refresh(self, text, *ignored):
return []
_complete_marketplace_search = _complete_marketplace_refresh
def _complete_marketplace_info(self, text, *ignored):
return [x['path'] for x in self._module_index if x['path'].startswith(text)]
_complete_marketplace_install = _complete_marketplace_info
def _complete_marketplace_remove(self, text, *ignored):
return [x['path'] for x in self._module_index if x['status'] == 'installed' and x['path'].startswith(text)]
def complete_workspaces(self, text, line, *ignored):
arg, params = self._parse_params(line.split(' ', 1)[1])
subs = self._parse_subcommands('workspaces')
if arg in subs:
return getattr(self, '_complete_workspaces_'+arg)(text, params)
return [sub for sub in subs if sub.startswith(text)]
def _complete_workspaces_list(self, text, *ignored):
return []
_complete_workspaces_create = _complete_workspaces_list
def _complete_workspaces_select(self, text, *ignored):
return [x for x in self._get_workspaces() if x.startswith(text)]
_complete_workspaces_delete = _complete_workspaces_select
def complete_snapshots(self, text, line, *ignored):
arg, params = self._parse_params(line.split(' ', 1)[1])
subs = self._parse_subcommands('snapshots')
if arg in subs:
return getattr(self, '_complete_snapshots_'+arg)(text, params)
return [sub for sub in subs if sub.startswith(text)]
def _complete_snapshots_list(self, text, *ignored):
return []
_complete_snapshots_take = _complete_snapshots_list
def _complete_snapshots_load(self, text, *ignored):
return [x for x in self._get_snapshots() if x.startswith(text)]
_complete_snapshots_delete = _complete_snapshots_load
def _complete_modules_reload(self, text, *ignored):
return []
#=================================================
# SUPPORT CLASSES
#=================================================
class Mode(object):
'''Contains constants that represent the state of the interpreter.'''
CONSOLE = 0
CLI = 1
GUI = 2
def __init__(self):
raise NotImplementedError('This class should never be instantiated.')
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_/_/_/ _/_/_/_/ _/_/_/ _/_/_/ _/ _/ _/ _/ _/_/_/
_/ _/ _/ _/ _/ _/ _/_/ _/ _/_/ _/ _/
_/_/_/ _/_/_/ _/ _/ _/ _/ _/ _/ _/_/_/_/ _/ _/ _/ _/ _/_/_/
_/ _/ _/ _/ _/ _/ _/ _/_/ _/ _/_/ _/ _/
_/ _/ _/_/_/_/ _/_/_/ _/_/_/ _/ _/ _/ _/ _/_/_/
/\
/ \\ /\
Sponsored by... /\ /\/ \\V \/\
/ \\/ // \\\\\ \\ \/\
// // BLACK HILLS \/ \\
www.blackhillsinfosec.com
____ ____ ____ ____ _____ _ ____ ____ ____
|____] | ___/ |____| | | | |____ |____ |
| | \_ | | |____ | | ____| |____ |____
www.practisec.com
'''
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import cmd
import codecs
import inspect
import json
import os
import random
import re
import requests
import socket
import sqlite3
import string
import subprocess
import sys
import traceback
#=================================================
# SUPPORT CLASSES
#=================================================
class FrameworkException(Exception):
pass
class Colors(object):
N = '\033[m' # native
R = '\033[31m' # red
G = '\033[32m' # green
O = '\033[33m' # orange
B = '\033[34m' # blue
class Options(dict):
def __init__(self, *args, **kwargs):
self.required = {}
self.description = {}
super(Options, self).__init__(*args, **kwargs)
def __getitem__(self, name):
name = self.__keytransform__(name)
return super(Options, self).__getitem__(name)
def __setitem__(self, name, value):
name = self.__keytransform__(name)
value = self._autoconvert(value)
super(Options, self).__setitem__(name, value)
def __delitem__(self, name):
name = self.__keytransform__(name)
super(Options, self).__delitem__(name)
if name in self.required:
del self.required[name]
if name in self.description:
del self.description[name]
def __keytransform__(self, key):
return key.upper()
def _boolify(self, value):
# designed to throw an exception if value is not a string representation of a boolean
return {'true':True, 'false':False}[value.lower()]
def _autoconvert(self, value):
if value in (None, True, False):
return value
elif (isinstance(value, str)) and value.lower() in ('none', "''", '""'):
return None
orig = value
for fn in (self._boolify, int, float):
try:
value = fn(value)
break
except ValueError: pass
except KeyError: pass
except AttributeError: pass
if type(value) is int and '.' in str(orig):
return float(orig)
return value
def init_option(self, name, value=None, required=False, description=''):
name = self.__keytransform__(name)
self[name] = value
self.required[name] = required
self.description[name] = description
def serialize(self):
data = {}
for key in self:
data[key] = self[key]
return data
#=================================================
# FRAMEWORK CLASS
#=================================================
class Framework(cmd.Cmd):
prompt = '>>>'
# mode flags
_script = 0
_load = 0
# framework variables
_global_options = Options()
_loaded_modules = {}
app_path = ''
data_path = ''
core_path = ''
home_path = ''
mod_path = ''
spaces_path = ''
workspace = ''
_record = None
_spool = None
_summary_counts = {}
def __init__(self, params):
cmd.Cmd.__init__(self)
self._modulename = params
self.ruler = '-'
self.spacer = ' '
self.time_format = '%Y-%m-%d %H:%M:%S'
self.nohelp = f"{Colors.R}[!] No help on %s{Colors.N}"
self.do_help.__func__.__doc__ = '''Displays this menu'''
self.doc_header = 'Commands (type [help|?] ):'
self._exit = 0
#==================================================
# CMD OVERRIDE METHODS
#==================================================
def default(self, line):
self.error(f"Invalid command: {line}")
def emptyline(self):
# disables running of last command when no command is given
# return flag to tell interpreter to continue
return 0
def precmd(self, line):
if Framework._load:
print('\r', end='')
if Framework._script:
print(f"{line}")
if Framework._record:
recorder = codecs.open(Framework._record, 'ab', encoding='utf-8')
recorder.write(f"{line}{os.linesep}")
recorder.flush()
recorder.close()
if Framework._spool:
Framework._spool.write(f"{self.prompt}{line}{os.linesep}")
Framework._spool.flush()
return line
def onecmd(self, line):
cmd, arg, line = self.parseline(line)
if not line:
return self.emptyline()
if line == 'EOF':
# reset stdin for raw_input
sys.stdin = sys.__stdin__
Framework._script = 0
Framework._load = 0
return
if cmd is None:
return self.default(line)
self.lastcmd = line
if cmd == '':
return self.default(line)
else:
try:
func = getattr(self, 'do_' + cmd)
except AttributeError:
return self.default(line)
try:
return func(arg)
except Exception:
self.print_exception()
# make help menu more attractive
def print_topics(self, header, cmds, cmdlen, maxcol):
if cmds:
self.stdout.write(f"{header}{os.linesep}")
if self.ruler:
self.stdout.write(f"{self.ruler * len(header)}{os.linesep}")
for cmd in cmds:
self.stdout.write(f"{cmd.ljust(15)} {getattr(self, 'do_' + cmd).__doc__}{os.linesep}")
self.stdout.write(os.linesep)
#==================================================
# SUPPORT METHODS
#==================================================
def to_unicode_str(self, obj, encoding='utf-8'):
# converts non-stringish types to unicode
if type(obj) not in (str, bytes):
obj = str(obj)
obj = self.to_unicode(obj, encoding)
return obj
def to_unicode(self, obj, encoding='utf-8'):
# converts bytes to unicode
if isinstance(obj, bytes):
obj = obj.decode(encoding)
return obj
def is_hash(self, hashstr):
hashdict = [
{'pattern': r'^[a-fA-F0-9]{32}$', 'type': 'MD5'},
{'pattern': r'^[a-fA-F0-9]{16}$', 'type': 'MySQL'},
{'pattern': r'^\*[a-fA-F0-9]{40}$', 'type': 'MySQL5'},
{'pattern': r'^[a-fA-F0-9]{40}$', 'type': 'SHA1'},
{'pattern': r'^[a-fA-F0-9]{56}$', 'type': 'SHA224'},
{'pattern': r'^[a-fA-F0-9]{64}$', 'type': 'SHA256'},
{'pattern': r'^[a-fA-F0-9]{96}$', 'type': 'SHA384'},
{'pattern': r'^[a-fA-F0-9]{128}$', 'type': 'SHA512'},
{'pattern': r'^\$[PH]{1}\$.{31}$', 'type': 'phpass'},
{'pattern': r'^\$2[ya]?\$.{56}$', 'type': 'bcrypt'},
]
for hashitem in hashdict:
if re.match(hashitem['pattern'], hashstr):
return hashitem['type']
return False
def get_random_str(self, length):
return ''.join(random.choice(string.lowercase) for i in range(length))
def _is_writeable(self, filename):
try:
fp = open(filename, 'a')
fp.close()
return True
except IOError:
return False
def _parse_rowids(self, rowids):
xploded = []
rowids = [x.strip() for x in rowids.split(',')]
for rowid in rowids:
try:
if '-' in rowid:
start = int(rowid.split('-')[0].strip())
end = int(rowid.split('-')[-1].strip())
xploded += range(start, end+1)
else:
xploded.append(int(rowid))
except ValueError:
continue
return sorted(list(set(xploded)))
#==================================================
# OUTPUT METHODS
#==================================================
def print_exception(self, line=''):
stack_list = [x.strip() for x in traceback.format_exc().strip().splitlines()]
exctype = stack_list[-1].split(':')[0].strip()
message = ' '.join(stack_list[-1].split(':')[1:]).strip()
if self._global_options['verbosity'] == 0:
return
elif self._global_options['verbosity'] == 1:
line = ' '.join([x for x in [message, line] if x])
self.error(line)
elif self._global_options['verbosity'] == 2:
print(f"{Colors.R}{'-'*60}")
traceback.print_exc()
print(f"{'-'*60}{Colors.N}")
def error(self, line):
'''Formats and presents errors.'''
if not re.search('[.,;!?]$', line):
line += '.'
line = line[:1].upper() + line[1:]
print(f"{Colors.R}[!] {line}{Colors.N}")
def output(self, line):
'''Formats and presents normal output.'''
print(f"{Colors.B}[*]{Colors.N} {line}")
def alert(self, line):
'''Formats and presents important output.'''
print(f"{Colors.G}[*]{Colors.N} {line}")
def verbose(self, line):
'''Formats and presents output if in verbose mode.'''
if self._global_options['verbosity'] >= 1:
self.output(line)
def debug(self, line):
'''Formats and presents output if in debug mode (very verbose).'''
if self._global_options['verbosity'] >= 2:
self.output(line)
def heading(self, line, level=1):
'''Formats and presents styled header text'''
line = line
print('')
if level == 0:
print(self.ruler*len(line))
print(line.upper())
print(self.ruler*len(line))
if level == 1:
print(f"{self.spacer}{line.title()}")
print(f"{self.spacer}{self.ruler*len(line)}")
def table(self, data, header=[], title=''):
'''Accepts a list of rows and outputs a table.'''
tdata = list(data)
if header:
tdata.insert(0, header)
if len(set([len(x) for x in tdata])) > 1:
raise FrameworkException('Row lengths not consistent.')
lens = []
cols = len(tdata[0])
# create a list of max widths for each column
for i in range(0,cols):
lens.append(len(max([self.to_unicode_str(x[i]) if x[i] != None else '' for x in tdata], key=len)))
# calculate dynamic widths based on the title
title_len = len(title)
tdata_len = sum(lens) + (3*(cols-1))
diff = title_len - tdata_len
if diff > 0:
diff_per = diff / cols
lens = [x+diff_per for x in lens]
diff_mod = diff % cols
for x in range(0, diff_mod):
lens[x] += 1
# build ascii table
if len(tdata) > 0:
separator_str = f"{self.spacer}+-{'%s---'*(cols-1)}%s-+"
separator_sub = tuple(['-'*x for x in lens])
separator = separator_str % separator_sub
data_str = f"{self.spacer}| {'%s | '*(cols-1)}%s |"
# top of ascii table
print('')
print(separator)
# ascii table data
if title:
print(f"{self.spacer}| {title.center(tdata_len)} |")
print(separator)
if header:
rdata = tdata.pop(0)
data_sub = tuple([rdata[i].center(lens[i]) for i in range(0,cols)])
print(data_str % data_sub)
print(separator)
for rdata in tdata:
data_sub = tuple([self.to_unicode_str(rdata[i]).ljust(lens[i]) if rdata[i] != None else ''.ljust(lens[i]) for i in range(0,cols)])
print(data_str % data_sub)
# bottom of ascii table
print(separator)
print('')
#==================================================
# DATABASE METHODS
#==================================================
def query(self, *args, **kwargs):
path = os.path.join(self.workspace, 'data.db')
return self._query(path, *args, **kwargs)
def _query(self, path, query, values=(), include_header=False):
'''Queries the database and returns the results as a list.'''
self.debug(f"DATABASE => {path}")
self.debug(f"QUERY => {query}")
with sqlite3.connect(path) as conn:
with closing(conn.cursor()) as cur:
if values:
self.debug(f"VALUES => {repr(values)}")
cur.execute(query, values)
else:
cur.execute(query)
# a rowcount of -1 typically refers to a select statement
if cur.rowcount == -1:
rows = []
if include_header:
rows.append(tuple([x[0] for x in cur.description]))
rows.extend(cur.fetchall())
results = rows
# a rowcount of 1 == success and 0 == failure
else:
conn.commit()
results = cur.rowcount
return results
def get_columns(self, table):
return [(x[1], x[2]) for x in self.query(f"PRAGMA table_info('{table}')")]
def get_tables(self):
return [x[0] for x in self.query('SELECT name FROM sqlite_master WHERE type=\'table\'') if x[0] not in ['dashboard']]
#==================================================
# INSERT METHODS
#==================================================
def _display(self, data, rowcount, pattern=None, keys=None):
display = self.alert if rowcount else self.verbose
if pattern and keys:
values = tuple([data[key] or '' for key in keys])
display(pattern % values)
else:
for key in sorted(data.keys()):
display(f"{key.title()}: {data[key]}")
display(self.ruler*50)
def insert_domains(self, domain=None, mute=False):
'''Adds a domain to the database and returns the affected row count.'''
data = dict(
domain = domain
)
rowcount = self.insert('domains', data.copy(), data.keys())
if not mute: self._display(data, rowcount, '[domain] %s', data.keys())
return rowcount
def insert_companies(self, company=None, description=None, mute=False):
'''Adds a company to the database and returns the affected row count.'''
data = dict(
company = company,
description = description
)
rowcount = self.insert('companies', data.copy(), ('company',))
if not mute: self._display(data, rowcount, '[company] %s - %s', data.keys())
return rowcount
def insert_netblocks(self, netblock=None, mute=False):
'''Adds a netblock to the database and returns the affected row count.'''
data = dict(
netblock = netblock
)
rowcount = self.insert('netblocks', data.copy(), data.keys())
if not mute: self._display(data, rowcount, '[netblock] %s', data.keys())
return rowcount
def insert_locations(self, latitude=None, longitude=None, street_address=None, mute=False):
'''Adds a location to the database and returns the affected row count.'''
data = dict(
latitude = latitude,
longitude = longitude,
street_address = street_address
)
rowcount = self.insert('locations', data.copy(), data.keys())
if not mute: self._display(data, rowcount, '[location] %s, %s - %s', data.keys())
return rowcount
def insert_vulnerabilities(self, host=None, reference=None, example=None, publish_date=None, category=None, status=None, mute=False):
'''Adds a vulnerability to the database and returns the affected row count.'''
data = dict(
host = host,
reference = reference,
example = example,
publish_date = publish_date.strftime(self.time_format) if publish_date else None,
category = category,
status = status
)
rowcount = self.insert('vulnerabilities', data.copy(), data.keys())
if not mute: self._display(data, rowcount)
return rowcount
def insert_ports(self, ip_address=None, host=None, port=None, protocol=None, mute=False):
'''Adds a port to the database and returns the affected row count.'''
data = dict(
ip_address = ip_address,
port = port,
host = host,
protocol = protocol
)
rowcount = self.insert('ports', data.copy(), ('ip_address', 'port', 'host'))
if not mute: self._display(data, rowcount, '[port] %s (%s/%s) - %s', ('ip_address', 'port', 'protocol', 'host'))
return rowcount
def insert_hosts(self, host=None, ip_address=None, region=None, country=None, latitude=None, longitude=None, mute=False):
'''Adds a host to the database and returns the affected row count.'''
data = dict(
host = host,
ip_address = ip_address,
region = region,
country = country,
latitude = latitude,
longitude = longitude
)
rowcount = self.insert('hosts', data.copy(), ('host', 'ip_address'))
if not mute: self._display(data, rowcount, '[host] %s (%s)', ('host', 'ip_address'))
return rowcount
def insert_contacts(self, first_name=None, middle_name=None, last_name=None, email=None, title=None, region=None, country=None, mute=False):
'''Adds a contact to the database and returns the affected row count.'''
data = dict(
first_name = first_name,
middle_name = middle_name,
last_name = last_name,
title = title,
email = email,
region = region,
country = country
)
rowcount = self.insert('contacts', data.copy(), ('first_name', 'middle_name', 'last_name', 'title', 'email'))
if not mute: self._display(data, rowcount, '[contact] %s %s (%s) - %s', ('first_name', 'last_name', 'email', 'title'))
return rowcount
def insert_credentials(self, username=None, password=None, _hash=None, _type=None, leak=None, mute=False):
'''Adds a credential to the database and returns the affected row count.'''
data = dict (
username = username,
password = password,
hash = _hash,
type = _type,
leak = leak
)
if password and not _hash:
hash_type = self.is_hash(password)
if hash_type:
data['hash'] = password
data['type'] = hash_type
data['password'] = None
# add email usernames to contacts
if username is not None and '@' in username:
self.insert_contacts(first_name=None, last_name=None, title=None, email=username)
rowcount = self.insert('credentials', data.copy(), data.keys())
if not mute: self._display(data, rowcount, '[credential] %s: %s', ('username', 'password'))
return rowcount
def insert_leaks(self, leak_id=None, description=None, source_refs=None, leak_type=None, title=None, import_date=None, leak_date=None, attackers=None, num_entries=None, score=None, num_domains_affected=None, attack_method=None, target_industries=None, password_hash=None, password_type=None, targets=None, media_refs=None, mute=False):
'''Adds a leak to the database and returns the affected row count.'''
data = dict(
leak_id = leak_id,
description = description,
source_refs = source_refs,
leak_type = leak_type,
title = title,
import_date = import_date,
leak_date = leak_date,
attackers = attackers,
num_entries = num_entries,
score = score,
num_domains_affected = num_domains_affected,
attack_method = attack_method,
target_industries = target_industries,
password_hash = password_hash,
password_type = password_type,
targets = targets,
media_refs = media_refs
)
rowcount = self.insert('leaks', data.copy(), data.keys())
if not mute: self._display(data, rowcount)
return rowcount
def insert_pushpins(self, source=None, screen_name=None, profile_name=None, profile_url=None, media_url=None, thumb_url=None, message=None, latitude=None, longitude=None, time=None, mute=False):
'''Adds a pushpin to the database and returns the affected row count.'''
data = dict(
source = source,
screen_name = screen_name,
profile_name = profile_name,
profile_url = profile_url,
media_url = media_url,
thumb_url = thumb_url,
message = message,
latitude = latitude,
longitude = longitude,
time = time.strftime(self.time_format)
)
rowcount = self.insert('pushpins', data.copy(), data.keys())
if not mute: self._display(data, rowcount)
return rowcount
def insert_profiles(self, username=None, resource=None, url=None, category=None, notes=None, mute=False):
'''Adds a profile to the database and returns the affected row count.'''
data = dict(
username = username,
resource = resource,
url = url,
category = category,
notes = notes
)
rowcount = self.insert('profiles', data.copy(), ('username', 'url'))
if not mute: self._display(data, rowcount, '[profile] %s - %s (%s)', ('username', 'resource', 'url'))
return rowcount
def insert_repositories(self, name=None, owner=None, description=None, resource=None, category=None, url=None, mute=False):
'''Adds a repository to the database and returns the affected row count.'''
data = dict(
name = name,
owner = owner,
description = description,
resource = resource,
category = category,
url = url
)
rowcount = self.insert('repositories', data.copy(), data.keys())
if not mute: self._display(data, rowcount, '[repository] %s - %s', ('name', 'description'))
return rowcount
def insert(self, table, data, unique_columns=[]):
'''Inserts items into database and returns the affected row count.
table - the table to insert the data into
data - the information to insert into the database table in the form of a dictionary
where the keys are the column names and the values are the column values
unique_columns - a list of column names that should be used to determine if the
information being inserted is unique'''
# set module to the calling module unless the do_add command was used
data['module'] = 'user_defined' if '_do_db_insert' in [x[3] for x in inspect.stack()] else self._modulename.split('/')[-1]
# sanitize the inputs to remove NoneTypes, blank strings, and zeros
columns = [x for x in data.keys() if data[x]]
# make sure that module is not seen as a unique column
unique_columns = [x for x in unique_columns if x in columns and x != 'module']
# exit if there is nothing left to insert
if not columns:
return 0
# convert any type to unicode (str) for external processing
for column in columns:
data[column] = self.to_unicode_str(data[column])
# build the insert query
columns_str = '`, `'.join(columns)
placeholder_str = ', '.join('?'*len(columns))
unique_columns_str = ' and '.join([f"`{column}`=?" for column in unique_columns])
if not unique_columns:
query = f"INSERT INTO `{table}` (`{columns_str}`) VALUES ({placeholder_str})"
else:
query = f"INSERT INTO `{table}` (`{columns_str}`) SELECT {placeholder_str} WHERE NOT EXISTS(SELECT * FROM `{table}` WHERE {unique_columns_str})"
values = tuple([data[column] for column in columns] + [data[column] for column in unique_columns])
# query the database
rowcount = self.query(query, values)
# increment summary tracker
if table not in self._summary_counts:
self._summary_counts[table] = [0,0]
self._summary_counts[table][0] += rowcount
self._summary_counts[table][1] += 1
return rowcount
#==================================================
# OPTIONS METHODS
#==================================================
def register_option(self, name, value, required, description):
self.options.init_option(name=name, value=value, required=required, description=description)
# needs to be optimized rather than ran on every register
self._load_config()
def _validate_options(self):
for option in self.options:
# if value type is bool or int, then we know the options is set
if not type(self.options[option]) in [bool, int]:
if self.options.required[option] is True and not self.options[option]:
raise FrameworkException(f"Value required for the '{option}' option.")
return
def _list_options(self, options=None):
'''Lists options'''
if options is None:
options = self.options
if options:
pattern = f"{self.spacer}%s %s %s %s"
key_len = len(max(options, key=len))
if key_len < 4: key_len = 4
val_len = len(max([self.to_unicode_str(options[x]) for x in options], key=len))
if val_len < 13: val_len = 13
print('')
print(pattern % ('Name'.ljust(key_len), 'Current Value'.ljust(val_len), 'Required', 'Description'))
print(pattern % (self.ruler*key_len, (self.ruler*13).ljust(val_len), self.ruler*8, self.ruler*11))
for key in sorted(options):
value = options[key] if options[key] != None else ''
reqd = 'no' if options.required[key] is False else 'yes'
desc = options.description[key]
print(pattern % (key.ljust(key_len), self.to_unicode_str(value).ljust(val_len), self.to_unicode_str(reqd).ljust(8), desc))
print('')
else:
print('')
print(f"{self.spacer}No options available for this module.")
print('')
def _load_config(self):
config_path = os.path.join(self.workspace, 'config.dat')
# don't bother loading if a config file doesn't exist
if os.path.exists(config_path):
# retrieve saved config data
with open(config_path) as config_file:
try:
config_data = json.loads(config_file.read())
except ValueError:
# file is corrupt, nothing to load, exit gracefully
pass
else:
# set option values
for key in self.options:
try:
self.options[key] = config_data[self._modulename][key]
except KeyError:
# invalid key, contnue to load valid keys
continue
def _save_config(self, name):
config_path = os.path.join(self.workspace, 'config.dat')
# create a config file if one doesn't exist
open(config_path, 'a').close()
# retrieve saved config data
with open(config_path) as config_file:
try:
config_data = json.loads(config_file.read())
except ValueError:
# file is empty or corrupt, nothing to load
config_data = {}
# create a container for the current module
if self._modulename not in config_data:
config_data[self._modulename] = {}
# set the new option value in the config
config_data[self._modulename][name] = self.options[name]
# remove the option if it has been unset
if config_data[self._modulename][name] is None:
del config_data[self._modulename][name]
# remove the module container if it is empty
if not config_data[self._modulename]:
del config_data[self._modulename]
# write the new config data to the config file
with open(config_path, 'w') as config_file:
json.dump(config_data, config_file, indent=4)
#==================================================
# API KEY METHODS
#==================================================
def get_key(self, name):
rows = self._query_keys('SELECT value FROM keys WHERE name=? AND value NOT NULL', (name,))
if not rows:
return None
return rows[0][0]
def add_key(self, name, value):
result = self._query_keys('UPDATE keys SET value=? WHERE name=?', (value, name))
if not result:
return self._query_keys('INSERT INTO keys VALUES (?, ?)', (name, value))
return result
def remove_key(self, name):
#return self._query_keys('UPDATE keys SET value=NULL WHERE name=?', (name,))
return self._query_keys('DELETE FROM keys WHERE name=?', (name,))
def _query_keys(self, query, values=()):
path = os.path.join(self.home_path, 'keys.db')
result = self._query(path, query, values)
# filter out tokens when not called from the get_key method
if type(result) is list and 'get_key' not in [x[3] for x in inspect.stack()]:
result = [x for x in result if not x[0].endswith('_token')]
return result
def _list_keys(self):
keys = self._query_keys('SELECT * FROM keys')
tdata = []
for key in sorted(keys):
tdata.append(key)
if tdata:
self.table(tdata, header=['Name', 'Value'])
def _get_key_names(self):
return [x[0] for x in self._query_keys('SELECT name FROM keys')]
#==================================================
# REQUEST METHODS
#==================================================
def _print_prepared_request(self, prepared):
self.debug(f"{'='*25} REQUEST {'='*25}")
print(f"url: {prepared.url}")
print(f"method: {prepared.method} {prepared.path_url}")
for k, v in prepared.headers.items():
print(f"header: {k}: {v}")
if prepared.body:
print(f"body: {prepared.body}")
def _print_response(self, resp):
self.debug(f"{'='*25} RESPONSE {'='*25}")
print(f"status: {resp.status_code} {resp.reason}")
for k, v in resp.headers.items():
print(f"header: {k}: {v}")
if resp.content:
print(f"body: {resp.content}")
def request(self, method, url, **kwargs):
# process socket timeout
kwargs['timeout'] = kwargs.get('timeout') or self._global_options['timeout']
# process headers
headers = kwargs.get('headers') or {}
# set the User-Agent header
if 'user-agent' not in [h.lower() for h in headers]:
headers['user-agent'] = self._global_options['user-agent']
# normalize capitalization of the User-Agent header
headers = {k.title(): v for k, v in headers.items()}
kwargs['headers'] = headers
# process proxy
proxy = self._global_options['proxy']
if proxy:
proxies = {
'http': f"http://{proxy}",
'https': f"http://{proxy}",
}
kwargs['proxies'] = proxies
# disable TLS validation and warning
kwargs['verify'] = False
requests.packages.urllib3.disable_warnings(requests.packages.urllib3.exceptions.InsecureRequestWarning)
# send the request
resp = getattr(requests, method.lower())(url, **kwargs)
if self._global_options['verbosity'] < 2:
return resp
# display request data
self._print_prepared_request(resp.request)
# display response data
self._print_response(resp)
return resp
#==================================================
# MODULES METHODS
#==================================================
def _match_modules(self, params):
# return an exact match
if params in Framework._loaded_modules:
return [params]
# use the provided name as a keyword search and return the results
return [x for x in Framework._loaded_modules if params in x]
def _list_modules(self, modules):
if modules:
key_len = len(max(modules, key=len)) + len(self.spacer)
last_category = ''
for module in sorted(modules):
category = module.split('/')[0]
if category != last_category:
# print header
last_category = category
self.heading(last_category)
# print module
print(f"{self.spacer*2}{module}")
else:
print('')
self.alert('No modules enabled/installed.')
print('')
#==================================================
# SHOW METHODS
#==================================================
def _get_show_names(self):
# Any method beginning with "show_" will be parsed
# and added as a subcommand for the show command.
prefix = 'show_'
return [x[len(prefix):] for x in self.get_names() if x.startswith(prefix)]
#==================================================
# COMMAND METHODS
#==================================================
def _parse_subcommands(self, command):
subcommands = []
for method in dir(self):
if f"_do_{command}_" in method:
subcommands.append(method.split('_')[-1])
return subcommands
def _parse_params(self, params):
params = params.split()
arg = ''
if params:
arg = params.pop(0)
params = ' '.join(params)
return arg, params
def do_exit(self, params):
'''Exits the framework'''
self._exit = 1
return True
def do_back(self, params):
'''Exits the current context'''
return True
def do_options(self, params):
'''Manages the current context options'''
if not params:
self.help_options()
return
arg, params = self._parse_params(params)
if arg in self._parse_subcommands('options'):
return getattr(self, '_do_options_'+arg)(params)
else:
self.help_options()
def _do_options_list(self, params):
'''Shows the current context options'''
self._list_options()
def _do_options_set(self, params):
'''Sets a current context option'''
option, value = self._parse_params(params)
if not option and value:
self._help_options_set()
return
if option in self.options:
self.options[option] = value
print(f"{option} => {value}")
self._save_config(option)
else:
self.error('Invalid option name.')
def _do_options_unset(self, params):
'''Unsets a current context option'''
option, value = self._parse_params(params)
if not option:
self._help_options_unset()
return
if option in self.options:
self._do_options_set(' '.join([option, 'None']))
else:
self.error('Invalid option name.')
def do_keys(self, params):
'''Manages third party resource credentials'''
if not params:
self.help_keys()
return
arg, params = self._parse_params(params)
if arg in self._parse_subcommands('keys'):
return getattr(self, '_do_keys_'+arg)(params)
else:
self.help_keys()
def _do_keys_list(self, params):
'''Lists third party resource credentials'''
self._list_keys()
def _do_keys_add(self, params):
'''Adds/Updates a third party resource credential'''
key, value = self._parse_params(params)
if not (key and value):
self._help_keys_add()
return
if self.add_key(key, value):
self.output(f"Key '{key}' added.")
def _do_keys_remove(self, params):
'''Removes a third party resource credential'''
key, value = self._parse_params(params)
if not key:
self._help_keys_remove()
return
if self.get_key(key):
if self.remove_key(key):
self.output(f"Key '{key}' deleted.")
else:
self.error('Invalid key name.')
def do_modules(self, params):
'''Interfaces with installed modules'''
if not params:
self.help_modules()
return
arg, params = self._parse_params(params)
if arg in self._parse_subcommands('modules'):
return getattr(self, '_do_modules_'+arg)(params)
else:
self.help_modules()
def _do_modules_search(self, params):
'''Searches installed modules'''
modules = [x for x in Framework._loaded_modules]
if params:
self.output(f"Searching installed modules for '{params}'...")
modules = [x for x in Framework._loaded_modules if re.search(params, x)]
if modules:
self._list_modules(modules)
else:
self.error('No modules found.')
self._help_modules_search()
def _do_modules_load(self, params):
'''Searches installed modules'''
raise NotImplementedError
def do_show(self, params):
'''Shows various framework items'''
if not params:
self.help_show()
return
arg, params = self._parse_params(params)
if arg in self._get_show_names():
getattr(self, 'show_' + arg)()
elif arg in self.get_tables():
self.do_db(f"query SELECT ROWID, * FROM `{arg}`")
else:
self.help_show()
def do_db(self, params):
'''Interfaces with the workspace's database'''
if not params:
self.help_db()
return
arg, params = self._parse_params(params)
if arg in self._parse_subcommands('db'):
return getattr(self, '_do_db_'+arg)(params)
else:
self.help_db()
def _do_db_insert(self, params):
'''Inserts a row into the database'''
table, params = self._parse_params(params)
if not table:
self._help_db_insert()
return
if table in self.get_tables():
# validate insert_* method for table
if not hasattr(self, 'insert_' + table):
self.error('Cannot add records to dynamically created tables.')
return
columns = [x for x in self.get_columns(table) if x[0] != 'module']
# sanitize column names to avoid conflicts with builtins in insert_* method
sanitize_column = lambda x: '_'+x if x in ['hash', 'type'] else x
record = {}
# build record from parameters
if params:
# parse params into values by delim
values = params.split('~')
# validate parsed value input
if len(columns) == len(values):
# assign each value to a column
for i in range(0,len(columns)):
record[sanitize_column(columns[i][0])] = values[i]
else:
self.error('Columns and values length mismatch.')
return
# build record from interactive input
else:
for column in columns:
try:
# prompt user for data
value = input(f"{column[0]} ({column[1]}): ")
record[sanitize_column(column[0])] = value
except KeyboardInterrupt:
print('')
return
finally:
# ensure proper output for resource scripts
if Framework._script:
print(f"{value}")
# add record to the database
func = getattr(self, 'insert_' + table)
count = func(mute=True, **record)
self.output(f"{count} rows affected.")
else:
self.output('Invalid table name.')
def _do_db_delete(self, params):
'''Deletes a row from the database'''
table, params = self._parse_params(params)
if not table:
self._help_db_delete()
return
if table in self.get_tables():
# get rowid from parameters
if params:
rowids = self._parse_rowids(params)
# get rowid from interactive input
else:
try:
# prompt user for data
params = input('rowid(s) (INT): ')
rowids = self._parse_rowids(params)
except KeyboardInterrupt:
print('')
return
finally:
# ensure proper output for resource scripts
if Framework._script:
print(f"{params}")
# delete record(s) from the database
count = 0
for rowid in rowids:
count += self.query(f"DELETE FROM `{table}` WHERE ROWID IS ?", (rowid,))
self.output(f"{count} rows affected.")
else:
self.output('Invalid table name.')
def _do_db_query(self, params):
'''Queries the database with custom SQL'''
if not params:
self._help_db_query()
return
try:
results = self.query(params, include_header=True)
except sqlite3.OperationalError as e:
self.error(f"Invalid query. {type(e).__name__} {e}")
return
if type(results) == list:
header = results.pop(0)
if not results:
self.output('No data returned.')
else:
self.table(results, header=header)
self.output(f"{len(results)} rows returned")
else:
self.output(f"{results} rows affected.")
def _do_db_schema(self, params):
'''Displays the database schema'''
tables = self.get_tables()
for table in tables:
columns = self.get_columns(table)
self.table(columns, title=table)
def do_script(self, params):
'''Records and executes command scripts'''
if not params:
self.help_script()
return
arg, params = self._parse_params(params)
if arg in self._parse_subcommands('script'):
return getattr(self, '_do_script_'+arg)(params)
else:
self.help_script()
def _do_script_record(self, params):
'''Records commands in a script file'''
if not Framework._record:
filename, params = self._parse_params(params)
if not filename:
self._help_script_record()
return
if not self._is_writeable(filename):
self.output(f"Cannot record commands to '{filename}'.")
else:
Framework._record = filename
self.output(f"Recording commands to '{Framework._record}'.")
else:
self.output('Recording is already started.')
def _do_script_stop(self, params):
'''Stops command recording'''
if Framework._record:
self.output(f"Recording stopped. Commands saved to '{Framework._record}'.")
Framework._record = None
else:
self.output('Recording is already stopped.')
def _do_script_status(self, params):
'''Provides the status of command recording'''
status = 'started' if Framework._record else 'stopped'
self.output(f"Command recording is {status}.")
def _do_script_execute(self, params):
'''Executes commands from a script file'''
if not params:
self._help_script_execute()
return
if os.path.exists(params):
# works even when called before Recon.start due
# to stdin waiting for the iteractive prompt
sys.stdin = open(params)
Framework._script = 1
else:
self.error(f"Script file '{params}' not found.")
def do_spool(self, params):
'''Spools output to a file'''
if not params:
self.help_spool()
return
arg, params = self._parse_params(params)
if arg in self._parse_subcommands('spool'):
return getattr(self, '_do_spool_'+arg)(params)
else:
self.help_spool()
def _do_spool_start(self, params):
'''Starts output spooling'''
if not Framework._spool:
filename, params = self._parse_params(params)
if not filename:
self._help_spool_start()
return
if not self._is_writeable(filename):
self.output(f"Cannot spool output to '{filename}'.")
else:
Framework._spool = codecs.open(filename, 'ab', encoding='utf-8')
self.output(f"Spooling output to '{Framework._spool.name}'.")
else:
self.output('Spooling is already started.')
def _do_spool_stop(self, params):
'''Stops output spooling'''
if Framework._spool:
self.output(f"Spooling stopped. Output saved to '{Framework._spool.name}'.")
Framework._spool = None
else:
self.output('Spooling is already stopped.')
def _do_spool_status(self, params):
'''Provides the status of output spooling'''
status = 'started' if Framework._spool else 'stopped'
self.output(f"Output spooling is {status}.")
def do_shell(self, params):
'''Executes shell commands'''
if not params:
self.help_shell()
return
proc = subprocess.Popen(params, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=subprocess.PIPE)
self.output(f"Command: {params}")
stdout = proc.stdout.read()
stderr = proc.stderr.read()
if stdout:print(f"{Colors.O}{self.to_unicode(stdout)}{Colors.N}", end='')
if stderr:print(f"{Colors.R}{self.to_unicode(stderr)}{Colors.N}", end='')
def do_dashboard(self, params):
'''Displays a summary of activity'''
rows = self.query('SELECT * FROM dashboard ORDER BY 1')
if rows:
# display activity table
tdata = []
for row in rows:
tdata.append(row)
self.table(tdata, header=['Module', 'Runs'], title='Activity Summary')
# display summary results table
tables = self.get_tables()
tdata = []
for table in tables:
count = self.query(f"SELECT COUNT(*) FROM `{table}`")[0][0]
tdata.append([table.title(), count])
self.table(tdata, header=['Category', 'Quantity'], title='Results Summary')
else:
self.output('This workspace has no record of activity.')
def do_pdb(self, params):
'''Starts a Python Debugger session (dev only)'''
import pdb
pdb.set_trace()
#==================================================
# HELP METHODS
#==================================================
def help_options(self):
print(getattr(self, 'do_options').__doc__)
print(f"{os.linesep}Usage: options <{'|'.join(self._parse_subcommands('options'))}> [...]{os.linesep}")
def _help_options_set(self):
print(getattr(self, '_do_options_set').__doc__)
print(f"{os.linesep}Usage: set