CloakifyFactory & the Cloakify Toolset - Data Exfiltration & Infiltration In Plain Sight; Evade DLP/MLS Devices; Social Engineering of Analysts; Defeat Data Whitelisting Controls; Evade AV Detection. Text-based steganography using lists. Convert any file type (e.g. executables, Office, Zip, images) into a list of everyday strings. Very simple tools, powerful concept, limited only by your imagination.
(Update 05/27/2020: Yes, I'll be migrating all of my Github projects to Python3 over the summer of 2020.)
Joe Gervais (TryCatchHCF)
See my DEF CON 24 slides (included in project) from Crypto & Privacy Village workshop and DemoLabs session. Complete tutorial on what the Cloakify Toolset can do, specific use cases, and more. (The examples in the presentation use the standalone scripts, I recommend using the new CloakifyFactory to streamline your efforts.)
For a quick start on CloakifyFactory, see the cleverly titled file "README_GETTING_STARTED.txt" in the project for a walkthrough.
CloakifyFactory transforms any filetype (e.g. .zip, .exe, .xls, etc.) into a list of harmless-looking strings. This lets you hide the file in plain sight, and transfer the file without triggering alerts. The fancy term for this is "text-based steganography", hiding data by making it look like other data. For example, you can transform a .zip file into a list of Pokemon creatures or Top 100 Websites. You then transfer the cloaked file however you choose, and then decloak the exfiltrated file back into its original form.
With your payload cloaked, you can transfer data across a secure network’s perimeter without triggering alerts. You can also defeat data whitelisting controls - is there a security device that only allows IP addresses to leave or enter a network? Turn your payload into IP addresses, problem solved. Additionaly, you can derail the security analyst’s review via social engineering attacks against their workflows. And as a final bonus, cloaked files defeat signature-based malware detection tools.
The pre-packaged ciphers are designed to appear like harmless / ignorable lists, though some (like MD5 password hashes) are specifically meant as distracting bait.
CloakifyFactory is also a great way to introduce people to crypto and steganography concepts. It's simple to use, guides the user through the process, and according to our kids is also fun!
$ python cloakifyFactory.py
CloakifyFactory is a menu-driven tool that leverages Cloakify Toolset scripts. When you choose to Cloakify a file, the scripts first Base64-encode the payload, then apply a cipher to generate a list of strings that encodes the Base64 payload. You then transfer the file however you wish to its desired destination. Once exfiltrated, choose Decloakify with the same cipher to decode the payload.
NOTE: Cloakify is not a secure encryption scheme. It's vulnerable to frequency analysis attacks. Use the 'Add Noise' option to add entropy when cloaking a payload to help degrade frequency analysis attacks. Be sure to encrypt the file prior to cloaking if secrecy is needed.
The supporting scripts (cloakify.py and decloakify.py) can be used as standalone scripts. Very small, simple, clean, portable. For scenarios where infiltrating the full toolset is impractical, you can quickly type the standalone script into a target’s local shell, generate a cipher in place, and cloakify -> exfiltrate.
Use py2exe if Windows target lacks Python. (http://www.py2exe.org/)
Prepackaged ciphers include lists of:
Prepackaged scripts for adding noise / entropy to your cloaked payloads:
See comments in each script for details on how to tailor the Noise Generators for your own needs
Cloakify Factory is at its best when you're using your own customized ciphers. The default ciphers may work for most needs, but in a unique exfiltration scenario you may need to build your own. At the very least, you can copy a prepackaged cipher and randomize the order.
Creating a Cipher:
Some of you may prefer to use the Cloakify Toolset scripts in standalone mode. The toolset is designed to support that.
Add noise to degrade frequency analysis attacks against your cloaked payloads. Here we use the 'pokemonGo' cipher, then use the 'prependLatLonCoords.py' script to generate random geocoords in a 10x10 mile grid. Strip noise from the file before decloaking, using the 'removeNoise.py' script.