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FISSURE - The RF Framework

Frequency Independent SDR-based Signal Understanding and Reverse Engineering

FISSURE is an open-source RF and reverse engineering framework designed for all skill levels with hooks for signal detection and classification, protocol discovery, attack execution, IQ manipulation, vulnerability analysis, automation, and AI/ML. The framework was built to promote the rapid integration of software modules, radios, protocols, signal data, scripts, flow graphs, reference material, and third-party tools. FISSURE is a workflow enabler that keeps software in one location and allows teams to effortlessly get up to speed while sharing the same proven baseline configuration for specific Linux distributions.

The framework and tools included with FISSURE are designed to detect the presence of RF energy, understand the characteristics of a signal, collect and analyze samples, develop transmit and/or injection techniques, and craft custom payloads or messages. FISSURE contains a growing library of protocol and signal information to assist in identification, packet crafting, and fuzzing. Online archive capabilities exist to download signal files and build playlists to simulate traffic and test systems.

The friendly Python codebase and user interface allows beginners to quickly learn about popular tools and techniques involving RF and reverse engineering. Educators in cybersecurity and engineering can take advantage of the built-in material or utilize the framework to demonstrate their own real-world applications. Developers and researchers can use FISSURE for their daily tasks or to expose their cutting-edge solutions to a wider audience. As awareness and usage of FISSURE grows in the community, so will the extent of its capabilities and the breadth of the technology it encompasses.

News

NEW

Plugins to import and export capabilities into the FISSURE library and share with collaborators.

NEW

Demo Menu to aid with future automated testing and to provide examples of Dashboard operation to users.

NEW

Z-Wave and Ceiling Fans Lessons to highlight FISSURE as a reverse engineering tool. Lesson13: Z-Wave, Lesson14: Ceiling Fans

NEW

Recall Installer Setups Export and import checked software items in the FISSURE installer using the Export and Import buttons. Quickly install only the programs you need.

NEW

Local IQEngine Support in the IQ Data tab and menu for loading in SigMF files with one click for files in the "/IQ Recordings" folder. Stop the IQEngine docker container using the Tools>Data>IQEngine menu.

NEW

Deployable remote sensor nodes for general-purpose computers (SBCs, mini PCs, laptops, desktops) that support any type of peripheral that can be controlled by a computer. These remote sensor nodes run a small subset of code that can be controlled over a network through the FISSURE Dashboard GUI to perform traditional FISSURE operations and also execute new types of scripted actions that can be run autonomously on startup or semi-autonomously through user interaction (autorun playlists).

The deployment of multiple sensor nodes on the same network unlocks many geospatial applications for future development of FISSURE. Such applications include direction finding, tracking, intrusion detection, mobile deployment, and perimeter defense. A small form factor and autonomous capabilities grant unique opportunities for stealth deployment and packaging onto existing platforms. These updates can also provide a low-cost mechanism for remote workers to conduct combined RF-cybersecurity testing and access specialized RF environments like international localities of interest, laboratories, and test sites.

NEW

Trigger capabilities for autorun playlists, single-stage attacks, multi-stage attacks, and archive replay. Includes over 20 examples of acoustic, environmental, filesystem, networking, RF, time, and visual triggers for kicking off electromagnetic effects. Refer to the Trigger List section in the user manual for the current list and the Creating Triggers section on how to add your own.

NEW

Signal Classifier tab for training decision tree and DNN models based solely on extracted statistical features from IQ data. This tab is used to assign truth information to features sets (produced from Feature Extractor) gathered from isolated signals files (produced from Signal Conditioner) to develop machine learning models using TensorFlow and scikit-learn. Unknown signals can be run through all available models to compare results and establish confidence. The Signal Conditioner, Feature Extractor, and Signal Classifier tabs act as a testbed for developing new algorithms and eventually the results (isolated IQ signals, statistical features, classification confidence) will be cataloged into the FISSURE library as signals of interest for further analysis or to trigger automated actions.

NEW

On-off keying signal generator in the IQ Data tab for quick viewing and testing of signals/devices. Custom signals can be saved as IQ files for replay to perform actions on targets or simulate RF devices.

Upcoming/Recent Events

Conference Sat. August 10, 2024: DEF CON 32 - RF Village - 1400-1500 PST. Prerecorded Video, Live Recording

Career Fair Thu. September 5, 2024: Binghamton University STEM Job and Internship Fair - 1100-1530 EST

Conference Tue. September 17, 2024: GNU Radio Conference 2024 - 1605-1635 EST Description/Slides, Live Recording

CTF December 2024 (Final dates coming soon!): 2024 FISSURE Challenge. Link (Coming Soon)

Documentation

User Manual Installation Hardware Components Operation Development Credits

Capabilities

Signal Detector
IQ Manipulation
Signal Lookup
Pattern Recognition
Attacks
Fuzzing
Signal Playlists
Image Gallery
Packet Crafting
Scapy Integration
CRC Calculator
Logging
Dataset Builder
Online Archive
Third-Party Tools
Dark and Custom Themes

Videos

Install
Target Signal Identification
Protocol Discovery
Packet Crafter
IQ Data
Archive
Attack
Library
GRCon22
DC32 RF Village Prerecorded Talk
GRCon24

Hardware

The following is a list of "supported" hardware with varying levels of integration:

  • USRP: X3xx, B2xx, B20xmini, USRP2, N2xx, X410
  • HackRF
  • RTL2832U
  • 802.11 Adapters
  • LimeSDR
  • bladeRF, bladeRF 2.0 micro
  • Open Sniffer
  • PlutoSDR
  • SDRplay: RSPduo, RSPdx, RSPdx R2

Getting Started

Supported

There are now two branches within FISSURE: the Python3 branch and the Python2_maint-3.7 branch. The Python3 branch contains the latest code and has support for PyQt5 and GNU Radio versions 3.8 and 3.10. The Python2_maint-3.7 branch has been deprecated and will only be updated if specific third-party tools require GNU Radio version 3.7 or an older operating system. Only the latest minor versions of operating systems will be supported for installs and we will do our best to keep up.

Operating System FISSURE Branch Default GNU Radio Version
BackBox Linux 8 (amd64) Python3 maint-3.10
DragonOS FocalX (x86_64) Python3 maint-3.10
Kali 23.1 (x64) Python3 maint-3.10
KDE neon 5.25 (x64) (6.0 not tested) Python3 maint-3.8
Parrot Security 6.1 (amd64) Python3 maint-3.10
Raspberry Pi OS (bookworm) Python3 maint-3.10
Ubuntu 18.04 (x64) Python2_maint-3.7 maint-3.7
Ubuntu 20.04 (x64) Python3 maint-3.8
Ubuntu 22.04 (x64) Python3 maint-3.10
Ubuntu 22.04 (ARM/Orange Pi) Python3 maint-3.10
Ubuntu 24.04 (x86) Python3 maint-3.10

In-Progress (beta)

These operating systems are still in beta status. They are under development and several features are known to be missing. Items in the installer might conflict with existing programs or fail to install until the status is removed.

Operating System FISSURE Branch Default GNU Radio Version
None

Note: Certain software tools do not work for every OS. Refer to Known Conflicts and Third-Party Software

Installation

For adding SSH keys to GitHub:

ssh-keygen -t ed25519
cat ~/.ssh/id_ed25519.pub
Paste text into "Settings" > "SSH and GPG keys" > "New SSH Key"
git clone [email protected]:ainfosec/FISSURE.git 
git clone https://github.com/ainfosec/FISSURE.git
cd FISSURE
git checkout Python3  # or Python2_maint-3.7
git submodule update --init
./install

Notes:

  • The git submodule command will download all missing GNU Radio out-of-tree modules from their online repositories and is required to install the GNU Radio out-of-tree modules.
  • The installer will ask to install PyQt software dependencies required to launch the installation GUIs if they are not found.
  • Select the operating option in the GUI that best matches your operating system (should be detected automatically if your OS matches an option).
  • Periodically answer prompts regarding third-party throughout the install. Use your best judgment, the answers will not likely impact FISSURE.

It is recommended to install FISSURE on a clean operating system to avoid conflicts with existing software. Further efforts towards virtualization and dependency management will be continued. Notes on the installer:

  • The items listed under the "Minimum Install" category are what is required to launch the FISSURE Dashboard without errors.
  • The radio hardware and out of tree modules are required to perform many actions in FISSURE.
  • The flow graphs need to be recompiled to avoid errors across GNU Radio minor versions.
  • Software programs outside the minimum install are optional and can be installed as needed.
  • Select all the recommended checkboxes (Default button) to avoid errors while operating the various tools within FISSURE.
  • Items unchecked by default may not install properly or could possibly conflict with existing programs (please suggest fixes!).
  • There will be multiple prompts throughout the installation, mostly asking for elevated permissions and user names. These prompts are primarily tied to third-party tools, refer to installation instructions provided by the maintainer for details.
  • If an item contains a "Verify" section at the end, the installer will run the command that follows and highlight the checkbox item green or red depending on if any errors are produced by the command. Checked items without a "Verify" section will remain black following the installation.
  • To avoid installation and permission errors, download FISSURE to a user owned directory such as Home. Run the install script and the fissure command without using sudo. Many of the third-party tools will be downloaded to and installed from the ~/Installed_by_FISSURE directory.

The FISSURE installer is helpful for staging computers or installing select software programs of interest. The code can be quickly modified to allow for custom software installs. The size estimates for the programs are before and after readings from a full install. The sizes for each program are not exact as some dependencies are installed in previously checked items. The sizes may also change over time as programs get updated.

Remote Sensor Node Installation

Install FISSURE per usual on a general purpose computer. Install FISSURE on the remote computer in the same directory location as the local computer (until further notice) to avoid filepath errors with certain actions. To configure the sensor node for remote operation, edit the "default.yaml" file in the ./fissure/Sensor_Node/Sensor_Node_Config/ directory. Edit the following fields to change from local to remote operation:

  • nickname: (anything but "Local Sensor Node")
  • ip_address: (your remote sensor node computer's ip_address)

Change the "autorun" field from from false to true to run the default autorun playlist file on startup and forgo remote operations. New autorun playlists can be generated and saved from the Dashboard Autorun tab.

The remote sensor node acts as a server and must have a set of valid certificates (generated during install) that match with the client (local computer). The server needs the "server.key_secret" and "client.key" files while the client needs the "client.key_secret" and "server.key" files. If the certificates folder was generated on the server computer, the client files must be manually transferred to the other computer.

Local Dashboard Usage

Open a terminal and enter:

fissure

The intended method for launching the FISSURE Dashboard is through the terminal without sudo. The terminal provides important status and feedback for some operations. Refer to the FISSURE documentation for more details.

A local sensor node can be launched through the top buttons in the FISSURE Dashboard and helps maintain all pre-existing FISSURE functionality on a standalone workstation. Only one local and four remote sensor nodes (or five remote) are supported at this time.

If any of the programs freeze or hang on close, the following commands can be used to detect a problem or forcibly shut down:

sudo ps -aux | grep python3
sudo pkill python3
sudo kill -9 <PID of __main__.py>

Remote Sensor Node Usage

After configuring the sensor node config file (see above), the code can be run using this command from the root directory:

python3 ./fissure/Sensor_Node/SensorNode.py

The sensor node code will stay active until ctrl+c is applied. Connecting to the remote sensor node is performed through the top buttons of the FISSURE Dashboard. Right-clicking the top buttons will select an active sensor node to perform operations. Future operations that utilize more than one node at a time will be handled on a case-by-case basis within the individual tabs.

Lessons

FISSURE comes with several helpful guides to become familiar with different technologies and techniques. Many include steps for using various tools that are integrated into FISSURE. We aim to improve the quality and add new content over time.

Roadmap

Phase I

  • Provide links to videos in the README and AIS website
  • Create new FISSURE logo
  • Update documentation to instruct users how to work within the framework
  • Provide base support for hardware already on the market
  • Identify the most desirable third-party tools within the community
  • Identify the most desirable operating systems within the community
  • Release a signal conditioner that allows users to select and add techniques for isolating and conditioning signals from large streams of IQ data
  • Release a feature extractor that allows users to select and add techniques for extracting features from isolated signals for use in protocol and emitter classification
  • Release a signal classifier that allows users to select and add AI/ML techniques. In addition, a decision tree with adjustable features and weights.
  • Implement recursive demodulation mechanisms for producing a bitstream from unknown signals
  • Increase the online signal archive, support download of selectable collections
  • Support the addition of both closed source and user-developed plugins
  • Improve the look for different resolutions and window sizes, dark mode
  • Group third-party programs in the installer by type
  • Resolve DragonOS conflicts

Phase II

  • Transition the main FISSURE components to a generic sensor node deployment scheme
  • Increase automation and information exchange between components
  • Transition the FISSURE library into a database
  • Support alternative FISSURE packaging options
  • Add automatic modulation classification (AMC) techniques to the feature extractor
  • Support user selection of binary data and pattern analysis techniques
  • Improve custom Wireshark dissectors to be protocol-based and not message-based
  • Produce confidence levels against bit sequences for protocols and messages already in the library
  • Insert vulnerability analysis and automation to attacks
  • Improve the mechanism for fuzzing
  • Improve measurement, analysis, and visualization in IQ Data tab: radar data, frequency deviation, SigMF annotations
  • Create archive playlists to simulate environments
  • Develop formal classes around FISSURE (RF Attacks, Wi-Fi, GNU Radio, PyQt, etc.)
  • Expand on other untouched areas for RF and cyber (tracking, direction finding, war driving, etc.)

Phase III

  • Improve operational performance
  • Expand to other platforms
  • Insert customization for different RF environments and applications
  • Offer professional training

Concurrent

  • Clean up code, remove bugs
  • Add new help material
  • Improve status messages, system feedback, and visualization for the user
  • Integrate new hardware types as they are released
  • Expand RF protocols in list and library
  • Expand signal parameters in library
  • Expand third-party analysis tools and reference material
  • Expand support for specific operating systems
  • Produce and modify lesson material
  • Test and distribute attacks across existing hardware types (where applicable)
  • Improve installer: clean up commands, add more checks, fix broken installations
  • Provide yearly capture-the-flag contests around FISSURE
  • Support new GNU Radio releases
  • Update the project idea list every year

FISSURE Challenge

fissure_challenge

The annual "FISSURE Challenge" capture-the-flag contest to showcase new additions to FISSURE is held in December each year. Past challenges are archived and can be solved all year round! Gain hands-on experience and view solutions at: FISSURE Challenge.

Contributing

Suggestions for improving FISSURE are strongly encouraged. Leave a comment in the Discussions page or in the Discord Server if you have any thoughts regarding the following:

  • New feature suggestions and design changes
  • Software tools with installation steps
  • New lessons or additional material for existing lessons
  • RF protocols of interest
  • More hardware and SDR types for integration
  • IQ analysis scripts in Python
  • Installation corrections and improvements

Contributions to improve FISSURE are crucial to expediting its development. Any contributions you make are greatly appreciated. If you wish to contribute through code development, please fork the repo and create a pull request:

  1. Fork the project
  2. Create your feature branch (git checkout -b feature/AmazingFeature)
  3. Commit your changes (git commit -m 'Add some AmazingFeature')
  4. Push to the branch (git push origin feature/AmazingFeature)
  5. Open a pull request

Creating Issues to bring attention to bugs is also welcomed.

Need more specific ideas? There are a lot of topics we have yet to investigate. Check out our running list of potential to-do items. Any help is appreciated. Pick an easy one and write that you contributed to FISSURE in your resume/CV.

Are you a student or looking to learn more about RF and programming or an organization looking to expose students to the world of open source? Reach out today and refer to the 2023 Project Idea List.

Collaborating

Contact Assured Information Security, Inc. (AIS) Business Development to propose and formalize any FISSURE collaboration opportunities–whether that is through dedicating time towards integrating your software, having the talented people at AIS develop solutions for your technical challenges, or integrating FISSURE into other platforms/applications.

License

GPL-3.0

For license details, see LICENSE file.

Contact

Join the Discord Server: https://discord.gg/JZDs5sgxcG

Follow on Twitter/X: @FissureRF, @AinfoSec

Connect on LinkedIn: FISSURE - The RF Framework

Chris Poore - Assured Information Security, Inc. - [email protected]

Business Development - Assured Information Security, Inc. - [email protected]

Acknowledgments

Special thanks to Dr. Samuel Mantravadi and Joseph Reith for their contributions to this project.

Assured Information Security

Like working with signals, reverse engineering, or other realms in cybersecurity? Browse our current openings or join our talent community for future consideration.

If you have an interest in hacking, check out our Can You Hack It?® challenge and test your skills! Submit your score to show us what you’ve got. AIS has a national footprint with offices and remote employees across the U.S. We offer competitive pay and outstanding benefits. Join a team that is not only committed to the future of cyberspace, but to our employee’s success as well.

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