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- Optimizations: Improve the efficiency of the scanning and jamming algorithms.
- Additional Features: Add support for more wireless protocols and enhance spoofing capabilities.
- User Interface: Develop a more user-friendly interface with enhanced display graphics and easier navigation.
Feature | Status | Reliability | Notes |
---|---|---|---|
Scanner | Stable | High | Reliably scans the 2.4 GHz band to detect active channels and nearby devices. Occasional misses in high-interference environments. |
Analyzer | Stable | Moderate | Provides useful insights into detected signals, but additional updates are needed for improved accuracy and detailed analysis. |
Jammer | Experimental | Variable | Basic jamming works but effectiveness varies by device type and signal strength. Testing on select channels is recommended. |
BLE Jammer | In Development | Low | Disrupts BLE devices inconsistently. Further improvements are needed to ensure stability and effectiveness across BLE variants. |
BLE Spoofer | Experimental | Low | Capable of simulating basic BLE signals but has limited compatibility. Best for controlled testing scenarios. |
Sour Apple | Experimental | Low | Specialized attack method with limited reliability; effective only under specific conditions. Further tuning is required. |
- When using multiple NRF24 modules, the power demands can exceed the capabilities of the onboard power supply or regulator. Running three NRF modules simultaneously may cause instability, leading to intermittent failures or causing the nRFBox to stop functioning altogether.
- Range Limitations: The jammer is most effective at short range. Beyond a certain distance, the signal weakens, making it harder to consistently disrupt communication.
- Device Variability: Different devices react to jamming signals in varying ways. Some may be more resistant.
nRFBOX is a wireless toolkit designed to explore, analyze, and interact with various wireless communication protocols. It combines the ESP32 Wroom32U, NRF24 modules, an OLED display, and other components to create a multifunctional device that can act as a scanner, analyzer, jammer, BLE jammer, BLE spoofer, and perform advanced tasks such as the "Sour Apple" attack.
Software:
- Scanner: Scans the 2.4GHz frequency band to detect active channels and devices.
- Analyzer: Analyzes the detected signals and provides detailed information about the activity.
- Jammer: Jams wireless communication on selected channels to test network robustness.
- BLE Jammer: Specifically targets Bluetooth Low Energy (BLE) devices to disrupt their communication.
- BLE Spoofer: Spoofs BLE devices to simulate various BLE signals for testing and research.
- Sour Apple: A specialized attack for testing security measures against specific wireless vulnerabilities.
Hardware:
- ESP32 Wroom32U
- NRF24 GTmini Modules
- OLED 0.96" Display
If you prefer not to upload the code manually or encounter errors during compilation, you can directly upload the precompiled .bin
file to the ESP32. Follow these steps:
- ESP32 Flash Download Tool: Download the tool from Espressif's official site: ESP32 Flash Download Tool.
- USB Drivers: Make sure the drivers for the ESP32 are installed on your system. You can download the drivers from CP210x USB to UART Bridge VCP Drivers if you're using the CP2102 chip.
- Download the precompiled
.bin
file from the repository.
-
Connect your ESP32 to your computer using a USB cable.
-
Open the ESP32 Flash Download Tool and configure the following:
- Select the appropriate chip type (ESP32) and click OK.
- In the Download Path Config section, add the
.bin
file and set the start address to0x1000
. - Select the correct COM port where your ESP32 is connected.
- Choose the correct Baud rate (115200 is generally recommended).
-
Click on Start to begin uploading the
.bin
file to your ESP32.
Once the upload is completed, the tool will confirm a successful flash. You can now restart your ESP32 and run the firmware.
Distributed under the MIT License. See LICENSE.txt for more information.
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CiferTech - @twitter - [email protected]
Project Link: https://github.com/cifertech/nRFBOX
The libraries and projects listed below are used in this software:
Community Contributors: Thank you to everyone who contributes to this project and helps improve nRFBOX.