Physical isolation, so called air-gapping, is an effective method for protecting security-critical computers and networks. While it might be possible to introduce malicious code through the supply chain, insider attacks, or social engineering, communicating with the outside world is prevented. Different approaches to breach this essential line of defense have been developed based on electro- magnetic, acoustic, and optical communication channels. However, all of these approaches are limited in either data rate or distance, and frequently offer only exfiltration of data. We present a novel approach to infiltrate data to air-gapped systems without any additional hardware on-site. By aiming lasers at already built-in LEDs and recording their response, we are the first to enable a long-distance (25 m), bidirectional, and fast (18.2 kbps in & 100 kbps out) covert communication channel. The approach can be used against any office device that operates LEDs at the CPU’s GPIO interface.

The following table summarizes related approaches and puts the effectivity of the LaserShark attack in perspective.

For further details please consult the conference publication.

This repository contains all code used during the experiments, raw data of the hardware measurements, and scripts to plot them. Since reproducing the results is dependent on a specific setup of attacker and target devices, we provide a simplified experiment based on a Raspberry Pi, an Arduino, and an ordinary laser pointer instead.

Without any hardware on-site, it is still possible to build the required kernel modules, plot measurements, and determine the hardware statistics presented in the paper.

• Plot hardware measurements
• Determine device statistics
• Build device images (Hardware needed eventually)
• Simple demo setup (Hardware needed)

A detailed description of our work will been presented at the 37th Annual Computer Security Applications Conference (ACSAC 2021) in December 2021. If you would like to cite our work, please use the reference as provided below:

@inproceedings{KuePreNopSchRieWre21,
  author =    {Niclas Kühnapfel and Stefan Preußler and
               Maximilian Noppel and Thomas Schneider and
               Konrad Rieck and Christian Wressnegger},
  title =     {LaserShark: Establishing Fast, Bidirectional
               Communication into Air-Gapped Systems},
  booktitle = {Proc. of 37th Annual Computer Security
               Applications Conference (ACSAC)},
  year =      2021,
  month =     dec
}

Please find the paper either on our webpage or in the ACM Digital Library.