Cameras can Steal Data from Computer Hard Drive LED Lights

​Researchers at BGU's Cyber Security Research Centre have demonstrated that data can be stolen from an isolated "air-gapped" computer's hard drive reading the pulses of light on the LED drive using various types of cameras and light sensors.

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Researchers at BGU's Cyber Security Research Center have demonstrated that data can be stolen from an isolated "air-gapped" computer's hard drive reading the pulses of light on the LED drive using various types of cameras and light sensors.

 
In the new paper, the researchers demonstrated how data can be received by a Quadcopter drone flight, even outside a window with line-of-sight of the transmitting computer.
 

 

 


Air-gapped computers are isolated -- separated both logically and physically from public networks -- ostensibly so that they cannot be hacked over the Internet or within company networks. These computers typically contain an organisation's most sensitive and confidential information.
 
Led by Dr. Mordechai Guri (pictured above), Head of R&D at the Cyber Security Research Centre, the research team utilised the hard-drive (HDD) activity LED lights that are found on most desktop PCs and laptops. The researchers found that once malware is on a computer, it can indirectly control the HDD LED, turning it on and off rapidly (thousands of flickers per second) -- a rate that exceeds the human visual perception capabilities. As a result, highly sensitive information can be encoded and leaked over the fast LED signals, which are received and recorded by remote cameras or light sensors.

 
"Our method compared to other LED exfiltration is unique, because it is also covert," Dr. Guri says. "The hard drive LED flickers frequently, and therefore the user won't be suspicious about changes in its activity."
 
Dr. Guri and the Cyber Security Research Centre have conducted a number of studies to demonstrate how malware can infiltrate air-gapped computers and transmit data. Previously, they determined that computer speakers and fans, FM waves and heat are all methods that can be used to obtain data.
 
In addition to Dr. Guri, the other BGU researchers include Boris Zadov, who received his M.Sc. degree from the Department of Electrical and Computer Engineering and Prof. Yuval Elovici, director of the Cyber Security Research Centre. Prof. Elovici is also a member of the University's Department of Software and Information Systems Engineering and Director of Deutsche Telekom Laboratories at BGU.