Researchers at North Carolina State University have identified design flaws in “smart home” Internet-of-Things devices that allow third parties to prevent devices from sharing information. The flaws can be used to prevent security systems from signaling that there has been a break-in or uploading video of intruders.
“IoT devices are becoming increasingly common, and there’s an expectation that they can contribute to our safety and security,” said William Enck, co-author of a paper on the discovery and an associate professor of computer science at North Carolina State. “But we’ve found that there are widespread flaws in the design of these devices that can prevent them from notifying homeowners about problems or performing other security functions.”
“Essentially, the devices are designed with the assumption that wireless connectivity is secure and won’t be disrupted – which isn’t always the case,” said Bradley Reaves, co-author of the paper and an assistant professor of computer science at North Carolina State. “However, we have identified potential solutions that can address these vulnerabilities.”
Specifically, the researchers have found that if third parties can hack a home’s router – or already know the password – they can upload network layer suppression malware to the router. The malware allows devices to upload their “heartbeat” signals, signifying that they are online and functional, but it blocks signals related to security, such as when a motion sensor is activated. These suppression attacks can be done on-site or remotely.
“One reason these attacks are so problematic is that the system is telling homeowners that everything is OK, regardless of what’s actually happening in the home,” Enck said.
These network layer suppression attacks are possible because, for many IoT devices, it’s easy to distinguish heartbeat signals from other signals. And addressing that design feature may point the way toward a solution.
“One potential fix would be to make heartbeat signals indistinguishable from other signals, so malware couldn’t selectively allow heartbeat signals to pass through,” said TJ O’Connor, first author of the paper and a graduate student at North Carolina State.
“Another approach would be to include more information in the heartbeat signal,” O’Connor said. “For example, if a device sends three motion-sensor alerts, the subsequent heartbeat signal would include data noting that three sensor alerts had been sent. Even if the network layer suppression malware blocked the sensor alert signals, the system would see the heartbeat signal and know that three sensor alerts were sent but not received. This could then trigger a system warning for homeowners.”
“No system is going to be perfect, but given the widespread adoption of IoT devices, we think it’s important to raise awareness of countermeasures that device designers can use to reduce their exposure to attacks,” Enck said.
The paper, “Blinded and Confused: Uncovering Systemic Flaws in Device Telemetry for Smart-Home Internet of Things,” will be presented at the 12th ACM Conference on Security and Privacy in Wireless and Mobile Networks being held May 15-17 in Miami, Fla.
Source: North Carolina State University
*This story appeared previously in our sister publication Insurance Journal.