Indian-origin scientist hacks into popular 'smart home' security

An Indian-origin cybersecurity researcher successfully hacked into a leading �smart home� automation system

Indian-origin scientist hacks into popular

An Indian-origin cyber-security researcher from University of Michigan and his team have successfully hacked into a leading “smart home” automation system and got the PIN code to a home's front door.

The “lock-pick malware app” developed by Atul Prakash, professor of computer science and engineering, was one of four attacks that the cyber-security researchers performed at an experimental set-up of Samsung's “Smart-things”, a top-selling Internet of Things (IoT) platform for consumers.

The work is believed to be the first platform-wide study of a real-world connected home system. “At least today, with the one public IoT software platform we looked at, which has been around for several years, there are significant design vulnerabilities from a security perspective," said Prakash.

“I would say it's okay to use as a hobby right now but I wouldn't use it where security is paramount,” he added.

As a testament to the growing use of “Smart-things”, its Android companion app that lets you manage your connected home devices remotely has been downloaded more than 100,000 times.

Smart-things' app store, where third-party developers can contribute Smart-apps that run in the platform's cloud and let users customize functions, holds more than 500 apps.

Prakash and Earlence Fernandes, doctoral student in computer science and engineering performed a security analysis of the Smart-things' programming framework.

They demonstrated a Smart-app that eavesdropped on someone setting a new PIN code for a door lock and then sent that PIN in a text message to a potential hacker.

The SmartApp, which they called a "lock-pick malware app", was disguised as a battery level monitor and only expressed the need for that capability in its code.

As an example, they showed that an existing, highly rated Smart-app could be remotely exploited to virtually make a spare door key by programming an additional PIN into the electronic lock.

They showed that Smart-app could turn off "vacation mode" in a separate app that lets you program the timing of lights, blinds, etc., while you're away to help secure the home.

They demonstrated that a fire alarm could be made to go off by any Smart-app injecting false messages. “The access Smart-things grants by default is at a full device level, rather than any narrower," Prakash said.

“As an analogy, say you give someone permission to change the light bulb in your office, but the person also ends up getting access to your entire office, including the contents of your filing cabinets,” he explained.

These results have implications for all smart home systems and even the broader Internet of Things (IoT).

“The bottom line is that it's not easy to secure these systems" Prakash said. "There are multiple layers in the software stack and we found vulnerabilities across them, making fixes difficult."