For the idiots who said “Michael Hastings’ Mercedes couldn’t have been hacked to cause a crash.” watch this video that shows what a couple hackers can do to your car with just a laptop, which could cause a “malfunction” that leads to someone’s death.
After watching the video, and realizing all of the systems of a vehicle that hackers could control, it’s easy to see how Michael Hastings could have been assassinated by the CIA, in order to shut him up.. permanently.
The only thing stopping the CIA from doing what these hackers did is a wireless Internet connection, which could have easily been added to the car’s internal network while it was parked, or being serviced.
Initially, we thought that the crash may have been caused by someone chasing Mr. Hastings, but now we feel that Michael Hastings was not in control of his car, and that hackers caused the high speeds, and the crash itself by hacking into the Mercedes internal network of computer systems.
Stomping on the brakes of a 3,500-pound Ford Escape that refuses to stop–or even slow down–produces a unique feeling of anxiety. In this case it also produces a deep groaning sound, like an angry water buffalo bellowing somewhere under the SUV’s chassis. The more I pound the pedal, the louder the groan gets–along with the delighted cackling of the two hackers sitting behind me in the backseat.
Luckily, all of this is happening at less than 5mph. So the Escape merely plows into a stand of 6-foot-high weeds growing in the abandoned parking lot of a South Bend, Ind. strip mall that Charlie Miller and Chris Valasek have chosen as the testing grounds for the day’s experiments, a few of which are shown in the video below. (When Miller discovered the brake-disabling trick, he wasn’t so lucky: The soccer-mom mobile barreled through his garage, crushing his lawn mower and inflicting $150 worth of damage to the rear wall.)
“Okay, now your brakes work again,” Miller says, tapping on a beat-up MacBook connected by a cable to an inconspicuous data port near the parking brake. I reverse out of the weeds and warily bring the car to a stop. “When you lose faith that a car will do what you tell it to do,” he adds after we jump out of the SUV, “it really changes your whole view of how the thing works.”
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The duo plans to release their findings and the attack software they developed at the hacker conference Defcon in Las Vegas next month–the better, they say, to help other researchers find and fix the auto industry’s security problems before malicious hackers get under the hoods of unsuspecting drivers. The need for scrutiny is growing as cars are increasingly automated and connected to the Internet, and the problem goes well beyond Toyota and Ford. Practically every American carmaker now offers a cellular service or Wi-Fi network like General Motors’ OnStar, Toyota’s Safety Connect and Ford’s SYNC. Mobile-industry trade group the GSMA estimates revenue from wireless devices in cars at $2.5 billion today and projects that number will grow tenfold by 2025. Without better security it’s all potentially vulnerable, and automakers are remaining mum or downplaying the issue.
As I drove their vehicles for more than an hour, Miller and Valasek showed that they’ve reverse-engineered enough of the software of the Escape and the Toyota Prius (both the 2010 model) to demonstrate a range of nasty surprises: everything from annoyances like uncontrollably blasting the horn to serious hazards like slamming on the Prius’ brakes at high speeds. They sent commands from their laptops that killed power steering, spoofed the GPS and made pathological liars out of speedometers and odometers. Finally they directed me out to a country road, where Valasek showed that he could violently jerk the Prius’ steering at any speed, threatening to send us into a cornfield or a head-on collision. “Imagine you’re driving down a highway at 80 ,” Valasek says. “You’re going into the car next to you or into oncoming traffic. That’s going to be bad times.”
A Ford spokesman says the company takes hackers “very seriously,” but Toyota, for its part, says it isn’t impressed by Miller and Valasek’s stunts: Real carhacking, the company’s safety manager John Hanson argues, wouldn’t require physically jacking into the target car. “Our focus, and that of the entire auto industry, is to prevent hacking from a remote wireless device outside of the vehicle,” he writes in an e-mail, adding that Toyota engineers test its vehicles against wireless attacks. “We believe our systems are robust and secure.”
Anatomy of an auto hack: With just a laptop connected to its diagnostics port, Valasek and Miller turned an innocent Prius into the world’s worst amusement park ride. Here what they could do.(Click to enlarge)
But Miller and Valasek’s work assumed physical access to the cars’ computers for a reason: Gaining wireless access to a car’s network is old news. A team of researchers at the University of Washington and the University of California, San Diego, experimenting on a sedan from an unnamed company in 2010, found that they could wirelessly penetrate the same critical systems Miller and Valasek targeted using the car’s OnStar-like cellular connection, Bluetooth bugs, a rogue Android app that synched with the car’s network from the driver’s smartphone or even a malicious audio file on a CD in the car’s stereo system. “Academics have shown you can get remote code execution,” says Valasek, using hacker jargon for the ability to start running commands on a system. “We showed you can do a lot of crazy things once you’re inside.”
One of the UCSD professors involved in those earlier tests, Stefan Savage, claims that wireless hacks remain possible and affect the entire industry: Given that attacks on driving systems have yet to be spotted outside of a lab, manufacturers simply haven’t fully secured their software, he says. “The vulnerabilities that we found were the kind that existed on PCs in the early to mid-1990s, when computers were first getting on the Internet,” says Savage.
As cars approach Google’s dream of passenger-carrying robots, more of their capabilities also become potentially hackable. Miller and Valasek exploited Toyota’s and Ford’s self-parking functions, for instance, to hijack their vehicles’ steering. A car like the 2014 Mercedes Benz S-Class, which can negotiate stop-and-go traffic or follow a leader without input, may offer a hacker even more points of attack, says Gartner Group analyst Thilo Koslowski. “The less the driver is involved, the more potential for failure when bad people are tampering with it,” he says.
In the meantime, Miller and Valasek argue that the best way to pressure car companies to secure their products is to show exactly what can be done with a multi-ton missile on wheels. Better to experience the panic of a digitally hijacked SUV now than when a more malicious attacker is in control. “If the only thing keeping you from crashing your car is that no one is talking about this,” says Miller, “then you’re not safe anyway.”
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