BALTIMORE, MD — Matthew Green starts his 2005 Ford Escape with a duplicate key he had made at Lowe's. Nothing unusual about that, except that the automobile industry has spent millions of dollars to keep him from being able to do it, according to the New York Times. Green, a graduate student at Johns Hopkins University, is part of a team that announced on Jan. 29 that it cracked the security behind "immobilizer" systems from Texas Instruments Inc. The systems reduce car theft, because vehicles will not start unless the system recognizes a tiny chip in the authorized key. They are used in millions of Fords, Toyotas, and Nissans. All that would be required to steal a car, the researchers said, is a moment next to the car owner to extract data from the key, less than an hour of computing, and a few minutes to break in, feed the key code to the car and hot-wire it. An executive with the Texas Instruments division that makes the systems did not dispute that the Hopkins team had cracked its code, but said there was much more to stealing a car than that. The devices, said the executive, Tony Sabetti, "have been fraud-free and are likely to remain fraud-free." The implications of the Hopkins finding go beyond stealing cars. Variations on the technology used in the chips, known as RFID for radio frequency identification, are widely used. Similar systems deduct highway tolls from drivers' accounts and restrict access to workplaces. The Johns Hopkins researchers say that if other radio frequency ID systems are vulnerable, the new field could offer far less security than its proponents promise. Aviel Rubin, a professor of computer science who led the team, said his three graduate students did what security experts often do: showed the lack of robust security in important devices that people use every day. "What we find time and time again is the security is overlooked and not done right," said Dr. Rubin, who has exposed flaws in electronic voting systems and wireless computer networks. The "immobilizer" technology used in the keys has been an enormous success. Texas Instruments alone has its chips in an estimated 150 million keys. Replacing the key on newer cars can cost hundreds of dollars, but the technology is credited with greatly reducing auto theft. Early versions of in-key chips were relatively easy to clone, but the Texas Instruments chips are considered to be among the best. Still, the amount of computing the chip can do is restricted by the fact that it has no power of its own; it builds a slight charge from an electromagnetic field from the car's transmitter. Cracking the system took the graduate students three months, Dr. Rubin said. The researchers discovered a critically important fact: the encryption algorithm used by the chip to scramble the challenge uses a relatively short code, known as a key. The longer the code key, which is measured in bits, the harder it is to crack any encryption system. The team wrote software that mimics the system, which works through a pattern of challenge and response. The researchers took each chip they were trying to clone and fed it challenges, and then tried to duplicate the response by testing all 1,099,511,627,776 possible encryption keys. Once they had the right key, they could answer future challenges correctly. Sabetti of Texas Instruments argues that grabbing the code from a key would be very difficult, because the chips have a very short broadcast range. The greatest distance that his company's engineers have managed in the laboratory is 12 inches, and then only with large antennas that require a power source. Dr. Rubin acknowledged that his team had been able to read the keys just a few inches from a reader, but said many situations could put an attacker and a target in close proximity, including crowded elevators. The Texas Instruments chips are also used in millions of the Speedpass tags that drivers use to buy gasoline at ExxonMobil stations without pulling out a credit card, and the researchers have shown that they can buy gas with a cracked code. A spokeswoman for ExxonMobil, Prem Nair, said the company used additional antifraud measures, including restrictions that only allow two gas purchases per day. "We strongly believe that the Speedpass devices and the checks that we have in place are much more secure than those using credit cards with magnetic stripes," she said. The team discussed its research with Texas Instruments before making the paper public. Matthew Buckley, a spokesman for RSA Security, said his company, which offers security consulting services and is developing radio frequency ID tags that resist unauthorized eavesdropping, had offered to work with Texas Instruments free of charge to address the security issues. Dan Bedore, a spokesman for Ford, said the company had confidence in the technology. "No security device is foolproof," he said, but "it's a very, very effective deterrent" to drive-away theft. "Flatbed trucks are a bigger threat," he said, "and a lot lower tech."

Originally posted on Fleet Financials