Researchers at the University of Pennsylvania say they've discovered a way to circumvent the networking technology used by law enforcement to tap phone lines in the US.
The flaws they've found "represent a serious threat to the accuracy and completeness of wiretap records used for both criminal investigation and as evidence in trial," the researchers say in their paper, presented at a computer security conference in Chicago.
Following up on earlier work on evading analog wiretap devices called loop extenders, the Penn researchers took a deep look at the newer technical standards used to enable wiretapping on telecommunication switches. They found that while these newer devices probably don't suffer from many of the bugs they'd found in the loop extender world, they do introduce new flaws.
In fact, wiretaps could probably be rendered useless if the connection between the switches and law enforcement are overwhelmed with useless data, something known as a denial of service (DOS) attack.
Four years ago, the University of Pennsylvania team made headlines after hacking an analogue loop extender device they'd bought on eBay. This time, the team wanted to look at newer devices, but they couldn't get a hold of a switch. So instead they took a close look at the telecommunication industry standard - ANSI Standard J-STD-025 - that defines how switches should transmit wiretapped information to authorities.
This standard was developed in the 1990s to spell out how telecommunications companies could comply with the 1994 Communications Assistance for Law Enforcement Act (CALEA).
"We asked ourselves the question of whether this standard is sufficient to have reliable wiretapping," said Micah Sherr, a post-doctoral researcher at the university and one of the paper's co-authors.
Eventually they were able to develop some proof-of-concept attacks that would disrupt devices. According to Sherr, the standard "really didn't consider the case of a wiretap subject who is trying to thwart or confuse the wiretap itself."
It turns out that the standard sets aside very little bandwidth -- 64K bits per second -- for keeping track of information about phone calls being made on the tapped line.