Researchers at Google and the Georgia Institute of Technology are studying a virtually undetectable form of attack that quietly controls where victims go on the Internet.
The study, set to be published in February, takes a close look at "open recursive" DNS servers, which are used to tell computers how to find each other on the Internet by translating domain names like google.com into numerical Internet Protocol addresses. Criminals are using these servers in combination with new attack techniques to develop a new generation of phishing attacks.
The researchers estimate that there are 17 million open-recursive DNS servers on the Internet, the vast majority of which give accurate information. Unlike other DNS servers, open-recursive systems will answer all DNS lookup requests from any computer on the Internet, a feature that makes them particularly useful for hackers.
The Georgia Tech and Google researchers estimate that as many as 0.4 percent, or 68,000, open-recursive DNS servers are behaving maliciously, returning false answers to DNS queries. They also estimate that another two percent of them provide questionable results. Collectively, these servers are beginning to form a "second secret authority" for DNS that is undermining the trustworthiness of the Internet, the researchers warned.
"This is a crime with few witnesses," said David Dagon, a researcher at Georgia Tech who co-authored the paper. "These hosts are like carnival barkers. No matter what you ask them, they'll happily direct you to the red light store, or to a Web server that does nothing more than spray your eyeballs with ads."
Attacks on the DNS system are not new, and online criminals have been changing DNS settings in victim's computers for at least four years now, Dagon said. But only recently have the bad guys lined up the technology and expertise to reliably launch this particular type of attack in a more widespread way. While the first such attacks used computer viruses to make these changes, lately attackers have been relying on Web-based malware.
Here's how an attack would work. A victim would visit a Web site or open a malicious attachment that would exploit a bug in his computer's software. Attackers would then change just one file in the Windows registry settings, telling the PC to go to the criminal's server for all DNS information. If the initial exploit code was not stopped by anti-virus software, the attack would give attackers virtually undetectable control over the computer.