Hackers are now actively exploiting a DNS critical flaw, but they're not using any of the already known exploits, said the researcher who crafted the first attack code to go public.
"We're seeing an entirely new technique," said HD Moore, the creator of the Metasploit penetration testing framework, who with a hacker identified as "I)ruid," published exploits last week for the vulnerability in the Internet's routing system.
Moore reported that he had found a compromised DNS server operated by AT&T when employees at his company, BreakingPoint Systems, realised that they were being shunted to a bogus version of Google.com. Since then, he said today, he's heard from others who also reported redirects from hacked DNS servers. "They're saying'we've seen the same thing,' so now we're trying to figure out if we're seeing attacks on a wide scale or not."
Moore said the exploit that successfully attacked the AT&T server was not the same as the Metasploit attack code that he and I)ruid wrote, nor were any of the other public exploits. "It didn't have the signature of any of the public exploits," Moore said. "For example, the Metasploit code will either add an un-cached'A' record or replace all'NS' records with a malicious server. In this case, it seems like the attack replaced the address of the CNAME entry for www.1.google.com, which is something I have not seen before."
Moore said he and others were trying to figure out where the exploit originated. "We're curious. It's not based on our code, so is there some kind of phishing kit out there that includes it?"
The compromised AT&T server was later taken offline, Moore said, after he contacted BreakingPoint's ISP.
"The attack itself was not malicious, did not load malware, and from an operational standpoint, had zero impact," Moore said in a post to Metasploit blog. The attack, which seemed designed to generate ad revenue by steering users to the fake Google page - which had ads hidden inside several IFRAMES - was, said Moore, "a five minute annoyance" and little more.
To add to the problem of in-the-wild exploits, Moore said he suspects that far fewer systems have been patched than most reports have indicated. Saying that this was where he differed from Dan Kaminsky, the researcher who uncovered the flaw in February and helped coordinate a a multi-vendor patch effort earlier this month, Moore said test results he had seen showed that approximately 75 percent of DNS servers have not been patched.
Of all DNS servers running software other than Microsoft's Windows, more like 90 percent are unpatched, he added.
Kaminsky, using data from sources that include an online testing tool on his website, has estimated that only about 52 percent of the Internet's DNS servers remained unpatched as of last Saturday.
Yesterday, after reporting the compromised AT&T DNS server, Moore got his hands on a list of other regional AT&T DNS servers, then queried them to see if they had been patched. "Of the 19 servers still online, 12 of them are still using static source ports, and each of these can be reached by anyone on the Internet," Moore said. He added that he hoped to do additional testing using a random sampling of a list of 516,000 DNS servers to get a clearer idea of how much progress had been made in plugging the DNS hole.
Moore said he wondered if administrators may be waiting for an update to BIND (Berkeley Internet Name Domain), the most commonly used DNS software. On Monday, Paul Vixie, who heads the non-profit group that's responsible for BIND, said a second-round update would be released later this week to fix performance issues in the original 8 July patch.
It's also possible, Moore said, that administrators have been less likely to patch BIND-based servers because, unlike Windows, BIND lacks an automatic update mechanism.