That was the rather sobering message delivered by a pair of security researchers from Core Security Technologies in a talk at the CanSecWest conference on methods for infecting the BIOS with persistent code that will survive reboots and reflashing attempts. Anibal Sacco and Alfredo Ortega (above) demonstrated a method for patching the BIOS with a small bit of code that gave them conplete control of the machine. And the best part is, the method worked on a Windows machine, a PC running OpenBSD and another running VMware Player.
"It was very easy. We can put the code wherever we want," said Ortega. "We're not using a vulnerability in any way. I'm not sure if you understand the impact of this. We can reinfect the BIOS every time it reboots."
Sacco and Ortega stressed that in order to execute the attacks, you need either root privileges or physical access to the machine in question, which limits the scope. But the methods are deadly effective and the pair are currently working on a BIOS rootkit to implement the attack.
"We can patch a driver to drop a fully working rootkit. We even have a little code that can remove or disable antivirus," Ortega said.
The work by the Core team follows on to research done on persistent rootkits by John Heasman of NGSS, who was able to devise a method for placing rootkits on PCs using the memory space on PCI cards. In a presentation at Black Hat DC in 2007, Heasman showed a completely working method for loading the malware on to a PCI card by using the flashable ROM on the device. He also had a way to bypass the Windows NT kernel and create fake stack pointers.
In an interview at the time, he told me: "At that point it's game over. We're executing 32-bit code in ring zero."
As application and operating system protection mechanisms continue to become more sophisticated and more difficult to evade, expect to see more and more attacks targeting the hardware and low-level software, where there are still opportunities for success.
source: threatpost blogs
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