Hacker Finds Hidden ‘God Mode’ on Old x86 CPUs
Paul Wagenseil | Aug 9, 2018 5:06 pm ET
LAS VEGAS — Some x86 CPUs have hidden backdoors that let you seize root by sending a command to an undocumented RISC core that manages the main CPU, security researcher Christopher Domas told the Black Hat conference here Thursday (Aug. 9).
The command — “.byte 0x0f, 0x3f” in Linux — “isn’t supposed to exist, doesn’t have a name, and gives you root right away,” Domas said, adding that he calls it “God Mode.”
The backdoor completely breaks the protection-ring model of operating-system security, in which the OS kernel runs in ring 0, device drivers run in rings 1 and 2, and user applications and interfaces (“userland”) run in ring 3, furthest from the kernel and with the least privileges. To put it simply, Domas’ God Mode takes you from the outermost to the innermost ring in four bytes.
“We have direct ring 3 to ring 0 hardware privilege escalation,” Domas said. “This has never been done.”
That’s because of the hidden RISC chip, which lives so far down on the bare metal that Domas half-joked that it ought to be thought of as a new, deeper ring of privilege, following the theory that hypervisors and chip-management systems can be considered ring -1 or ring -2.
“This is really ring -4,” he said. “It’s a secret, co-located core buried alongside the x86 chip. It has unrestricted access to the x86.”
The good news is that, as far as Domas knows, this backdoor exists only on VIA C3 Nehemiah chips made in 2003 and used in embedded systems and thin clients. The bad news is that it’s entirely possible that such hidden backdoors exist on many other chipsets.
“These black boxes that we’re trusting are things that we have no way to look into,” he said. “These backdoors probably exist elsewhere.”
Domas discovered the backdoor, which exists on VIA C3 Nehemiah chips made in 2003, by combing through filed patents. He found one — US8341419 — that mentioned jumping from ring 3 to ring 0 and protecting the machine from exploits of model-specific registers (MSRs), manufacturer-created commands that are often limited to certain chipsets.
Domas followed the “trail of breadcrumbs,” as he put it, from one patent to another and figured out that certain VIA chipsets were covered by the patents. Then he collected many old VIA C3 machines and spent weeks fuzzing code.
He even built a testing rig consisting of seven Nehemiah-based thin clients hooked up to a power relay that would power-cycle the machines every couple of minutes, because his fuzzing attempts would usually crash the systems. After three weeks, he had 15 GB of log data — and the instructions to flip on the backdoor in the hidden RISC chip.
“Fortunately, we still need ring 0 access to start the launch process, right?” Domas asked. “No. Some of the VIA C3 x86 processors have God Mode enabled by default. You can reach it from userland. Antivirus software, ASLR and all the other security mitigations are useless.”
Domas has put all his research, plus tools to check whether your VIA C3 CPU might have an undocumented coprocessor and to disable the coprocessor by default, up on his GitHub page at https://github.com/xoreaxeaxeax/rosenbridge.
Paul Wagenseil, Senior editor, security, privacy and gaming
Paul Wagenseil is a senior editor at Tom’s Guide focused on security and privacy. That’s all he’s going to tell you unless you meet him in person.
Paul Wagenseil, Senior editor, security, privacy and gaming on
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