Hello Linux Gurus,
I am seeking divine inspiration.
I don’t understand the apparent lack of hypervisor-based kernel protections in desktop Linux. It seems there is a significant opportunity for improvement beyond the basics of KASLR, stack canaries, and shadow stacks. However, I don’t see much work in this area on Linux desktop, and people who are much smarter than me develop for the kernel every day yet have not seen fit to produce some specific advanced protections at this time that I get into below. Where is the gap in my understanding? Is this task so difficult or costly that the open source community cannot afford it?
Windows PCs, recent Macs, iPhones, and a few Android vendors such as Samsung run their kernels atop a hypervisor. This design permits introspection and enforcement of security invariants from outside or underneath the kernel. Common mitigations include protection of critical data structures such as page table entries, function pointers, or SELinux decisions to raise the bar on injecting kernel code. Hypervisor-enforced kernel integrity appears to be a popular and at least somewhat effective mitigation although it doesn't appear to be common on desktop Linux despite its popularity with other OSs.
Meanwhile, in the desktop Linux world, users are lucky if a distribution even implements secure boot and offers signed kernels. Popular software packages often require short-circuiting this mechanism so the user can build and install kernel modules, such as NVidia and VirtualBox drivers. SELinux is uncommon, ergo root access is more or less equivalent to the kernel privileges including introduction of arbitrary code into the kernel on most installations. TPM-based disk encryption is only officially supported experimentally by Ubuntu and is usually linked to secure boot, while users are largely on their own elsewhere. Taken together, this feels like a missed opportunity to implement additional defense-in-depth.
It’s easy to put code in the kernel. I can do it in a couple of minutes for a "hello world" module. It’s really cool that I can do this, but is it a good idea? Shouldn’t somebody try and stop me?
Please insert your unsigned modules into my brain-kernel. What have I failed to understand, or why is this the design of the kernel today? Is it an intentional omission? Is it somehow contrary to the desktop Linux ethos?
It does appear to take an interesting approach with using VMs to separate out the system components and applications, but I don't think it introspects into those VMs to ensure the parts are behaving correctly as seen from the outside of the VM looking in.
It's a really cool OS I haven't heard about before though!
The only things I've ever heard of doing that is in very high security corporate environments