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Add hypercall-based PCI CAM for x86-64 pKVM.
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qwandor committed Oct 25, 2024
1 parent 87375c7 commit 864763d
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2 changes: 2 additions & 0 deletions src/transport/mod.rs
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pub mod fake;
pub mod mmio;
pub mod pci;
#[cfg(target_arch = "x86_64")]
pub mod x86_64;

use crate::{PhysAddr, Result, PAGE_SIZE};
use bitflags::{bitflags, Flags};
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124 changes: 124 additions & 0 deletions src/transport/x86_64.rs
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//! x86-64 specific transports.
use super::pci::bus::{Cam, ConfigurationAccess, DeviceFunction};
use core::arch::asm;

/// This CPUID returns the signature and should be used to determine if VM is running under pKVM,
/// KVM or not. See the Linux header `arch/x86/include/uapi/asm/kvm_para.h`.
const KVM_CPUID_SIGNATURE: u32 = 0x40000000;

// See `include/uapi/linux/kvm_para.h`. (These hypercalls numbers can change depending on the
// upstream progress.)
const KVM_HC_PKVM_OP: u32 = 20;
const PKVM_GHC_IOREAD: u32 = KVM_HC_PKVM_OP + 3;
const PKVM_GHC_IOWRITE: u32 = KVM_HC_PKVM_OP + 4;

const PKVM_SIGNATURE: &[u8] = b"PKVM";

/// A PCI configuration access mechanism using hypercalls implemented by the x86-64 pKVM hypervisor.
pub struct HypCam {
/// The physical base address of the PCI root complex.
phys_base: usize,
cam: Cam,
}

impl HypCam {
/// Creates a new `HypCam` for the PCI root complex at the given physical base address.
pub fn new(phys_base: usize, cam: Cam) -> Self {
Self { phys_base, cam }
}

/// Returns whether we are running under pKVM by checking the CPU ID signature.
pub fn is_pkvm() -> bool {
cpuid_signature() == PKVM_SIGNATURE
}
}

impl ConfigurationAccess for HypCam {
fn read_word(&self, device_function: DeviceFunction, register_offset: u8) -> u32 {
let address = self.cam.cam_offset(device_function, register_offset);
hyp_io_read(self.phys_base + (address as usize), 4)
}

fn write_word(&mut self, device_function: DeviceFunction, register_offset: u8, data: u32) {
let address = self.cam.cam_offset(device_function, register_offset);
hyp_io_write(self.phys_base + (address as usize), 4, data);
}

unsafe fn unsafe_clone(&self) -> Self {
Self {
phys_base: self.phys_base,
cam: self.cam,
}
}
}

/// Gets the signature CPU ID.
fn cpuid_signature() -> [u8; 4] {
let signature: u32;
unsafe {
// The argument for cpuid is passed via rax and in case of KVM_CPUID_SIGNATURE returned via
// rbx, rcx and rdx. Ideally using a named argument in inline asm for rbx would be more
// straightforward, but when "rbx" is directly used LLVM complains that it is used
// internally.
//
// Therefore use r8 instead and push rbx to the stack before making cpuid call, store
// rbx content to r8 as use it as inline asm output and pop the rbx.
asm!(
"push rbx",
"cpuid",
"mov r8, rbx",
"pop rbx",
in("eax") KVM_CPUID_SIGNATURE,
out("r8") signature,
out("rcx") _,
out("rdx") _,
);
};
signature.to_le_bytes()
}

/// Asks the hypervisor to perform an IO read at the given physical address.
fn hyp_io_read(address: usize, size: usize) -> u32 {
// Arguments for vmcall are passed via rax, rbx, rcx and rdx. Ideally using a named argument in
// the inline asm for rbx would be more straightforward, but when "rbx" is used directly LLVM
// complains that it is used internally.
//
// Therefore use r8 temporary, push rbx to the stack, perform proper call and pop rbx
// again
let data;
unsafe {
asm!(
"push rbx",
"mov rbx, r8",
"vmcall",
"pop rbx",
inout("rax") PKVM_GHC_IOREAD => data,
in("r8") address,
in("rcx") size,
);
}
data
}

/// Asks the hypervisor to perform an IO write at the given physical address.
fn hyp_io_write(address: usize, size: usize, data: u32) {
unsafe {
// Arguments for vmcall are passed via rax, rbx, rcx and rdx. Ideally using a named argument
// in the inline asm for rbx would be more straightforward but when "rbx" is used directly
// used LLVM complains that it is used internally.
//
// Therefore use r8 temporary, push rbx to the stack, perform proper call and pop rbx
// again
asm!(
"push rbx",
"mov rbx, r8",
"vmcall",
"pop rbx",
in("rax") PKVM_GHC_IOWRITE,
in("r8") address,
in("rcx") size,
in("rdx") data,
);
}
}

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