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#include "vmxon.hpp"
namespace vmxon
{
auto create_vmxon_region(hv::pvcpu_ctx vcpu_ctx) -> void
{
PHYSICAL_ADDRESS mem_range;
mem_range.QuadPart = ~0ull;
hv::vmx_basic_msr_t vmx_basic;
vmx_basic.control = __readmsr(IA32_VMX_BASIC);
vcpu_ctx->vmxon =
reinterpret_cast<hv::pvmxon_region_ctx>(
MmAllocateContiguousMemory(PAGE_SIZE, mem_range));
vcpu_ctx->vmxon_phys =
MmGetPhysicalAddress(vcpu_ctx->vmxon).QuadPart;
RtlSecureZeroMemory(
vcpu_ctx->vmxon, PAGE_SIZE);
vcpu_ctx->vmxon->header
.bits
.revision_identifier =
vmx_basic.bits
.vmcs_revision_identifier;
}
auto create_vmcs(hv::pvcpu_ctx vcpu_ctx) -> void
{
PHYSICAL_ADDRESS mem_range;
mem_range.QuadPart = ~0ull;
hv::vmx_basic_msr_t vmx_basic;
vmx_basic.control = __readmsr(IA32_VMX_BASIC);
vcpu_ctx->vmcs =
reinterpret_cast<hv::pvmcs_ctx>(
MmAllocateContiguousMemory(PAGE_SIZE, mem_range));
vcpu_ctx->vmcs_phys =
MmGetPhysicalAddress(vcpu_ctx->vmcs).QuadPart;
RtlSecureZeroMemory(
vcpu_ctx->vmcs, PAGE_SIZE);
vcpu_ctx->vmcs->header
.bits
.revision_identifier =
vmx_basic.bits
.vmcs_revision_identifier;
}
auto create_vcpus(hv::pvmx_ctx vmx_ctx) -> void
{
vmx_ctx->vcpu_num =
KeQueryActiveProcessorCountEx(
ALL_PROCESSOR_GROUPS);
// allocate buffer for vcpu pointers...
vmx_ctx->vcpus =
reinterpret_cast<hv::pvcpu_ctx*>(
ExAllocatePool(NonPagedPool,
sizeof(hv::pvcpu_ctx) * vmx_ctx->vcpu_num));
// allocate vcpu for each logical processor along with
// vmxon region and vmcs memory for each logical processor...
for (auto idx = 0u; idx < g_vmx_ctx->vcpu_num; ++idx)
{
vmx_ctx->vcpus[idx] =
reinterpret_cast<hv::pvcpu_ctx>(
ExAllocatePool(NonPagedPool, sizeof hv::vcpu_ctx));
vmx_ctx->vcpus[idx]->host_stack =
reinterpret_cast<u64>(
ExAllocatePool(NonPagedPool,
PAGE_SIZE * HOST_STACK_PAGES));
create_vmxon_region(vmx_ctx->vcpus[idx]);
create_vmcs(vmx_ctx->vcpus[idx]);
DBG_PRINT("setup vcpu for processor: %d\n", idx);
DBG_PRINT(" - vmxon region (virtual): 0x%p\n", vmx_ctx->vcpus[idx]->vmxon);
DBG_PRINT(" - vmxon region (physical): 0x%p\n", vmx_ctx->vcpus[idx]->vmxon_phys);
DBG_PRINT(" - vmcs (virtual): 0x%p\n", vmx_ctx->vcpus[idx]->vmcs);
DBG_PRINT(" - vmcs (physical): 0x%p\n", vmx_ctx->vcpus[idx]->vmcs_phys);
}
}
auto init_vmxon() -> void
{
hv::ia32_feature_control_msr_t feature_msr = { 0 };
hv::cr_fixed_t cr_fixed;
hv::cr0_t cr0 = { 0 };
hv::cr4_t cr4 = { 0 };
// should check to see if this is locked or not...
feature_msr.control = __readmsr(IA32_FEATURE_CONTROL);
feature_msr.bits.vmxon_outside_smx = true;
feature_msr.bits.lock = true;
__writemsr(IA32_FEATURE_CONTROL, feature_msr.control);
// not sure if did this in the wrong order, i think maybe cr4.vmx_enable bit needs
// to be flipped before i fixed cr0 and cr4 registers? TODO: read up on dat sheet...
cr_fixed.all = __readmsr(IA32_VMX_CR0_FIXED0);
cr0.flags = __readcr0();
cr0.flags |= cr_fixed.split.low;
cr_fixed.all = __readmsr(IA32_VMX_CR0_FIXED1);
cr0.flags &= cr_fixed.split.low;
__writecr0(cr0.flags);
cr_fixed.all = __readmsr(IA32_VMX_CR4_FIXED0);
cr4.flags = __readcr4();
cr4.flags |= cr_fixed.split.low;
cr_fixed.all = __readmsr(IA32_VMX_CR4_FIXED1);
cr4.flags &= cr_fixed.split.low;
__writecr4(cr4.flags);
cr4.flags = __readcr4();
cr4.vmx_enable = true;
__writecr4(cr4.flags);
DBG_PRINT("vmxon for processor: %d\n", KeGetCurrentProcessorNumber());
DBG_PRINT(" - vmxon result (0 == success): %d\n",
__vmx_on((unsigned long long*)
&vmxon::g_vmx_ctx->vcpus[
KeGetCurrentProcessorNumber()]->vmxon_phys));
}
}