vmxlaunch is working... still some issues with host stack i think, need

to handle vmexits and shit now...
3 years ago · c587c20e3f
parent 92915937de
commit c587c20e3f
8 changed files with 307 additions and 47 deletions
--- a/bluepill.sln
+++ b/bluepill.sln
@ -7,9 +7,13 @@ Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "bluepill", "bluepill.vcxpro
 EndProject
 Global
 	GlobalSection(SolutionConfigurationPlatforms) = preSolution
+		Debug|x64 = Debug|x64
 		Release|x64 = Release|x64
 	EndGlobalSection
 	GlobalSection(ProjectConfigurationPlatforms) = postSolution
+		{881CCCA6-80EB-486F-8923-4F4B7DD41F9A}.Debug|x64.ActiveCfg = Debug|x64
+		{881CCCA6-80EB-486F-8923-4F4B7DD41F9A}.Debug|x64.Build.0 = Debug|x64
+		{881CCCA6-80EB-486F-8923-4F4B7DD41F9A}.Debug|x64.Deploy.0 = Debug|x64
 		{881CCCA6-80EB-486F-8923-4F4B7DD41F9A}.Release|x64.ActiveCfg = Release|x64
 		{881CCCA6-80EB-486F-8923-4F4B7DD41F9A}.Release|x64.Build.0 = Release|x64
 		{881CCCA6-80EB-486F-8923-4F4B7DD41F9A}.Release|x64.Deploy.0 = Release|x64
--- a/bluepill.vcxproj
+++ b/bluepill.vcxproj
@ -1,6 +1,10 @@
 <?xml version="1.0" encoding="utf-8"?>
 <Project DefaultTargets="Build" ToolsVersion="12.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
  <ItemGroup Label="ProjectConfigurations">
+    <ProjectConfiguration Include="Debug|x64">
+      <Configuration>Debug</Configuration>
+      <Platform>x64</Platform>
+    </ProjectConfiguration>
    <ProjectConfiguration Include="Release|x64">
      <Configuration>Release</Configuration>
      <Platform>x64</Platform>
@ -28,6 +32,16 @@
    <Driver_SpectreMitigation>false</Driver_SpectreMitigation>
    <SpectreMitigation>false</SpectreMitigation>
  </PropertyGroup>
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|x64'" Label="Configuration">
+    <TargetVersion>Windows10</TargetVersion>
+    <UseDebugLibraries>false</UseDebugLibraries>
+    <PlatformToolset>WindowsKernelModeDriver10.0</PlatformToolset>
+    <ConfigurationType>Driver</ConfigurationType>
+    <DriverType>KMDF</DriverType>
+    <DriverTargetPlatform>Universal</DriverTargetPlatform>
+    <Driver_SpectreMitigation>false</Driver_SpectreMitigation>
+    <SpectreMitigation>false</SpectreMitigation>
+  </PropertyGroup>
  <Import Project="$(VCTargetsPath)\Microsoft.Cpp.props" />
  <ImportGroup Label="ExtensionSettings">
  </ImportGroup>
@ -40,6 +54,10 @@
    <DebuggerFlavor>DbgengKernelDebugger</DebuggerFlavor>
    <EnableInf2cat>false</EnableInf2cat>
  </PropertyGroup>
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|x64'">
+    <DebuggerFlavor>DbgengKernelDebugger</DebuggerFlavor>
+    <EnableInf2cat>false</EnableInf2cat>
+  </PropertyGroup>
  <ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Release|x64'">
    <Link>
      <TreatLinkerWarningAsErrors>false</TreatLinkerWarningAsErrors>
@ -50,6 +68,17 @@
      <TreatWarningAsError>false</TreatWarningAsError>
    </ClCompile>
  </ItemDefinitionGroup>
+  <ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Debug|x64'">
+    <Link>
+      <TreatLinkerWarningAsErrors>false</TreatLinkerWarningAsErrors>
+      <EntryPointSymbol>driver_entry</EntryPointSymbol>
+    </Link>
+    <ClCompile>
+      <LanguageStandard>stdcpp17</LanguageStandard>
+      <TreatWarningAsError>false</TreatWarningAsError>
+      <PreprocessorDefinitions>DBG_PRINT_BOOL;%(PreprocessorDefinitions)</PreprocessorDefinitions>
+    </ClCompile>
+  </ItemDefinitionGroup>
  <ItemGroup>
    <FilesToPackage Include="$(TargetPath)" />
  </ItemGroup>
--- a/bluepill.vcxproj.user
+++ b/bluepill.vcxproj.user
@ -3,4 +3,7 @@
  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|x64'">
    <SignMode>Off</SignMode>
  </PropertyGroup>
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|x64'">
+    <SignMode>Off</SignMode>
+  </PropertyGroup>
 </Project>
--- a/hv_types.hpp
+++ b/hv_types.hpp
@ -18,29 +18,18 @@ using s64 = long long;
 extern "C" void _sgdt(void*);
 #pragma intrinsic(_sgdt);

+#ifdef DBG_PRINT_BOOL
+#define DBG_PRINT(format, ...) DbgPrintEx( DPFLTR_SYSTEM_ID, DPFLTR_ERROR_LEVEL, "[hv [core number = %d]]" format, KeGetCurrentProcessorNumber(), __VA_ARGS__)
+#else
+#define DBG_PRINT(format, ...)
+#endif

-#define DBG_PRINT(...) DbgPrintEx( DPFLTR_SYSTEM_ID, DPFLTR_ERROR_LEVEL, "[hv]" __VA_ARGS__)
 #define HOST_STACK_PAGES 6

 namespace hv
 {
 	typedef struct _guest_registers
 	{
-		u64 r15;
-		u64 r14;
-		u64 r13;
-		u64 r12;
-		u64 r11;
-		u64 r10;
-		u64 r9;
-		u64 r8;
-		u64 rbp;
-		u64 rdi;
-		u64 rsi;
-		u64 rdx;
-		u64 rcx;
-		u64 rax;
-
 		u128 xmm0;
 		u128 xmm1;
 		u128 xmm2;
@ -57,6 +46,21 @@ namespace hv
 		u128 xmm13;
 		u128 xmm14;
 		u128 xmm15;
+
+		u64 r15;
+		u64 r14;
+		u64 r13;
+		u64 r12;
+		u64 r11;
+		u64 r10;
+		u64 r9;
+		u64 r8;
+		u64 rbp;
+		u64 rdi;
+		u64 rsi;
+		u64 rdx;
+		u64 rcx;
+		u64 rax;
 	} guest_registers, * pguest_registers;

 	union ia32_efer_t
--- a/segment.cpp
+++ b/segment.cpp
@ -18,20 +18,38 @@ namespace segment
 	auto get_info(segment_descriptor_register_64 gdt_value, segment_selector segment_selector) -> hv::segment_info_ctx
 	{
 		hv::segment_info_ctx segment_info;
+
+		// GDT->BaseAddress + (segment index << 3) 
+		// gives us a pointer to the segment descriptor...
 		const auto segment_descriptor = 
 			reinterpret_cast<segment_descriptor_64*>(
 				gdt_value.base_address + (segment_selector.index << SEGMENT_SELECTOR_INDEX_BIT));

+		// access rights are spread out over the segment 
+		// descriptor so those need to picked out and assigned 
+		// to the vmx segment access rights variable...
 		segment_info.limit = __segmentlimit(segment_selector.flags);
 		segment_info.rights = get_access_rights(segment_descriptor);

-		segment_info.base_addr = (u32)((segment_descriptor->base_address_high << SEGMENT__BASE_ADDRESS_HIGH_BIT) |
-			(segment_descriptor->base_address_middle << SEGMENT__BASE_ADDRESS_MIDDLE_BIT) |
+		// base address of a segment is spread over the segment descriptor in 3 places. 2 parts of the 
+		// address are 8 bits each (1 byte each) and the lowest part of the address is 2 bytes (4 bytes in total)...
+		// by shifting the values to the correct bit offset and adding them all together we get the address...
+		segment_info.base_addr = (u32)((segment_descriptor->base_address_high << SEGMENT__BASE_ADDRESS_HIGH_BIT) +
+			(segment_descriptor->base_address_middle << SEGMENT__BASE_ADDRESS_MIDDLE_BIT) +
 				(segment_descriptor->base_address_low));

-		segment_info.base_addr &= 0xFFFFFFFF;
+		// Example:
+		//	- high bits:	0b1111 0000 0000 0000
+		//	- middle bits:	0b0000 1111 0000 0000
+		//	- low bits:		0b0000 0000 1011 1000
+		//					--------------------- +
+		//					0b1111 1111 1011 1000 <==== full address...
+		// if you add all of these together you will get the full address...
+
+		// if the base address is 64bits then go ahead 
+		// and add the top 32bits onto the address..
 		if (!segment_descriptor->descriptor_type)
-			segment_info.base_addr |= ((u64)segment_descriptor->base_address_upper << SEGMENT__BASE_ADDRESS_SHIFT);
+			segment_info.base_addr += ((u64)segment_descriptor->base_address_upper << SEGMENT__BASE_ADDRESS_SHIFT);

 		return segment_info;
 	}
--- a/vmcs.cpp
+++ b/vmcs.cpp
@ -10,12 +10,14 @@ namespace vmcs
 		__sidt(&idt_value);
 		_sgdt(&gdt_value);

+		// use guest values for now... later on CR3 will be custom...
 		__vmx_vmwrite(VMCS_HOST_CR0, __readcr0());
 		__vmx_vmwrite(VMCS_HOST_CR3, __readcr3());
 		__vmx_vmwrite(VMCS_HOST_CR4, __readcr4());

+		// stack growns down...
+		__vmx_vmwrite(VMCS_HOST_RSP, host_rsp + (PAGE_SIZE * HOST_STACK_PAGES) - 8);
 		__vmx_vmwrite(VMCS_HOST_RIP, reinterpret_cast<u64>(host_rip));
-		__vmx_vmwrite(VMCS_HOST_RSP, host_rsp);

 		__vmx_vmwrite(VMCS_HOST_SYSENTER_CS, __readmsr(IA32_SYSENTER_CS));
 		__vmx_vmwrite(VMCS_HOST_SYSENTER_EIP, __readmsr(IA32_SYSENTER_EIP));
@ -24,13 +26,43 @@ namespace vmcs
 		__vmx_vmwrite(VMCS_HOST_GDTR_BASE, gdt_value.base_address);
 		__vmx_vmwrite(VMCS_HOST_IDTR_BASE, idt_value.base_address);

-		__vmx_vmwrite(VMCS_HOST_ES_SELECTOR, reades());
-		__vmx_vmwrite(VMCS_HOST_CS_SELECTOR, readcs());
-		__vmx_vmwrite(VMCS_HOST_DS_SELECTOR, readds());
-		__vmx_vmwrite(VMCS_HOST_FS_SELECTOR, readfs());
-		__vmx_vmwrite(VMCS_HOST_GS_SELECTOR, readgs());
-		__vmx_vmwrite(VMCS_HOST_SS_SELECTOR, readss());
-		__vmx_vmwrite(VMCS_HOST_TR_SELECTOR, readtr());
+		// manual says that the priv level must be 0 and 
+		// that the table flag also needs to be 0 so it uses the GDT...
+		segment_selector es{ reades() };
+		es.request_privilege_level = NULL;
+		es.table = NULL;
+
+		segment_selector cs{ readcs() };
+		cs.request_privilege_level = NULL;
+		cs.table = NULL;
+
+		segment_selector ds{ readds() };
+		ds.request_privilege_level = NULL;
+		ds.table = NULL;
+
+		segment_selector fs{ readfs() };
+		fs.request_privilege_level = NULL;
+		fs.table = NULL;
+
+		segment_selector gs{ readgs() };
+		gs.request_privilege_level = NULL;
+		gs.table = NULL;
+
+		segment_selector ss{ readss() };
+		ss.request_privilege_level = NULL;
+		ss.table = NULL;
+
+		segment_selector tr{ readtr() };
+		tr.request_privilege_level = NULL;
+		tr.table = NULL;
+
+		__vmx_vmwrite(VMCS_HOST_ES_SELECTOR, es.flags);
+		__vmx_vmwrite(VMCS_HOST_CS_SELECTOR, cs.flags);
+		__vmx_vmwrite(VMCS_HOST_DS_SELECTOR, ds.flags);
+		__vmx_vmwrite(VMCS_HOST_FS_SELECTOR, fs.flags);
+		__vmx_vmwrite(VMCS_HOST_GS_SELECTOR, gs.flags);
+		__vmx_vmwrite(VMCS_HOST_SS_SELECTOR, ss.flags);
+		__vmx_vmwrite(VMCS_HOST_TR_SELECTOR, tr.flags);

 		__vmx_vmwrite(VMCS_HOST_GS_BASE, __readmsr(IA32_GS_BASE));
 		__vmx_vmwrite(VMCS_HOST_FS_BASE, __readmsr(IA32_FS_BASE));
@ -157,25 +189,91 @@ namespace vmcs
 			pinbased_ctls.flags |= msr_fix_value.allowed_0_settings;
 			__vmx_vmwrite(VMCS_CTRL_PIN_BASED_VM_EXECUTION_CONTROLS, pinbased_ctls.flags);

+			DBG_PRINT("============================== pinbased vm-exit controls ==============================\n");
+			DBG_PRINT("		- pinbased_ctls.activate_vmx_preemption_timer: %d\n", pinbased_ctls.activate_vmx_preemption_timer);
+			DBG_PRINT("		- pinbased_ctls.external_interrupt_exiting: %d\n", pinbased_ctls.external_interrupt_exiting);
+			DBG_PRINT("		- pinbased_ctls.nmi_exiting: %d\n", pinbased_ctls.nmi_exiting);
+			DBG_PRINT("		- pinbased_ctls.process_posted_interrupts: %d\n", pinbased_ctls.process_posted_interrupts);
+			DBG_PRINT("		- pinbased_ctls.virtual_nmi: %d\n", pinbased_ctls.virtual_nmi);
+			DBG_PRINT("			- pinbased_ctls.flags: 0x%x\n", pinbased_ctls.flags);
+			DBG_PRINT("			- IA32_VMX_TRUE_PINBASED_CTLS high bits mask: 0x%x\n", msr_fix_value.allowed_1_settings);
+			DBG_PRINT("			- IA32_VMX_TRUE_PINBASED_CTLS low bits mask: 0x%x\n", msr_fix_value.allowed_0_settings);
+
 			msr_fix_value.flags = __readmsr(IA32_VMX_TRUE_PROCBASED_CTLS);
+			procbased_ctls.activate_secondary_controls = true;
 			procbased_ctls.flags &= msr_fix_value.allowed_1_settings;
 			procbased_ctls.flags |= msr_fix_value.allowed_0_settings;
-			procbased_ctls.activate_secondary_controls = true;
 			__vmx_vmwrite(VMCS_CTRL_PROCESSOR_BASED_VM_EXECUTION_CONTROLS, procbased_ctls.flags);

+			DBG_PRINT("============================== processor based vm-exit controls ==============================\n");
+			DBG_PRINT("		- procbased_ctls.activate_secondary_controls: %d\n", procbased_ctls.activate_secondary_controls);
+			DBG_PRINT("		- procbased_ctls.cr3_load_exiting: %d\n", procbased_ctls.cr3_load_exiting);
+			DBG_PRINT("		- procbased_ctls.cr3_store_exiting: %d\n", procbased_ctls.cr3_store_exiting);
+			DBG_PRINT("		- procbased_ctls.cr8_load_exiting: %d\n", procbased_ctls.cr8_load_exiting);
+			DBG_PRINT("		- procbased_ctls.cr8_store_exiting: %d\n", procbased_ctls.cr8_store_exiting);
+			DBG_PRINT("		- procbased_ctls.hlt_exiting: %d\n", procbased_ctls.hlt_exiting);
+			DBG_PRINT("		- procbased_ctls.interrupt_window_exiting: %d\n", procbased_ctls.interrupt_window_exiting);
+			DBG_PRINT("		- procbased_ctls.invlpg_exiting: %d\n", procbased_ctls.invlpg_exiting);
+			DBG_PRINT("		- procbased_ctls.monitor_exiting: %d\n", procbased_ctls.monitor_exiting);
+			DBG_PRINT("		- procbased_ctls.monitor_trap_flag: %d\n", procbased_ctls.monitor_trap_flag);
+			DBG_PRINT("		- procbased_ctls.mov_dr_exiting: %d\n", procbased_ctls.mov_dr_exiting);
+			DBG_PRINT("		- procbased_ctls.mwait_exiting: %d\n", procbased_ctls.mwait_exiting);
+			DBG_PRINT("		- procbased_ctls.nmi_window_exiting: %d\n", procbased_ctls.nmi_window_exiting);
+			DBG_PRINT("		- procbased_ctls.pause_exiting: %d\n", procbased_ctls.pause_exiting);
+			DBG_PRINT("		- procbased_ctls.rdpmc_exiting: %d\n", procbased_ctls.rdpmc_exiting);
+			DBG_PRINT("		- procbased_ctls.rdtsc_exiting: %d\n", procbased_ctls.rdtsc_exiting);
+			DBG_PRINT("		- procbased_ctls.unconditional_io_exiting: %d\n", procbased_ctls.unconditional_io_exiting);
+			DBG_PRINT("		- procbased_ctls.use_io_bitmaps: %d\n", procbased_ctls.use_io_bitmaps);
+			DBG_PRINT("		- procbased_ctls.use_msr_bitmaps: %d\n", procbased_ctls.use_msr_bitmaps);
+			DBG_PRINT("		- procbased_ctls.use_tpr_shadow: %d\n", procbased_ctls.use_tpr_shadow);
+			DBG_PRINT("		- procbased_ctls.use_tsc_offsetting: %d\n", procbased_ctls.use_tsc_offsetting);
+			DBG_PRINT("			- procbased_ctls.flags: 0x%x\n", procbased_ctls.flags);
+			DBG_PRINT("			- IA32_VMX_TRUE_PROCBASED_CTLS high bits mask: 0x%x\n", msr_fix_value.allowed_1_settings);
+			DBG_PRINT("			- IA32_VMX_TRUE_PROCBASED_CTLS low bits mask: 0x%x\n", msr_fix_value.allowed_0_settings);
+
 			msr_fix_value.flags = __readmsr(IA32_VMX_TRUE_ENTRY_CTLS);
+			entry_ctls.ia32e_mode_guest = true;
 			entry_ctls.flags &= msr_fix_value.allowed_1_settings;
 			entry_ctls.flags |= msr_fix_value.allowed_0_settings;
-			entry_ctls.ia32e_mode_guest = true;
-			entry_ctls.conceal_vmx_from_pt = true;
 			__vmx_vmwrite(VMCS_CTRL_VMENTRY_CONTROLS, entry_ctls.flags);

+			DBG_PRINT("============================== vm-entry controls ==============================\n");
+			DBG_PRINT("		- entry_ctls.conceal_vmx_from_pt: %d\n", entry_ctls.conceal_vmx_from_pt);
+			DBG_PRINT("		- entry_ctls.deactivate_dual_monitor_treatment: %d\n", entry_ctls.deactivate_dual_monitor_treatment);
+			DBG_PRINT("		- entry_ctls.entry_to_smm: %d\n", entry_ctls.entry_to_smm);
+			DBG_PRINT("		- entry_ctls.ia32e_mode_guest: %d\n", entry_ctls.ia32e_mode_guest);
+			DBG_PRINT("		- entry_ctls.load_cet_state: %d\n", entry_ctls.load_cet_state);
+			DBG_PRINT("		- entry_ctls.load_debug_controls: %d\n", entry_ctls.load_debug_controls);
+			DBG_PRINT("		- entry_ctls.load_ia32_bndcfgs: %d\n", entry_ctls.load_ia32_bndcfgs);
+			DBG_PRINT("		- entry_ctls.load_ia32_efer: %d\n", entry_ctls.load_ia32_efer);
+			DBG_PRINT("		- entry_ctls.load_ia32_pat: %d\n", entry_ctls.load_ia32_pat);
+			DBG_PRINT("		- entry_ctls.load_ia32_perf_global_ctrl: %d\n", entry_ctls.load_ia32_perf_global_ctrl);
+			DBG_PRINT("		- entry_ctls.load_ia32_rtit_ctl: %d\n", entry_ctls.load_ia32_rtit_ctl);
+			DBG_PRINT("			- entry_ctls.flags: 0x%x\n", entry_ctls.flags);
+			DBG_PRINT("			- IA32_VMX_TRUE_ENTRY_CTLS high bits mask: 0x%x\n", msr_fix_value.allowed_1_settings);
+			DBG_PRINT("			- IA32_VMX_TRUE_ENTRY_CTLS low bits mask: 0x%x\n", msr_fix_value.allowed_0_settings);
+
 			msr_fix_value.flags = __readmsr(IA32_VMX_TRUE_EXIT_CTLS);
+			exit_ctls.host_address_space_size = true;
 			exit_ctls.flags &= msr_fix_value.allowed_1_settings;
 			exit_ctls.flags |= msr_fix_value.allowed_0_settings;
-			exit_ctls.host_address_space_size = true;
-			exit_ctls.conceal_vmx_from_pt = true;
 			__vmx_vmwrite(VMCS_CTRL_VMEXIT_CONTROLS, exit_ctls.flags);
+
+			DBG_PRINT("============================== vm-exit controls ==============================\n");
+			DBG_PRINT("		- exit_ctls.acknowledge_interrupt_on_exit: %d\n", exit_ctls.acknowledge_interrupt_on_exit);
+			DBG_PRINT("		- exit_ctls.clear_ia32_bndcfgs: %d\n", exit_ctls.clear_ia32_bndcfgs);
+			DBG_PRINT("		- exit_ctls.conceal_vmx_from_pt: %d\n", exit_ctls.conceal_vmx_from_pt);
+			DBG_PRINT("		- exit_ctls.host_address_space_size: %d\n", exit_ctls.host_address_space_size);
+			DBG_PRINT("		- exit_ctls.load_ia32_efer: %d\n", exit_ctls.load_ia32_efer);
+			DBG_PRINT("		- exit_ctls.load_ia32_pat: %d\n", exit_ctls.load_ia32_pat);
+			DBG_PRINT("		- exit_ctls.load_ia32_perf_global_ctrl: %d\n", exit_ctls.load_ia32_perf_global_ctrl);
+			DBG_PRINT("		- exit_ctls.save_debug_controls: %d\n", exit_ctls.save_debug_controls);
+			DBG_PRINT("		- exit_ctls.save_ia32_efer: %d\n", exit_ctls.save_ia32_efer);
+			DBG_PRINT("		- exit_ctls.save_ia32_pat: %d\n", exit_ctls.save_ia32_pat);
+			DBG_PRINT("		- exit_ctls.save_vmx_preemption_timer_value: %d\n", exit_ctls.save_vmx_preemption_timer_value);
+			DBG_PRINT("			- exit_ctls.flags: 0x%x\n", exit_ctls.flags);
+			DBG_PRINT("			- IA32_VMX_TRUE_EXIT_CTLS high bits mask: 0x%x\n", msr_fix_value.allowed_1_settings);
+			DBG_PRINT("			- IA32_VMX_TRUE_EXIT_CTLS low bits mask: 0x%x\n", msr_fix_value.allowed_0_settings);
 		}
 		else
 		{
@ -184,33 +282,129 @@ namespace vmcs
 			pinbased_ctls.flags |= msr_fix_value.allowed_0_settings;
 			__vmx_vmwrite(VMCS_CTRL_PIN_BASED_VM_EXECUTION_CONTROLS, pinbased_ctls.flags);

+			DBG_PRINT("============================== pinbased vm-exit controls ==============================\n");
+			DBG_PRINT("		- pinbased_ctls.activate_vmx_preemption_timer: %d\n", pinbased_ctls.activate_vmx_preemption_timer);
+			DBG_PRINT("		- pinbased_ctls.external_interrupt_exiting: %d\n", pinbased_ctls.external_interrupt_exiting);
+			DBG_PRINT("		- pinbased_ctls.nmi_exiting: %d\n", pinbased_ctls.nmi_exiting);
+			DBG_PRINT("		- pinbased_ctls.process_posted_interrupts: %d\n", pinbased_ctls.process_posted_interrupts);
+			DBG_PRINT("		- pinbased_ctls.virtual_nmi: %d\n", pinbased_ctls.virtual_nmi);
+			DBG_PRINT("			- pinbased_ctls.flags: 0x%x\n", pinbased_ctls.flags);
+			DBG_PRINT("			- IA32_VMX_PINBASED_CTLS high bits mask: 0x%x\n", msr_fix_value.allowed_1_settings);
+			DBG_PRINT("			- IA32_VMX_PINBASED_CTLS low bits mask: 0x%x\n", msr_fix_value.allowed_0_settings);
+
 			msr_fix_value.flags = __readmsr(IA32_VMX_PROCBASED_CTLS);
+			procbased_ctls.activate_secondary_controls = true;
 			procbased_ctls.flags &= msr_fix_value.allowed_1_settings;
 			procbased_ctls.flags |= msr_fix_value.allowed_0_settings;
-			procbased_ctls.activate_secondary_controls = true;
 			__vmx_vmwrite(VMCS_CTRL_PROCESSOR_BASED_VM_EXECUTION_CONTROLS, procbased_ctls.flags);

+			DBG_PRINT("============================== processor based vm-exit controls ==============================\n");
+			DBG_PRINT("		- procbased_ctls.activate_secondary_controls: %d\n", procbased_ctls.activate_secondary_controls);
+			DBG_PRINT("		- procbased_ctls.cr3_load_exiting: %d\n", procbased_ctls.cr3_load_exiting);
+			DBG_PRINT("		- procbased_ctls.cr3_store_exiting: %d\n", procbased_ctls.cr3_store_exiting);
+			DBG_PRINT("		- procbased_ctls.cr8_load_exiting: %d\n", procbased_ctls.cr8_load_exiting);
+			DBG_PRINT("		- procbased_ctls.cr8_store_exiting: %d\n", procbased_ctls.cr8_store_exiting);
+			DBG_PRINT("		- procbased_ctls.hlt_exiting: %d\n", procbased_ctls.hlt_exiting);
+			DBG_PRINT("		- procbased_ctls.interrupt_window_exiting: %d\n", procbased_ctls.interrupt_window_exiting);
+			DBG_PRINT("		- procbased_ctls.invlpg_exiting: %d\n", procbased_ctls.invlpg_exiting);
+			DBG_PRINT("		- procbased_ctls.monitor_exiting: %d\n", procbased_ctls.monitor_exiting);
+			DBG_PRINT("		- procbased_ctls.monitor_trap_flag: %d\n", procbased_ctls.monitor_trap_flag);
+			DBG_PRINT("		- procbased_ctls.mov_dr_exiting: %d\n", procbased_ctls.mov_dr_exiting);
+			DBG_PRINT("		- procbased_ctls.mwait_exiting: %d\n", procbased_ctls.mwait_exiting);
+			DBG_PRINT("		- procbased_ctls.nmi_window_exiting: %d\n", procbased_ctls.nmi_window_exiting);
+			DBG_PRINT("		- procbased_ctls.pause_exiting: %d\n", procbased_ctls.pause_exiting);
+			DBG_PRINT("		- procbased_ctls.rdpmc_exiting: %d\n", procbased_ctls.rdpmc_exiting);
+			DBG_PRINT("		- procbased_ctls.rdtsc_exiting: %d\n", procbased_ctls.rdtsc_exiting);
+			DBG_PRINT("		- procbased_ctls.unconditional_io_exiting: %d\n", procbased_ctls.unconditional_io_exiting);
+			DBG_PRINT("		- procbased_ctls.use_io_bitmaps: %d\n", procbased_ctls.use_io_bitmaps);
+			DBG_PRINT("		- procbased_ctls.use_msr_bitmaps: %d\n", procbased_ctls.use_msr_bitmaps);
+			DBG_PRINT("		- procbased_ctls.use_tpr_shadow: %d\n", procbased_ctls.use_tpr_shadow);
+			DBG_PRINT("		- procbased_ctls.use_tsc_offsetting: %d\n", procbased_ctls.use_tsc_offsetting);
+			DBG_PRINT("			- procbased_ctls.flags: 0x%x\n", procbased_ctls.flags);
+			DBG_PRINT("			- IA32_VMX_PROCBASED_CTLS high bits mask: 0x%x\n", msr_fix_value.allowed_1_settings);
+			DBG_PRINT("			- IA32_VMX_PROCBASED_CTLS low bits mask: 0x%x\n", msr_fix_value.allowed_0_settings);
+
 			msr_fix_value.flags = __readmsr(IA32_VMX_ENTRY_CTLS);
-			entry_ctls.flags &= msr_fix_value.allowed_1_settings;
-			entry_ctls.flags |= msr_fix_value.allowed_0_settings;
 			entry_ctls.ia32e_mode_guest = true;
 			entry_ctls.conceal_vmx_from_pt = true;
+			entry_ctls.flags &= msr_fix_value.allowed_1_settings;
+			entry_ctls.flags |= msr_fix_value.allowed_0_settings;
 			__vmx_vmwrite(VMCS_CTRL_VMENTRY_CONTROLS, entry_ctls.flags);

+			DBG_PRINT("============================== vm-entry controls ==============================\n");
+			DBG_PRINT("		- entry_ctls.conceal_vmx_from_pt: %d\n", entry_ctls.conceal_vmx_from_pt);
+			DBG_PRINT("		- entry_ctls.deactivate_dual_monitor_treatment: %d\n", entry_ctls.deactivate_dual_monitor_treatment);
+			DBG_PRINT("		- entry_ctls.entry_to_smm: %d\n", entry_ctls.entry_to_smm);
+			DBG_PRINT("		- entry_ctls.ia32e_mode_guest: %d\n", entry_ctls.ia32e_mode_guest);
+			DBG_PRINT("		- entry_ctls.load_cet_state: %d\n", entry_ctls.load_cet_state);
+			DBG_PRINT("		- entry_ctls.load_debug_controls: %d\n", entry_ctls.load_debug_controls);
+			DBG_PRINT("		- entry_ctls.load_ia32_bndcfgs: %d\n", entry_ctls.load_ia32_bndcfgs);
+			DBG_PRINT("		- entry_ctls.load_ia32_efer: %d\n", entry_ctls.load_ia32_efer);
+			DBG_PRINT("		- entry_ctls.load_ia32_pat: %d\n", entry_ctls.load_ia32_pat);
+			DBG_PRINT("		- entry_ctls.load_ia32_perf_global_ctrl: %d\n", entry_ctls.load_ia32_perf_global_ctrl);
+			DBG_PRINT("		- entry_ctls.load_ia32_rtit_ctl: %d\n", entry_ctls.load_ia32_rtit_ctl);
+			DBG_PRINT("			- entry_ctls.flags: 0x%x\n", entry_ctls.flags);
+			DBG_PRINT("			- IA32_VMX_ENTRY_CTLS high bits mask: 0x%x\n", msr_fix_value.allowed_1_settings);
+			DBG_PRINT("			- IA32_VMX_ENTRY_CTLS low bits mask: 0x%x\n", msr_fix_value.allowed_0_settings);
+
 			msr_fix_value.flags = __readmsr(IA32_VMX_EXIT_CTLS);
-			exit_ctls.flags &= msr_fix_value.allowed_1_settings;
-			exit_ctls.flags |= msr_fix_value.allowed_0_settings;
 			exit_ctls.host_address_space_size = true;
 			exit_ctls.conceal_vmx_from_pt = true;
+			exit_ctls.flags &= msr_fix_value.allowed_1_settings;
+			exit_ctls.flags |= msr_fix_value.allowed_0_settings;
 			__vmx_vmwrite(VMCS_CTRL_VMEXIT_CONTROLS, exit_ctls.flags);
+
+			DBG_PRINT("============================== vm-exit controls ==============================\n");
+			DBG_PRINT("		- exit_ctls.acknowledge_interrupt_on_exit: %d\n", exit_ctls.acknowledge_interrupt_on_exit);
+			DBG_PRINT("		- exit_ctls.clear_ia32_bndcfgs: %d\n", exit_ctls.clear_ia32_bndcfgs);
+			DBG_PRINT("		- exit_ctls.conceal_vmx_from_pt: %d\n", exit_ctls.conceal_vmx_from_pt);
+			DBG_PRINT("		- exit_ctls.host_address_space_size: %d\n", exit_ctls.host_address_space_size);
+			DBG_PRINT("		- exit_ctls.load_ia32_efer: %d\n", exit_ctls.load_ia32_efer);
+			DBG_PRINT("		- exit_ctls.load_ia32_pat: %d\n", exit_ctls.load_ia32_pat);
+			DBG_PRINT("		- exit_ctls.load_ia32_perf_global_ctrl: %d\n", exit_ctls.load_ia32_perf_global_ctrl);
+			DBG_PRINT("		- exit_ctls.save_debug_controls: %d\n", exit_ctls.save_debug_controls);
+			DBG_PRINT("		- exit_ctls.save_ia32_efer: %d\n", exit_ctls.save_ia32_efer);
+			DBG_PRINT("		- exit_ctls.save_ia32_pat: %d\n", exit_ctls.save_ia32_pat);
+			DBG_PRINT("		- exit_ctls.save_vmx_preemption_timer_value: %d\n", exit_ctls.save_vmx_preemption_timer_value);
+			DBG_PRINT("			- exit_ctls.flags: 0x%x\n", exit_ctls.flags);
+			DBG_PRINT("			- IA32_VMX_EXIT_CTLS high bits mask: 0x%x\n", msr_fix_value.allowed_1_settings);
+			DBG_PRINT("			- IA32_VMX_EXIT_CTLS low bits mask: 0x%x\n", msr_fix_value.allowed_0_settings);
 		}

 		msr_fix_value.flags = __readmsr(IA32_VMX_PROCBASED_CTLS2);
+		procbased_ctls2.enable_rdtscp = true;
+		procbased_ctls2.enable_xsaves = true; // although my xeons dont support xsave... other cpus do!
+		procbased_ctls2.conceal_vmx_from_pt = true; // although my xeons dont support processor tracing... other cpus do!
 		procbased_ctls2.flags &= msr_fix_value.allowed_1_settings;
 		procbased_ctls2.flags |= msr_fix_value.allowed_0_settings;
-		procbased_ctls2.enable_rdtscp = true;
-		procbased_ctls2.enable_xsaves = true;
-		procbased_ctls2.conceal_vmx_from_pt = true;
 		__vmx_vmwrite(VMCS_CTRL_SECONDARY_PROCESSOR_BASED_VM_EXECUTION_CONTROLS, procbased_ctls2.flags);
+
+		DBG_PRINT("============================== secondary processor based vm-exec controls ==============================\n");
+		DBG_PRINT("		- procbased_ctls2.apic_register_virtualization: %d\n", procbased_ctls2.apic_register_virtualization);
+		DBG_PRINT("		- procbased_ctls2.conceal_vmx_from_pt: %d\n", procbased_ctls2.conceal_vmx_from_pt);
+		DBG_PRINT("		- procbased_ctls2.descriptor_table_exiting: %d\n", procbased_ctls2.descriptor_table_exiting);
+		DBG_PRINT("		- procbased_ctls2.enable_encls_exiting: %d\n", procbased_ctls2.enable_encls_exiting);
+		DBG_PRINT("		- procbased_ctls2.enable_ept: %d\n", procbased_ctls2.enable_ept);
+		DBG_PRINT("		- procbased_ctls2.enable_invpcid: %d\n", procbased_ctls2.enable_invpcid);
+		DBG_PRINT("		- procbased_ctls2.enable_pml: %d\n", procbased_ctls2.enable_pml);
+		DBG_PRINT("		- procbased_ctls2.enable_rdtscp: %d\n", procbased_ctls2.enable_rdtscp);
+		DBG_PRINT("		- procbased_ctls2.enable_vm_functions: %d\n", procbased_ctls2.enable_vm_functions);
+		DBG_PRINT("		- procbased_ctls2.enable_vpid: %d\n", procbased_ctls2.enable_vpid);
+		DBG_PRINT("		- procbased_ctls2.enable_xsaves: %d\n", procbased_ctls2.enable_xsaves);
+		DBG_PRINT("		- procbased_ctls2.ept_violation: %d\n", procbased_ctls2.ept_violation);
+		DBG_PRINT("		- procbased_ctls2.mode_based_execute_control_for_ept: %d\n", procbased_ctls2.mode_based_execute_control_for_ept);
+		DBG_PRINT("		- procbased_ctls2.pause_loop_exiting: %d\n", procbased_ctls2.pause_loop_exiting);
+		DBG_PRINT("		- procbased_ctls2.rdrand_exiting: %d\n", procbased_ctls2.rdrand_exiting);
+		DBG_PRINT("		- procbased_ctls2.rdseed_exiting: %d\n", procbased_ctls2.rdseed_exiting);
+		DBG_PRINT("		- procbased_ctls2.unrestricted_guest: %d\n", procbased_ctls2.unrestricted_guest);
+		DBG_PRINT("		- procbased_ctls2.use_tsc_scaling: %d\n", procbased_ctls2.use_tsc_scaling);
+		DBG_PRINT("		- procbased_ctls2.virtualize_apic_accesses: %d\n", procbased_ctls2.virtualize_apic_accesses);
+		DBG_PRINT("		- procbased_ctls2.virtualize_x2apic_mode: %d\n", procbased_ctls2.virtualize_x2apic_mode);
+		DBG_PRINT("		- procbased_ctls2.virtual_interrupt_delivery: %d\n", procbased_ctls2.virtual_interrupt_delivery);
+		DBG_PRINT("		- procbased_ctls2.vmcs_shadowing: %d\n", procbased_ctls2.vmcs_shadowing);
+		DBG_PRINT("		- procbased_ctls2.wbinvd_exiting: %d\n", procbased_ctls2.wbinvd_exiting);
+		DBG_PRINT("			- procbased_ctls2.flags: 0x%x\n", procbased_ctls2.flags);
+		DBG_PRINT("			- IA32_VMX_PROCBASED_CTLS2 high bits mask: 0x%x\n", msr_fix_value.allowed_1_settings);
+		DBG_PRINT("			- IA32_VMX_PROCBASED_CTLS2 low bits mask: 0x%x\n", msr_fix_value.allowed_0_settings);
 	}
 }
--- a/vmxexit_handler.asm
+++ b/vmxexit_handler.asm
@ -10,7 +10,6 @@ vmxexit_handler proc
 	push rsi
 	push rdi
 	push rbp
-	push rbp ; gotta keep the stack aligned...
 	push r8
 	push r9
 	push r10
@ -69,7 +68,6 @@ vmxexit_handler proc
 	pop r10
 	pop r9
 	pop r8
-	pop rbp ; gotta keep the stack aligned...
 	pop rbp 
 	pop rdi
 	pop rsi
--- a/vmxon.cpp
+++ b/vmxon.cpp
@ -72,11 +72,17 @@ namespace vmxon
 				reinterpret_cast<hv::pvcpu_ctx>(
 					ExAllocatePool(NonPagedPool, sizeof hv::vcpu_ctx));

+			// allocate host stack...
 			vmx_ctx->vcpus[idx]->host_stack = 
 				reinterpret_cast<u64>(
 					ExAllocatePool(NonPagedPool,
 						PAGE_SIZE * HOST_STACK_PAGES));

+			// zero host stack...
+			RtlZeroMemory(reinterpret_cast<void*>(
+				vmx_ctx->vcpus[idx]->host_stack), PAGE_SIZE * HOST_STACK_PAGES);
+
+			// setup VMCS and VMXON region...
 			create_vmxon_region(vmx_ctx->vcpus[idx]);
 			create_vmcs(vmx_ctx->vcpus[idx]);

@ -85,6 +91,7 @@ namespace 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);
+			DBG_PRINT("		- host stack: 0x%p\n", vmx_ctx->vcpus[idx]->host_stack);
 		}
 	}

@ -95,7 +102,7 @@ namespace vmxon
 		hv::cr0_t cr0 = { 0 };
 		hv::cr4_t cr4 = { 0 };

-		// should check to see if this is locked or not...
+		// TODO: 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;
@ -117,14 +124,17 @@ namespace vmxon
 		cr4.flags &= cr_fixed.split.low;
 		__writecr4(cr4.flags);

+		// enable vmx instructions on this core...
 		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",
+		const auto vmxon_result = 
 			__vmx_on((unsigned long long*)
 				&vmxon::g_vmx_ctx->vcpus[
-					KeGetCurrentProcessorNumber()]->vmxon_phys));
+					KeGetCurrentProcessorNumber()]->vmxon_phys);
+
+		DBG_PRINT("vmxon for processor: %d\n", KeGetCurrentProcessorNumber());
+		DBG_PRINT("		- vmxon result (0 == success): %d\n", vmxon_result);
 	}
 }