; $Id: LegacyandAMD64.mac 56287 2015-06-09 11:15:22Z vboxsync $ ;; @file ; VMM - World Switchers, 32-bit to AMD64 intermediate context. ; ; This is used for running 64-bit guest on 32-bit hosts, not ; normal raw-mode. All the code involved is contained in this ; file. ; ; ; Copyright (C) 2006-2015 Oracle Corporation ; ; This file is part of VirtualBox Open Source Edition (OSE), as ; available from http://www.virtualbox.org. This file is free software; ; you can redistribute it and/or modify it under the terms of the GNU ; General Public License (GPL) as published by the Free Software ; Foundation, in version 2 as it comes in the "COPYING" file of the ; VirtualBox OSE distribution. VirtualBox OSE is distributed in the ; hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. ; ;******************************************************************************* ;* Defined Constants And Macros * ;******************************************************************************* ;; @note These values are from the HM64ON32OP enum in hm.h. %define HM64ON32OP_VMXRCStartVM64 1 %define HM64ON32OP_SVMRCVMRun64 2 %define HM64ON32OP_HMRCSaveGuestFPU64 3 %define HM64ON32OP_HMRCSaveGuestDebug64 4 %define HM64ON32OP_HMRCTestSwitcher64 5 ;; ; This macro is used for storing a debug code in a CMOS location. ; ; If we tripple fault or something, the debug code can be retrieved and we ; might have a clue as to where the problem occurred. The code is currently ; using CMOS register 3 in the 2nd bank as this _seems_ to be unused on my ; Extreme4 X79 asrock mainboard. ; ; @param %1 The debug code (byte) ; @note Trashes AL. ; %macro DEBUG_CMOS_TRASH_AL 1 %ifdef VBOX_WITH_64ON32_CMOS_DEBUG mov al, 3 out 72h, al mov al, %1 out 73h, al in al, 73h %endif %endmacro ;; ; Version of DEBUG_CMOS_TRASH_AL that saves AL on the stack and therefore ; doesn't trash any registers. ; %macro DEBUG_CMOS_STACK64 1 %ifdef VBOX_WITH_64ON32_CMOS_DEBUG push rax DEBUG_CMOS_TRASH_AL %1 pop rax %endif %endmacro ;; ; Version of DEBUG_CMOS_TRASH_AL that saves AL on the stack and therefore ; doesn't trash any registers. ; %macro DEBUG_CMOS_STACK32 1 %ifdef VBOX_WITH_64ON32_CMOS_DEBUG push eax DEBUG_CMOS_TRASH_AL %1 pop eax %endif %endmacro ;; Stubs for making OS/2 compile (though, not work). %ifdef RT_OS_OS2 ;; @todo fix OMF support in yasm and kick nasm out completely. %macro vmwrite 2, int3 %endmacro %define vmlaunch int3 %define vmresume int3 %define vmsave int3 %define vmload int3 %define vmrun int3 %define clgi int3 %define stgi int3 %macro invlpga 2, int3 %endmacro %endif ;; Debug options ;%define DEBUG_STUFF 1 ;%define STRICT_IF 1 ;******************************************************************************* ;* Header Files * ;******************************************************************************* %include "VBox/asmdefs.mac" %include "iprt/x86.mac" %include "VBox/err.mac" %include "VBox/apic.mac" %include "VBox/vmm/cpum.mac" %include "VBox/vmm/stam.mac" %include "VBox/vmm/vm.mac" %include "VBox/vmm/hm_vmx.mac" %include "CPUMInternal.mac" %include "HMInternal.mac" %include "VMMSwitcher.mac" ; ; Start the fixup records ; We collect the fixups in the .data section as we go along ; It is therefore VITAL that no-one is using the .data section ; for anything else between 'Start' and 'End'. ; BEGINDATA GLOBALNAME Fixups BEGINCODE GLOBALNAME Start BITS 32 ;; ; The C interface. ; @param [esp + 04h] Param 1 - VM handle ; @param [esp + 08h] Param 2 - Offset from VM::CPUM to the CPUMCPU ; structure for the calling EMT. ; BEGINPROC vmmR0ToRawMode %ifdef DEBUG_STUFF COM32_S_NEWLINE COM32_S_CHAR '^' %endif %ifdef VBOX_WITH_STATISTICS ; ; Switcher stats. ; FIXUP FIX_HC_VM_OFF, 1, VM.StatSwitcherToGC mov edx, 0ffffffffh STAM_PROFILE_ADV_START edx %endif push ebp mov ebp, [esp + 12] ; CPUMCPU offset ; turn off interrupts pushf cli ;DEBUG_CMOS_STACK32 10h ; ; Call worker. ; FIXUP FIX_HC_CPUM_OFF, 1, 0 mov edx, 0ffffffffh push cs ; allow for far return and restore cs correctly. call NAME(vmmR0ToRawModeAsm) %ifdef VBOX_WITH_VMMR0_DISABLE_LAPIC_NMI ; Restore blocked Local APIC NMI vectors ; Do this here to ensure the host CS is already restored mov ecx, [edx + CPUMCPU.fApicDisVectors] test ecx, ecx jz gth_apic_done cmp byte [edx + CPUMCPU.fX2Apic], 1 je gth_x2apic ; Legacy xAPIC mode: mov edx, [edx + CPUMCPU.pvApicBase] shr ecx, 1 jnc gth_nolint0 and dword [edx + APIC_REG_LVT_LINT0], ~APIC_REG_LVT_MASKED gth_nolint0: shr ecx, 1 jnc gth_nolint1 and dword [edx + APIC_REG_LVT_LINT1], ~APIC_REG_LVT_MASKED gth_nolint1: shr ecx, 1 jnc gth_nopc and dword [edx + APIC_REG_LVT_PC], ~APIC_REG_LVT_MASKED gth_nopc: shr ecx, 1 jnc gth_notherm and dword [edx + APIC_REG_LVT_THMR], ~APIC_REG_LVT_MASKED gth_notherm: shr ecx, 1 jnc gth_nocmci and dword [edx + APIC_REG_LVT_CMCI], ~APIC_REG_LVT_MASKED gth_nocmci: jmp gth_apic_done ; x2APIC mode: gth_x2apic: ;DEBUG_CMOS_STACK32 7ch push eax ; save eax push ebx ; save it for fApicDisVectors push edx ; save edx just in case. mov ebx, ecx ; ebx = fApicDisVectors, ecx free for MSR use shr ebx, 1 jnc gth_x2_nolint0 mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_LINT0 >> 4) rdmsr and eax, ~APIC_REG_LVT_MASKED wrmsr gth_x2_nolint0: shr ebx, 1 jnc gth_x2_nolint1 mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_LINT1 >> 4) rdmsr and eax, ~APIC_REG_LVT_MASKED wrmsr gth_x2_nolint1: shr ebx, 1 jnc gth_x2_nopc mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_PC >> 4) rdmsr and eax, ~APIC_REG_LVT_MASKED wrmsr gth_x2_nopc: shr ebx, 1 jnc gth_x2_notherm mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_THMR >> 4) rdmsr and eax, ~APIC_REG_LVT_MASKED wrmsr gth_x2_notherm: shr ebx, 1 jnc gth_x2_nocmci mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_CMCI >> 4) rdmsr and eax, ~APIC_REG_LVT_MASKED wrmsr gth_x2_nocmci: pop edx pop ebx pop eax gth_apic_done: %endif ; restore original flags ;DEBUG_CMOS_STACK32 7eh popf pop ebp %ifdef VBOX_WITH_STATISTICS ; ; Switcher stats. ; FIXUP FIX_HC_VM_OFF, 1, VM.StatSwitcherToHC mov edx, 0ffffffffh STAM_PROFILE_ADV_STOP edx %endif ;DEBUG_CMOS_STACK32 7fh ret ENDPROC vmmR0ToRawMode ; ***************************************************************************** ; vmmR0ToRawModeAsm ; ; Phase one of the switch from host to guest context (host MMU context) ; ; INPUT: ; - edx virtual address of CPUM structure (valid in host context) ; - ebp offset of the CPUMCPU structure relative to CPUM. ; ; USES/DESTROYS: ; - eax, ecx, edx, esi ; ; ASSUMPTION: ; - current CS and DS selectors are wide open ; ; ***************************************************************************** ALIGNCODE(16) BEGINPROC vmmR0ToRawModeAsm ;; ;; Save CPU host context ;; Skip eax, edx and ecx as these are not preserved over calls. ;; CPUMCPU_FROM_CPUM_WITH_OFFSET edx, ebp %ifdef VBOX_WITH_CRASHDUMP_MAGIC ; phys address of scratch page mov eax, dword [edx + CPUMCPU.Guest.dr + 4*8] mov cr2, eax mov dword [edx + CPUMCPU.Guest.dr + 4*8], 1 %endif ; general registers. mov [edx + CPUMCPU.Host.ebx], ebx mov [edx + CPUMCPU.Host.edi], edi mov [edx + CPUMCPU.Host.esi], esi mov [edx + CPUMCPU.Host.esp], esp mov [edx + CPUMCPU.Host.ebp], ebp ; offCpumCpu! ; selectors. mov [edx + CPUMCPU.Host.ds], ds mov [edx + CPUMCPU.Host.es], es mov [edx + CPUMCPU.Host.fs], fs mov [edx + CPUMCPU.Host.gs], gs mov [edx + CPUMCPU.Host.ss], ss ; special registers. DEBUG32_S_CHAR('s') DEBUG32_S_CHAR(';') sldt [edx + CPUMCPU.Host.ldtr] sidt [edx + CPUMCPU.Host.idtr] sgdt [edx + CPUMCPU.Host.gdtr] str [edx + CPUMCPU.Host.tr] %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [edx + CPUMCPU.Guest.dr + 4*8], 2 %endif %ifdef VBOX_WITH_VMMR0_DISABLE_LAPIC_NMI ; Block Local APIC NMI vectors DEBUG32_S_CHAR('f') DEBUG32_S_CHAR(';') cmp byte [edx + CPUMCPU.fX2Apic], 1 je htg_x2apic ; Legacy xAPIC mode. No write completion required when writing to the ; LVT registers as we have mapped the APIC pages as non-cacheable and ; the MMIO is CPU-local. mov ebx, [edx + CPUMCPU.pvApicBase] or ebx, ebx jz htg_apic_done mov eax, [ebx + APIC_REG_LVT_LINT0] mov ecx, eax and ecx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ecx, APIC_REG_LVT_MODE_NMI jne htg_nolint0 or edi, 0x01 or eax, APIC_REG_LVT_MASKED mov [ebx + APIC_REG_LVT_LINT0], eax htg_nolint0: mov eax, [ebx + APIC_REG_LVT_LINT1] mov ecx, eax and ecx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ecx, APIC_REG_LVT_MODE_NMI jne htg_nolint1 or edi, 0x02 or eax, APIC_REG_LVT_MASKED mov [ebx + APIC_REG_LVT_LINT1], eax htg_nolint1: mov eax, [ebx + APIC_REG_LVT_PC] mov ecx, eax and ecx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ecx, APIC_REG_LVT_MODE_NMI jne htg_nopc or edi, 0x04 or eax, APIC_REG_LVT_MASKED mov [ebx + APIC_REG_LVT_PC], eax htg_nopc: mov eax, [ebx + APIC_REG_VERSION] shr eax, 16 cmp al, 5 jb htg_notherm je htg_nocmci mov eax, [ebx + APIC_REG_LVT_CMCI] mov ecx, eax and ecx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ecx, APIC_REG_LVT_MODE_NMI jne htg_nocmci or edi, 0x10 or eax, APIC_REG_LVT_MASKED mov [ebx + APIC_REG_LVT_CMCI], eax htg_nocmci: mov eax, [ebx + APIC_REG_LVT_THMR] mov ecx, eax and ecx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ecx, APIC_REG_LVT_MODE_NMI jne htg_notherm or edi, 0x08 or eax, APIC_REG_LVT_MASKED mov [ebx + APIC_REG_LVT_THMR], eax htg_notherm: mov [edx + CPUMCPU.fApicDisVectors], edi jmp htg_apic_done ; x2APIC mode: htg_x2apic: mov esi, edx ; Save edx. xor edi, edi ; fApicDisVectors mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_LINT0 >> 4) rdmsr mov ebx, eax and ebx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ebx, APIC_REG_LVT_MODE_NMI jne htg_x2_nolint0 or edi, 0x01 or eax, APIC_REG_LVT_MASKED wrmsr htg_x2_nolint0: mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_LINT1 >> 4) rdmsr mov ebx, eax and ebx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ebx, APIC_REG_LVT_MODE_NMI jne htg_x2_nolint1 or edi, 0x02 or eax, APIC_REG_LVT_MASKED wrmsr htg_x2_nolint1: mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_PC >> 4) rdmsr mov ebx, eax and ebx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ebx, APIC_REG_LVT_MODE_NMI jne htg_x2_nopc or edi, 0x04 or eax, APIC_REG_LVT_MASKED wrmsr htg_x2_nopc: mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_VERSION >> 4) rdmsr shr eax, 16 cmp al, 5 jb htg_x2_notherm je htg_x2_nocmci mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_CMCI >> 4) rdmsr mov ebx, eax and ebx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ebx, APIC_REG_LVT_MODE_NMI jne htg_x2_nocmci or edi, 0x10 or eax, APIC_REG_LVT_MASKED wrmsr htg_x2_nocmci: mov ecx, MSR_IA32_X2APIC_START + (APIC_REG_LVT_THMR >> 4) rdmsr mov ebx, eax and ebx, (APIC_REG_LVT_MASKED | APIC_REG_LVT_MODE_MASK) cmp ebx, APIC_REG_LVT_MODE_NMI jne htg_x2_notherm or edi, 0x08 or eax, APIC_REG_LVT_MASKED wrmsr htg_x2_notherm: mov edx, esi ; Restore edx. mov [edx + CPUMCPU.fApicDisVectors], edi htg_apic_done: %endif ; control registers. mov eax, cr0 mov [edx + CPUMCPU.Host.cr0], eax ;Skip cr2; assume host os don't stuff things in cr2. (safe) mov eax, cr3 mov [edx + CPUMCPU.Host.cr3], eax mov esi, cr4 ; esi = cr4, we'll modify it further down. mov [edx + CPUMCPU.Host.cr4], esi DEBUG32_S_CHAR('c') DEBUG32_S_CHAR(';') ; save the host EFER msr mov ebx, edx mov ecx, MSR_K6_EFER rdmsr mov [ebx + CPUMCPU.Host.efer], eax mov [ebx + CPUMCPU.Host.efer + 4], edx mov edx, ebx DEBUG32_S_CHAR('e') DEBUG32_S_CHAR(';') %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [edx + CPUMCPU.Guest.dr + 4*8], 3 %endif ; Load new gdt so we can do a far jump after going into 64 bits mode ;DEBUG_CMOS_STACK32 16h lgdt [edx + CPUMCPU.Hyper.gdtr] DEBUG32_S_CHAR('g') DEBUG32_S_CHAR('!') %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [edx + CPUMCPU.Guest.dr + 4*8], 4 %endif ;; ;; Clean up CR4. X86_CR4_PGE, X86_CR4_PCE, X86_CR4_PCIDE (not really ;; relevant for 32-bit, but whatever) and X86_CR4_VMXE must be cleared. ;; and esi, X86_CR4_VME | X86_CR4_PVI | X86_CR4_TSD | X86_CR4_DE | X86_CR4_PSE | X86_CR4_PAE \ | X86_CR4_MCE | X86_CR4_OSFXSR | X86_CR4_OSXMMEEXCPT | X86_CR4_SMXE | X86_CR4_OSXSAVE mov cr4, esi ;; ;; Load Intermediate memory context. ;; FIXUP SWITCHER_FIX_INTER_CR3_HC, 1 mov eax, 0ffffffffh mov cr3, eax DEBUG32_CHAR('?') %ifdef VBOX_WITH_64ON32_CMOS_DEBUG DEBUG_CMOS_TRASH_AL 17h %endif ;; ;; Jump to identity mapped location ;; FIXUP FIX_HC_2_ID_NEAR_REL, 1, NAME(IDEnterTarget) - NAME(Start) jmp near NAME(IDEnterTarget) ; We're now on identity mapped pages! ALIGNCODE(16) GLOBALNAME IDEnterTarget DEBUG32_CHAR('1') DEBUG_CMOS_TRASH_AL 19h ; 1. Disable paging. mov ebx, cr0 and ebx, ~X86_CR0_PG mov cr0, ebx DEBUG32_CHAR('2') DEBUG_CMOS_TRASH_AL 1ah %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov eax, cr2 mov dword [eax], 3 %endif ; 2. Enable PAE. mov ecx, cr4 or ecx, X86_CR4_PAE mov cr4, ecx DEBUG_CMOS_TRASH_AL 1bh ; 3. Load long mode intermediate CR3. FIXUP FIX_INTER_AMD64_CR3, 1 mov ecx, 0ffffffffh mov cr3, ecx DEBUG32_CHAR('3') DEBUG_CMOS_TRASH_AL 1ch %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov eax, cr2 mov dword [eax], 4 %endif ; 4. Enable long mode. mov esi, edx mov ecx, MSR_K6_EFER rdmsr FIXUP FIX_EFER_OR_MASK, 1 or eax, 0ffffffffh and eax, ~(MSR_K6_EFER_FFXSR) ; turn off fast fxsave/fxrstor (skipping xmm regs) wrmsr mov edx, esi DEBUG32_CHAR('4') DEBUG_CMOS_TRASH_AL 1dh %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov eax, cr2 mov dword [eax], 5 %endif ; 5. Enable paging. or ebx, X86_CR0_PG ; Disable ring 0 write protection too and ebx, ~X86_CR0_WRITE_PROTECT mov cr0, ebx DEBUG32_CHAR('5') ; Jump from compatibility mode to 64-bit mode. FIXUP FIX_ID_FAR32_TO_64BIT_MODE, 1, NAME(IDEnter64Mode) - NAME(Start) jmp 0ffffh:0fffffffeh ; ; We're in 64-bit mode (ds, ss, es, fs, gs are all bogus). BITS 64 ALIGNCODE(16) NAME(IDEnter64Mode): DEBUG64_CHAR('6') DEBUG_CMOS_TRASH_AL 1eh jmp [NAME(pICEnterTarget) wrt rip] ; 64-bit jump target NAME(pICEnterTarget): FIXUP FIX_HC_64BIT_NOCHECK, 0, NAME(ICEnterTarget) - NAME(Start) dq 0ffffffffffffffffh ; 64-bit pCpum address. NAME(pCpumIC): FIXUP FIX_GC_64_BIT_CPUM_OFF, 0, 0 dq 0ffffffffffffffffh %ifdef VBOX_WITH_CRASHDUMP_MAGIC NAME(pMarker): db 'Switch_marker' %endif ; ; When we arrive here we're in 64 bits mode in the intermediate context ; ALIGNCODE(16) GLOBALNAME ICEnterTarget ;DEBUG_CMOS_TRASH_AL 1fh ; Load CPUM pointer into rdx mov rdx, [NAME(pCpumIC) wrt rip] CPUMCPU_FROM_CPUM_WITH_OFFSET edx, ebp mov rax, cs mov ds, rax mov es, rax ; Invalidate fs & gs mov rax, 0 mov fs, rax mov gs, rax %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdx + CPUMCPU.Guest.dr + 4*8], 5 %endif ; Setup stack. DEBUG64_CHAR('7') mov rsp, 0 mov eax, [rdx + CPUMCPU.Hyper.ss.Sel] mov ss, ax mov esp, [rdx + CPUMCPU.Hyper.esp] %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdx + CPUMCPU.Guest.dr + 4*8], 6 %endif %ifdef VBOX_WITH_64ON32_IDT ; Set up emergency trap handlers. lidt [rdx + CPUMCPU.Hyper.idtr] %endif DEBUG64_S_CHAR('8') ; Check if we need to restore the guest FPU state mov esi, [rdx + CPUMCPU.fUseFlags] ; esi == use flags. test esi, CPUM_SYNC_FPU_STATE jz near htg_fpu_no %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdx + CPUMCPU.Guest.dr + 4*8], 7 %endif mov rax, cr0 mov rcx, rax ; save old CR0 and rax, ~(X86_CR0_TS | X86_CR0_EM) mov cr0, rax mov eax, [rdx + CPUMCPU.Guest.fXStateMask] mov ebx, [rdx + CPUMCPU.Guest.pXStateRC] or eax, eax jz htg_fpu_fxrstor mov r9, rdx mov edx, [rdx + CPUMCPU.Guest.fXStateMask + 4] o64 xsave [rbx] mov rdx, r9 jmp htg_fpu_done htg_fpu_fxrstor: o64 fxrstor [rbx] ; (use explicit REX prefix, see @bugref{6398}) htg_fpu_done: mov cr0, rcx ; and restore old CR0 again and dword [rdx + CPUMCPU.fUseFlags], ~CPUM_SYNC_FPU_STATE htg_fpu_no: ; Check if we need to restore the guest debug state test esi, CPUM_SYNC_DEBUG_REGS_GUEST | CPUM_SYNC_DEBUG_REGS_HYPER jz htg_debug_done %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdx + CPUMCPU.Guest.dr + 4*8], 8 %endif test esi, CPUM_SYNC_DEBUG_REGS_HYPER jnz htg_debug_hyper ; Guest values in DRx, letting the guest access them directly. mov rax, qword [rdx + CPUMCPU.Guest.dr + 0*8] mov dr0, rax mov rax, qword [rdx + CPUMCPU.Guest.dr + 1*8] mov dr1, rax mov rax, qword [rdx + CPUMCPU.Guest.dr + 2*8] mov dr2, rax mov rax, qword [rdx + CPUMCPU.Guest.dr + 3*8] mov dr3, rax mov rax, qword [rdx + CPUMCPU.Guest.dr + 6*8] mov dr6, rax ; not required for AMD-V and dword [rdx + CPUMCPU.fUseFlags], ~CPUM_SYNC_DEBUG_REGS_GUEST or dword [rdx + CPUMCPU.fUseFlags], CPUM_USED_DEBUG_REGS_GUEST jmp htg_debug_done htg_debug_hyper: ; Combined values in DRx, intercepting all accesses. mov rax, qword [rdx + CPUMCPU.Hyper.dr + 0*8] mov dr0, rax mov rax, qword [rdx + CPUMCPU.Hyper.dr + 1*8] mov dr1, rax mov rax, qword [rdx + CPUMCPU.Hyper.dr + 2*8] mov dr2, rax mov rax, qword [rdx + CPUMCPU.Hyper.dr + 3*8] mov dr3, rax mov rax, qword [rdx + CPUMCPU.Hyper.dr + 6*8] mov dr6, rax ; not required for AMD-V and dword [rdx + CPUMCPU.fUseFlags], ~CPUM_SYNC_DEBUG_REGS_HYPER or dword [rdx + CPUMCPU.fUseFlags], CPUM_USED_DEBUG_REGS_HYPER htg_debug_done: %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdx + CPUMCPU.Guest.dr + 4*8], 9 %endif ; ; "Call" the specified helper function. ; ; parameter for all helper functions (pCtx) DEBUG64_CHAR('9') lea rsi, [rdx + CPUMCPU.Guest] lea rax, [htg_return wrt rip] push rax ; return address ; load the hypervisor function address mov r9, [rdx + CPUMCPU.Hyper.eip] cmp r9d, HM64ON32OP_VMXRCStartVM64 jz NAME(VMXRCStartVM64) cmp r9d, HM64ON32OP_SVMRCVMRun64 jz NAME(SVMRCVMRun64) cmp r9d, HM64ON32OP_HMRCSaveGuestFPU64 jz NAME(HMRCSaveGuestFPU64) cmp r9d, HM64ON32OP_HMRCSaveGuestDebug64 jz NAME(HMRCSaveGuestDebug64) cmp r9d, HM64ON32OP_HMRCTestSwitcher64 jz NAME(HMRCTestSwitcher64) mov eax, VERR_HM_INVALID_HM64ON32OP htg_return: DEBUG64_CHAR('r') ; Load CPUM pointer into rdx mov rdx, [NAME(pCpumIC) wrt rip] CPUMCPU_FROM_CPUM_WITH_OFFSET edx, ebp %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdx + CPUMCPU.Guest.dr + 4*8], 10 %endif ; Save the return code mov dword [rdx + CPUMCPU.u32RetCode], eax ; now let's switch back jmp NAME(vmmRCToHostAsm) ; rax = returncode. ENDPROC vmmR0ToRawModeAsm ; ; ; HM code (used to be HMRCA.asm at one point). ; HM code (used to be HMRCA.asm at one point). ; HM code (used to be HMRCA.asm at one point). ; ; ;; @def MYPUSHSEGS ; Macro saving all segment registers on the stack. ; @param 1 full width register name %macro MYPUSHSEGS 1 mov %1, es push %1 mov %1, ds push %1 %endmacro ;; @def MYPOPSEGS ; Macro restoring all segment registers on the stack ; @param 1 full width register name %macro MYPOPSEGS 1 pop %1 mov ds, %1 pop %1 mov es, %1 %endmacro ;/** ; * Prepares for and executes VMLAUNCH/VMRESUME (64 bits guest mode) ; * ; * @returns VBox status code ; * @param HCPhysCpuPage VMXON physical address [rsp+8] ; * @param HCPhysVmcs VMCS physical address [rsp+16] ; * @param pCache VMCS cache [rsp+24] ; * @param pVM The VM handle [rbp+28h] ; * @param pVM The VMCPU handle. [rbp+30h] ; * @param pCtx Guest context (rsi) ; */ BEGINPROC VMXRCStartVM64 push rbp mov rbp, rsp DEBUG_CMOS_STACK64 20h ; Make sure VT-x instructions are allowed. mov rax, cr4 or rax, X86_CR4_VMXE mov cr4, rax ; Enter VMX Root Mode. vmxon [rbp + 8 + 8] jnc .vmxon_success mov rax, VERR_VMX_INVALID_VMXON_PTR jmp .vmstart64_vmxon_failed .vmxon_success: jnz .vmxon_success2 mov rax, VERR_VMX_VMXON_FAILED jmp .vmstart64_vmxon_failed .vmxon_success2: ; Activate the VMCS pointer vmptrld [rbp + 16 + 8] jnc .vmptrld_success mov rax, VERR_VMX_INVALID_VMCS_PTR jmp .vmstart64_vmxoff_end .vmptrld_success: jnz .vmptrld_success2 mov rax, VERR_VMX_VMPTRLD_FAILED jmp .vmstart64_vmxoff_end .vmptrld_success2: ; Save the VMCS pointer on the stack push qword [rbp + 16 + 8]; ; Save segment registers. MYPUSHSEGS rax %ifdef VMX_USE_CACHED_VMCS_ACCESSES ; Flush the VMCS write cache first (before any other vmreads/vmwrites!). mov rbx, [rbp + 24 + 8] ; pCache %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov qword [rbx + VMCSCACHE.uPos], 2 %endif %ifdef DEBUG mov rax, [rbp + 8 + 8] ; HCPhysCpuPage mov [rbx + VMCSCACHE.TestIn.HCPhysCpuPage], rax mov rax, [rbp + 16 + 8] ; HCPhysVmcs mov [rbx + VMCSCACHE.TestIn.HCPhysVmcs], rax mov [rbx + VMCSCACHE.TestIn.pCache], rbx mov [rbx + VMCSCACHE.TestIn.pCtx], rsi %endif mov ecx, [rbx + VMCSCACHE.Write.cValidEntries] cmp ecx, 0 je .no_cached_writes mov rdx, rcx mov rcx, 0 jmp .cached_write ALIGN(16) .cached_write: mov eax, [rbx + VMCSCACHE.Write.aField + rcx*4] vmwrite rax, qword [rbx + VMCSCACHE.Write.aFieldVal + rcx*8] inc rcx cmp rcx, rdx jl .cached_write mov dword [rbx + VMCSCACHE.Write.cValidEntries], 0 .no_cached_writes: %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov qword [rbx + VMCSCACHE.uPos], 3 %endif ; Save the pCache pointer. push rbx %endif ; Save the host state that's relevant in the temporary 64-bit mode. mov rdx, cr0 mov eax, VMX_VMCS_HOST_CR0 vmwrite rax, rdx mov rdx, cr3 mov eax, VMX_VMCS_HOST_CR3 vmwrite rax, rdx mov rdx, cr4 mov eax, VMX_VMCS_HOST_CR4 vmwrite rax, rdx mov rdx, cs mov eax, VMX_VMCS_HOST_FIELD_CS vmwrite rax, rdx mov rdx, ss mov eax, VMX_VMCS_HOST_FIELD_SS vmwrite rax, rdx %if 0 ; Another experiment regarding tripple faults... Seems not to be necessary. sub rsp, 16 str [rsp] movsx rdx, word [rsp] mov eax, VMX_VMCS_HOST_FIELD_TR vmwrite rax, rdx add rsp, 16 %endif sub rsp, 16 sgdt [rsp + 6] ; (The 64-bit base should be aligned, not the word.) mov eax, VMX_VMCS_HOST_GDTR_BASE vmwrite rax, [rsp + 6 + 2] add rsp, 16 %ifdef VBOX_WITH_64ON32_IDT sub rsp, 16 sidt [rsp + 6] mov eax, VMX_VMCS_HOST_IDTR_BASE vmwrite rax, [rsp + 6 + 2] ; [rsi + CPUMCPU.Hyper.idtr + 2] - why doesn't this work? add rsp, 16 ;call NAME(vmm64On32PrintIdtr) %endif %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov qword [rbx + VMCSCACHE.uPos], 4 %endif ; Hopefully we can ignore TR (we restore it anyway on the way back to 32-bit mode). ; First we have to save some final CPU context registers. lea rdx, [.vmlaunch64_done wrt rip] mov rax, VMX_VMCS_HOST_RIP ; Return address (too difficult to continue after VMLAUNCH?). vmwrite rax, rdx ; Note: assumes success! ; Manual save and restore: ; - General purpose registers except RIP, RSP ; - XCR0 ; ; Trashed: ; - CR2 (we don't care) ; - LDTR (reset to 0) ; - DRx (presumably not changed at all) ; - DR7 (reset to 0x400) ; - EFLAGS (reset to RT_BIT(1); not relevant) %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov qword [rbx + VMCSCACHE.uPos], 5 %endif ; ; Save the host XCR0 and load the guest one if necessary. ; Note! Trashes rdx and rcx. ; mov rax, [rbp + 30h] ; pVCpu test byte [rax + VMCPU.hm + HMCPU.fLoadSaveGuestXcr0], 1 jz .xcr0_before_skip xor ecx, ecx xgetbv ; Save the host one on the stack. push rdx push rax mov eax, [xSI + CPUMCTX.aXcr] ; Load the guest one. mov edx, [xSI + CPUMCTX.aXcr + 4] xor ecx, ecx ; paranoia xsetbv push 0 ; Indicate that we must restore XCR0 (popped into ecx, thus 0). jmp .xcr0_before_done .xcr0_before_skip: push 3fh ; indicate that we need not. .xcr0_before_done: ; Save the pCtx pointer push rsi ; Load CR2 if necessary (may be expensive as writing CR2 is a synchronizing instruction). mov rbx, qword [rsi + CPUMCTX.cr2] mov rdx, cr2 cmp rdx, rbx je .skipcr2write64 mov cr2, rbx .skipcr2write64: mov eax, VMX_VMCS_HOST_RSP vmwrite rax, rsp ; Note: assumes success! ; Don't mess with ESP anymore!!! ; Save Guest's general purpose registers. mov rax, qword [rsi + CPUMCTX.eax] mov rbx, qword [rsi + CPUMCTX.ebx] mov rcx, qword [rsi + CPUMCTX.ecx] mov rdx, qword [rsi + CPUMCTX.edx] mov rbp, qword [rsi + CPUMCTX.ebp] mov r8, qword [rsi + CPUMCTX.r8] mov r9, qword [rsi + CPUMCTX.r9] mov r10, qword [rsi + CPUMCTX.r10] mov r11, qword [rsi + CPUMCTX.r11] mov r12, qword [rsi + CPUMCTX.r12] mov r13, qword [rsi + CPUMCTX.r13] mov r14, qword [rsi + CPUMCTX.r14] mov r15, qword [rsi + CPUMCTX.r15] ; Save rdi & rsi. mov rdi, qword [rsi + CPUMCTX.edi] mov rsi, qword [rsi + CPUMCTX.esi] vmlaunch jmp .vmlaunch64_done; ; Here if vmlaunch detected a failure. ALIGNCODE(16) .vmlaunch64_done: %if 0 ;fixme later - def VBOX_WITH_64ON32_IDT push rdx mov rdx, [rsp + 8] ; pCtx lidt [rdx + CPUMCPU.Hyper.idtr] pop rdx %endif jc near .vmstart64_invalid_vmcs_ptr jz near .vmstart64_start_failed push rdi mov rdi, [rsp + 8] ; pCtx mov qword [rdi + CPUMCTX.eax], rax mov qword [rdi + CPUMCTX.ebx], rbx mov qword [rdi + CPUMCTX.ecx], rcx mov qword [rdi + CPUMCTX.edx], rdx mov qword [rdi + CPUMCTX.esi], rsi mov qword [rdi + CPUMCTX.ebp], rbp mov qword [rdi + CPUMCTX.r8], r8 mov qword [rdi + CPUMCTX.r9], r9 mov qword [rdi + CPUMCTX.r10], r10 mov qword [rdi + CPUMCTX.r11], r11 mov qword [rdi + CPUMCTX.r12], r12 mov qword [rdi + CPUMCTX.r13], r13 mov qword [rdi + CPUMCTX.r14], r14 mov qword [rdi + CPUMCTX.r15], r15 mov rax, cr2 mov qword [rdi + CPUMCTX.cr2], rax pop rax ; The guest edi we pushed above mov qword [rdi + CPUMCTX.edi], rax pop rsi ; pCtx (needed in rsi by the macros below) ; Restore the host xcr0 if necessary. pop rcx test ecx, ecx jnz .xcr0_after_skip pop rax pop rdx xsetbv ; ecx is already zero. .xcr0_after_skip: %ifdef VMX_USE_CACHED_VMCS_ACCESSES pop rdi ; Saved pCache %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdi + VMCSCACHE.uPos], 7 %endif %ifdef DEBUG mov [rdi + VMCSCACHE.TestOut.pCache], rdi mov [rdi + VMCSCACHE.TestOut.pCtx], rsi mov rax, cr8 mov [rdi + VMCSCACHE.TestOut.cr8], rax %endif mov ecx, [rdi + VMCSCACHE.Read.cValidEntries] cmp ecx, 0 ; Can't happen je .no_cached_reads jmp .cached_read ALIGN(16) .cached_read: dec rcx mov eax, [rdi + VMCSCACHE.Read.aField + rcx*4] vmread qword [rdi + VMCSCACHE.Read.aFieldVal + rcx*8], rax cmp rcx, 0 jnz .cached_read .no_cached_reads: %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdi + VMCSCACHE.uPos], 8 %endif %endif ; Restore segment registers. MYPOPSEGS rax mov eax, VINF_SUCCESS %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdi + VMCSCACHE.uPos], 9 %endif .vmstart64_end: %ifdef VMX_USE_CACHED_VMCS_ACCESSES %ifdef DEBUG mov rdx, [rsp] ; HCPhysVmcs mov [rdi + VMCSCACHE.TestOut.HCPhysVmcs], rdx %endif %endif ; Write back the data and disable the VMCS. vmclear qword [rsp] ; Pushed pVMCS add rsp, 8 .vmstart64_vmxoff_end: ; Disable VMX root mode. vmxoff .vmstart64_vmxon_failed: %ifdef VMX_USE_CACHED_VMCS_ACCESSES %ifdef DEBUG cmp eax, VINF_SUCCESS jne .skip_flags_save pushf pop rdx mov [rdi + VMCSCACHE.TestOut.eflags], rdx %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdi + VMCSCACHE.uPos], 12 %endif .skip_flags_save: %endif %endif pop rbp ret .vmstart64_invalid_vmcs_ptr: pop rsi ; pCtx (needed in rsi by the macros below) ; Restore the host xcr0 if necessary. pop rcx test ecx, ecx jnz .xcr0_after_skip2 pop rax pop rdx xsetbv ; ecx is already zero. .xcr0_after_skip2: %ifdef VMX_USE_CACHED_VMCS_ACCESSES pop rdi ; pCache %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdi + VMCSCACHE.uPos], 10 %endif %ifdef DEBUG mov [rdi + VMCSCACHE.TestOut.pCache], rdi mov [rdi + VMCSCACHE.TestOut.pCtx], rsi %endif %endif ; Restore segment registers. MYPOPSEGS rax ; Restore all general purpose host registers. mov eax, VERR_VMX_INVALID_VMCS_PTR_TO_START_VM jmp .vmstart64_end .vmstart64_start_failed: pop rsi ; pCtx (needed in rsi by the macros below) ; Restore the host xcr0 if necessary. pop rcx test ecx, ecx jnz .xcr0_after_skip3 pop rax pop rdx xsetbv ; ecx is already zero. .xcr0_after_skip3: %ifdef VMX_USE_CACHED_VMCS_ACCESSES pop rdi ; pCache %ifdef DEBUG mov [rdi + VMCSCACHE.TestOut.pCache], rdi mov [rdi + VMCSCACHE.TestOut.pCtx], rsi %endif %ifdef VBOX_WITH_CRASHDUMP_MAGIC mov dword [rdi + VMCSCACHE.uPos], 11 %endif %endif ; Restore segment registers. MYPOPSEGS rax ; Restore all general purpose host registers. mov eax, VERR_VMX_UNABLE_TO_START_VM jmp .vmstart64_end ENDPROC VMXRCStartVM64 ;; ; Prepares for and executes VMRUN (64 bits guests) ; ; @returns VBox status code ; @param HCPhysVMCB Physical address of host VMCB [rbp+10h] ; @param HCPhysVMCB Physical address of guest VMCB [rbp+18h] ; @param pVM The VM handle [rbp+20h] ; @param pVCpu The VMCPU handle. [rbp+28h] ; @param pCtx Guest context [rsi] ; BEGINPROC SVMRCVMRun64 push rbp mov rbp, rsp pushf DEBUG_CMOS_STACK64 30h ; Manual save and restore: ; - General purpose registers except RIP, RSP, RAX ; ; Trashed: ; - CR2 (we don't care) ; - LDTR (reset to 0) ; - DRx (presumably not changed at all) ; - DR7 (reset to 0x400) ; ; Save the host XCR0 and load the guest one if necessary. ; mov rax, [rbp + 28h] ; pVCpu test byte [rax + VMCPU.hm + HMCPU.fLoadSaveGuestXcr0], 1 jz .xcr0_before_skip xor ecx, ecx xgetbv ; Save the host one on the stack. push rdx push rax mov eax, [xSI + CPUMCTX.aXcr] ; Load the guest one. mov edx, [xSI + CPUMCTX.aXcr + 4] xor ecx, ecx ; paranoia xsetbv push 0 ; Indicate that we must restore XCR0 (popped into ecx, thus 0). jmp .xcr0_before_done .xcr0_before_skip: push 3fh ; indicate that we need not. .xcr0_before_done: ; Save the Guest CPU context pointer. push rsi ; Push for saving the state at the end ; Save host fs, gs, sysenter msr etc mov rax, [rbp + 8 + 8] ; pVMCBHostPhys (64 bits physical address) push rax ; Save for the vmload after vmrun vmsave ; Setup eax for VMLOAD mov rax, [rbp + 8 + 8 + RTHCPHYS_CB] ; pVMCBPhys (64 bits physical address) ; Restore Guest's general purpose registers. ; rax is loaded from the VMCB by VMRUN. mov rbx, qword [rsi + CPUMCTX.ebx] mov rcx, qword [rsi + CPUMCTX.ecx] mov rdx, qword [rsi + CPUMCTX.edx] mov rdi, qword [rsi + CPUMCTX.edi] mov rbp, qword [rsi + CPUMCTX.ebp] mov r8, qword [rsi + CPUMCTX.r8] mov r9, qword [rsi + CPUMCTX.r9] mov r10, qword [rsi + CPUMCTX.r10] mov r11, qword [rsi + CPUMCTX.r11] mov r12, qword [rsi + CPUMCTX.r12] mov r13, qword [rsi + CPUMCTX.r13] mov r14, qword [rsi + CPUMCTX.r14] mov r15, qword [rsi + CPUMCTX.r15] mov rsi, qword [rsi + CPUMCTX.esi] ; Clear the global interrupt flag & execute sti to make sure external interrupts cause a world switch. clgi sti ; Load guest fs, gs, sysenter msr etc vmload ; Run the VM vmrun ; rax is in the VMCB already; we can use it here. ; Save guest fs, gs, sysenter msr etc. vmsave ; Load host fs, gs, sysenter msr etc. pop rax ; Pushed above vmload ; Set the global interrupt flag again, but execute cli to make sure IF=0. cli stgi pop rax ; pCtx mov qword [rax + CPUMCTX.ebx], rbx mov qword [rax + CPUMCTX.ecx], rcx mov qword [rax + CPUMCTX.edx], rdx mov qword [rax + CPUMCTX.esi], rsi mov qword [rax + CPUMCTX.edi], rdi mov qword [rax + CPUMCTX.ebp], rbp mov qword [rax + CPUMCTX.r8], r8 mov qword [rax + CPUMCTX.r9], r9 mov qword [rax + CPUMCTX.r10], r10 mov qword [rax + CPUMCTX.r11], r11 mov qword [rax + CPUMCTX.r12], r12 mov qword [rax + CPUMCTX.r13], r13 mov qword [rax + CPUMCTX.r14], r14 mov qword [rax + CPUMCTX.r15], r15 ; ; Restore the host xcr0 if necessary. ; pop rcx test ecx, ecx jnz .xcr0_after_skip pop rax pop rdx xsetbv ; ecx is already zero. .xcr0_after_skip: mov eax, VINF_SUCCESS popf pop rbp ret ENDPROC SVMRCVMRun64 ;/** ; * Saves the guest FPU context ; * ; * @returns VBox status code ; * @param pCtx Guest context [rsi] ; */ BEGINPROC HMRCSaveGuestFPU64 DEBUG_CMOS_STACK64 40h mov rax, cr0 mov rcx, rax ; save old CR0 and rax, ~(X86_CR0_TS | X86_CR0_EM) mov cr0, rax mov eax, [rsi + CPUMCTX.fXStateMask] mov ebx, [rsi + CPUMCTX.pXStateRC] test eax, eax jz .use_fxsave mov edx, [rsi + CPUMCTX.fXStateMask + 4] o64 xsave [rbx] jmp .done .use_fxsave: o64 fxsave [rbx] ; (use explicit REX prefix, see @bugref{6398}) .done: mov cr0, rcx ; and restore old CR0 again mov eax, VINF_SUCCESS ret ENDPROC HMRCSaveGuestFPU64 ;/** ; * Saves the guest debug context (DR0-3, DR6) ; * ; * @returns VBox status code ; * @param pCtx Guest context [rsi] ; */ BEGINPROC HMRCSaveGuestDebug64 DEBUG_CMOS_STACK64 41h mov rax, dr0 mov qword [rsi + CPUMCTX.dr + 0*8], rax mov rax, dr1 mov qword [rsi + CPUMCTX.dr + 1*8], rax mov rax, dr2 mov qword [rsi + CPUMCTX.dr + 2*8], rax mov rax, dr3 mov qword [rsi + CPUMCTX.dr + 3*8], rax mov rax, dr6 mov qword [rsi + CPUMCTX.dr + 6*8], rax mov eax, VINF_SUCCESS ret ENDPROC HMRCSaveGuestDebug64 ;/** ; * Dummy callback handler ; * ; * @returns VBox status code ; * @param param1 Parameter 1 [rsp+8] ; * @param param2 Parameter 2 [rsp+12] ; * @param param3 Parameter 3 [rsp+16] ; * @param param4 Parameter 4 [rsp+20] ; * @param param5 Parameter 5 [rsp+24] ; * @param pCtx Guest context [rsi] ; */ BEGINPROC HMRCTestSwitcher64 DEBUG_CMOS_STACK64 42h mov eax, [rsp+8] ret ENDPROC HMRCTestSwitcher64 %ifdef VBOX_WITH_64ON32_IDT ; ; Trap handling. ; ;; Here follows an array of trap handler entry points, 8 byte in size. BEGINPROC vmm64On32TrapHandlers %macro vmm64On32TrapEntry 1 GLOBALNAME vmm64On32Trap %+ i db 06ah, i ; push imm8 - note that this is a signextended value. jmp NAME(%1) ALIGNCODE(8) %assign i i+1 %endmacro %assign i 0 ; start counter. vmm64On32TrapEntry vmm64On32Trap ; 0 vmm64On32TrapEntry vmm64On32Trap ; 1 vmm64On32TrapEntry vmm64On32Trap ; 2 vmm64On32TrapEntry vmm64On32Trap ; 3 vmm64On32TrapEntry vmm64On32Trap ; 4 vmm64On32TrapEntry vmm64On32Trap ; 5 vmm64On32TrapEntry vmm64On32Trap ; 6 vmm64On32TrapEntry vmm64On32Trap ; 7 vmm64On32TrapEntry vmm64On32TrapErrCode ; 8 vmm64On32TrapEntry vmm64On32Trap ; 9 vmm64On32TrapEntry vmm64On32TrapErrCode ; a vmm64On32TrapEntry vmm64On32TrapErrCode ; b vmm64On32TrapEntry vmm64On32TrapErrCode ; c vmm64On32TrapEntry vmm64On32TrapErrCode ; d vmm64On32TrapEntry vmm64On32TrapErrCode ; e vmm64On32TrapEntry vmm64On32Trap ; f (reserved) vmm64On32TrapEntry vmm64On32Trap ; 10 vmm64On32TrapEntry vmm64On32TrapErrCode ; 11 vmm64On32TrapEntry vmm64On32Trap ; 12 vmm64On32TrapEntry vmm64On32Trap ; 13 %rep (0x100 - 0x14) vmm64On32TrapEntry vmm64On32Trap %endrep ENDPROC vmm64On32TrapHandlers ;; Fake an error code and jump to the real thing. BEGINPROC vmm64On32Trap push qword [rsp] jmp NAME(vmm64On32TrapErrCode) ENDPROC vmm64On32Trap ;; ; Trap frame: ; [rbp + 38h] = ss ; [rbp + 30h] = rsp ; [rbp + 28h] = eflags ; [rbp + 20h] = cs ; [rbp + 18h] = rip ; [rbp + 10h] = error code (or trap number) ; [rbp + 08h] = trap number ; [rbp + 00h] = rbp ; [rbp - 08h] = rax ; [rbp - 10h] = rbx ; [rbp - 18h] = ds ; BEGINPROC vmm64On32TrapErrCode push rbp mov rbp, rsp push rax push rbx mov ax, ds push rax sub rsp, 20h mov ax, cs mov ds, ax %if 1 COM64_S_NEWLINE COM64_S_CHAR '!' COM64_S_CHAR 't' COM64_S_CHAR 'r' COM64_S_CHAR 'a' COM64_S_CHAR 'p' movzx eax, byte [rbp + 08h] COM64_S_DWORD_REG eax COM64_S_CHAR '!' %endif %if 0 ;; @todo Figure the offset of the CPUMCPU relative to CPUM sidt [rsp] movsx eax, word [rsp] shr eax, 12 ; div by 16 * 256 (0x1000). %else ; hardcoded VCPU(0) for now... mov rbx, [NAME(pCpumIC) wrt rip] mov eax, [rbx + CPUM.offCPUMCPU0] %endif push rax ; Save the offset for rbp later. add rbx, rax ; rbx = CPUMCPU ; ; Deal with recursive traps due to vmxoff (lazy bird). ; lea rax, [.vmxoff_trap_location wrt rip] cmp rax, [rbp + 18h] je .not_vmx_root ; ; Save the context. ; mov rax, [rbp - 8] mov [rbx + CPUMCPU.Hyper.eax], rax mov [rbx + CPUMCPU.Hyper.ecx], rcx mov [rbx + CPUMCPU.Hyper.edx], rdx mov rax, [rbp - 10h] mov [rbx + CPUMCPU.Hyper.ebx], rax mov rax, [rbp] mov [rbx + CPUMCPU.Hyper.ebp], rax mov rax, [rbp + 30h] mov [rbx + CPUMCPU.Hyper.esp], rax mov [rbx + CPUMCPU.Hyper.edi], rdi mov [rbx + CPUMCPU.Hyper.esi], rsi mov [rbx + CPUMCPU.Hyper.r8], r8 mov [rbx + CPUMCPU.Hyper.r9], r9 mov [rbx + CPUMCPU.Hyper.r10], r10 mov [rbx + CPUMCPU.Hyper.r11], r11 mov [rbx + CPUMCPU.Hyper.r12], r12 mov [rbx + CPUMCPU.Hyper.r13], r13 mov [rbx + CPUMCPU.Hyper.r14], r14 mov [rbx + CPUMCPU.Hyper.r15], r15 mov rax, [rbp + 18h] mov [rbx + CPUMCPU.Hyper.eip], rax movzx ax, [rbp + 20h] mov [rbx + CPUMCPU.Hyper.cs.Sel], ax mov ax, [rbp + 38h] mov [rbx + CPUMCPU.Hyper.ss.Sel], ax mov ax, [rbp - 18h] mov [rbx + CPUMCPU.Hyper.ds.Sel], ax mov rax, [rbp + 28h] mov [rbx + CPUMCPU.Hyper.eflags], rax mov rax, cr2 mov [rbx + CPUMCPU.Hyper.cr2], rax mov rax, [rbp + 10h] mov [rbx + CPUMCPU.Hyper.r14], rax ; r14 = error code movzx eax, byte [rbp + 08h] mov [rbx + CPUMCPU.Hyper.r15], rax ; r15 = trap number ; ; Finally, leave VMX root operation before trying to return to the host. ; mov rax, cr4 test rax, X86_CR4_VMXE jz .not_vmx_root .vmxoff_trap_location: vmxoff .not_vmx_root: ; ; Go back to the host. ; pop rbp mov dword [rbx + CPUMCPU.u32RetCode], VERR_TRPM_DONT_PANIC jmp NAME(vmmRCToHostAsm) ENDPROC vmm64On32TrapErrCode ;; We allocate the IDT here to avoid having to allocate memory separately somewhere. ALIGNCODE(16) GLOBALNAME vmm64On32Idt %assign i 0 %rep 256 dq NAME(vmm64On32Trap %+ i) - NAME(Start) ; Relative trap handler offsets. dq 0 %assign i (i + 1) %endrep %if 0 ;; For debugging purposes. BEGINPROC vmm64On32PrintIdtr push rax push rsi ; paranoia push rdi ; ditto sub rsp, 16 COM64_S_CHAR ';' COM64_S_CHAR 'i' COM64_S_CHAR 'd' COM64_S_CHAR 't' COM64_S_CHAR 'r' COM64_S_CHAR '=' sidt [rsp + 6] mov eax, [rsp + 8 + 4] COM64_S_DWORD_REG eax mov eax, [rsp + 8] COM64_S_DWORD_REG eax COM64_S_CHAR ':' movzx eax, word [rsp + 6] COM64_S_DWORD_REG eax COM64_S_CHAR '!' add rsp, 16 pop rdi pop rsi pop rax ret ENDPROC vmm64On32PrintIdtr %endif %if 1 ;; For debugging purposes. BEGINPROC vmm64On32DumpCmos push rax push rdx push rcx push rsi ; paranoia push rdi ; ditto sub rsp, 16 %if 0 mov al, 3 out 72h, al mov al, 68h out 73h, al %endif COM64_S_NEWLINE COM64_S_CHAR 'c' COM64_S_CHAR 'm' COM64_S_CHAR 'o' COM64_S_CHAR 's' COM64_S_CHAR '0' COM64_S_CHAR ':' xor ecx, ecx .loop1: mov al, cl out 70h, al in al, 71h COM64_S_BYTE_REG eax COM64_S_CHAR ' ' inc ecx cmp ecx, 128 jb .loop1 COM64_S_NEWLINE COM64_S_CHAR 'c' COM64_S_CHAR 'm' COM64_S_CHAR 'o' COM64_S_CHAR 's' COM64_S_CHAR '1' COM64_S_CHAR ':' xor ecx, ecx .loop2: mov al, cl out 72h, al in al, 73h COM64_S_BYTE_REG eax COM64_S_CHAR ' ' inc ecx cmp ecx, 128 jb .loop2 %if 0 COM64_S_NEWLINE COM64_S_CHAR 'c' COM64_S_CHAR 'm' COM64_S_CHAR 'o' COM64_S_CHAR 's' COM64_S_CHAR '2' COM64_S_CHAR ':' xor ecx, ecx .loop3: mov al, cl out 74h, al in al, 75h COM64_S_BYTE_REG eax COM64_S_CHAR ' ' inc ecx cmp ecx, 128 jb .loop3 COM64_S_NEWLINE COM64_S_CHAR 'c' COM64_S_CHAR 'm' COM64_S_CHAR 'o' COM64_S_CHAR 's' COM64_S_CHAR '3' COM64_S_CHAR ':' xor ecx, ecx .loop4: mov al, cl out 72h, al in al, 73h COM64_S_BYTE_REG eax COM64_S_CHAR ' ' inc ecx cmp ecx, 128 jb .loop4 COM64_S_NEWLINE %endif add rsp, 16 pop rdi pop rsi pop rcx pop rdx pop rax ret ENDPROC vmm64On32DumpCmos %endif %endif ; VBOX_WITH_64ON32_IDT ; ; ; Back to switcher code. ; Back to switcher code. ; Back to switcher code. ; ; ;; ; Trampoline for doing a call when starting the hyper visor execution. ; ; Push any arguments to the routine. ; Push the argument frame size (cArg * 4). ; Push the call target (_cdecl convention). ; Push the address of this routine. ; ; BITS 64 ALIGNCODE(16) BEGINPROC vmmRCCallTrampoline %ifdef DEBUG_STUFF COM64_S_CHAR 'c' COM64_S_CHAR 't' COM64_S_CHAR '!' %endif int3 ENDPROC vmmRCCallTrampoline ;; ; The C interface. ; BITS 64 ALIGNCODE(16) BEGINPROC vmmRCToHost %ifdef DEBUG_STUFF push rsi COM_NEWLINE COM_CHAR 'b' COM_CHAR 'a' COM_CHAR 'c' COM_CHAR 'k' COM_CHAR '!' COM_NEWLINE pop rsi %endif int3 ENDPROC vmmRCToHost ;; ; vmmRCToHostAsm ; ; This is an alternative entry point which we'll be using ; when the we have saved the guest state already or we haven't ; been messing with the guest at all. ; ; @param rbp The virtual cpu number. ; @param ; BITS 64 ALIGNCODE(16) BEGINPROC vmmRCToHostAsm NAME(vmmRCToHostAsmNoReturn): ;; We're still in the intermediate memory context! ;; ;; Switch to compatibility mode, placing ourselves in identity mapped code. ;; jmp far [NAME(fpIDEnterTarget) wrt rip] ; 16:32 Pointer to IDEnterTarget. NAME(fpIDEnterTarget): FIXUP FIX_ID_32BIT, 0, NAME(IDExitTarget) - NAME(Start) dd 0 FIXUP FIX_HYPER_CS, 0 dd 0 ; We're now on identity mapped pages! ALIGNCODE(16) GLOBALNAME IDExitTarget BITS 32 DEBUG32_CHAR('1') ; 1. Deactivate long mode by turning off paging. mov ebx, cr0 and ebx, ~X86_CR0_PG mov cr0, ebx DEBUG32_CHAR('2') ; 2. Load intermediate page table. FIXUP SWITCHER_FIX_INTER_CR3_HC, 1 mov edx, 0ffffffffh mov cr3, edx DEBUG32_CHAR('3') ; 3. Disable long mode. mov ecx, MSR_K6_EFER rdmsr DEBUG32_CHAR('5') and eax, ~(MSR_K6_EFER_LME) wrmsr DEBUG32_CHAR('6') %ifndef NEED_PAE_ON_HOST ; 3b. Disable PAE. mov eax, cr4 and eax, ~X86_CR4_PAE mov cr4, eax DEBUG32_CHAR('7') %endif ; 4. Enable paging. or ebx, X86_CR0_PG mov cr0, ebx jmp short just_a_jump just_a_jump: DEBUG32_CHAR('8') ;; ;; 5. Jump to guest code mapping of the code and load the Hypervisor CS. ;; FIXUP FIX_ID_2_HC_NEAR_REL, 1, NAME(ICExitTarget) - NAME(Start) jmp near NAME(ICExitTarget) ;; ;; When we arrive at this label we're at the host mapping of the ;; switcher code, but with intermediate page tables. ;; BITS 32 ALIGNCODE(16) GLOBALNAME ICExitTarget DEBUG32_CHAR('9') ;DEBUG_CMOS_TRASH_AL 70h ; load the hypervisor data selector into ds & es FIXUP FIX_HYPER_DS, 1 mov eax, 0ffffh mov ds, eax mov es, eax DEBUG32_CHAR('a') FIXUP FIX_GC_CPUM_OFF, 1, 0 mov edx, 0ffffffffh CPUMCPU_FROM_CPUM_WITH_OFFSET edx, ebp DEBUG32_CHAR('b') mov esi, [edx + CPUMCPU.Host.cr3] mov cr3, esi DEBUG32_CHAR('c') ;; now we're in host memory context, let's restore regs FIXUP FIX_HC_CPUM_OFF, 1, 0 mov edx, 0ffffffffh CPUMCPU_FROM_CPUM_WITH_OFFSET edx, ebp DEBUG32_CHAR('e') ; restore the host EFER mov ebx, edx mov ecx, MSR_K6_EFER mov eax, [ebx + CPUMCPU.Host.efer] mov edx, [ebx + CPUMCPU.Host.efer + 4] DEBUG32_CHAR('f') wrmsr mov edx, ebx DEBUG32_CHAR('g') ; activate host gdt and idt lgdt [edx + CPUMCPU.Host.gdtr] DEBUG32_CHAR('0') lidt [edx + CPUMCPU.Host.idtr] DEBUG32_CHAR('1') ; Restore TSS selector; must mark it as not busy before using ltr (!) ; ASSUME that this is supposed to be 'BUSY'. (saves 20-30 ticks on the T42p) movzx eax, word [edx + CPUMCPU.Host.tr] ; eax <- TR and al, 0F8h ; mask away TI and RPL bits, get descriptor offset. add eax, [edx + CPUMCPU.Host.gdtr + 2] ; eax <- GDTR.address + descriptor offset. and dword [eax + 4], ~0200h ; clear busy flag (2nd type2 bit) ltr word [edx + CPUMCPU.Host.tr] ; activate ldt DEBUG32_CHAR('2') lldt [edx + CPUMCPU.Host.ldtr] ; Restore segment registers mov eax, [edx + CPUMCPU.Host.ds] mov ds, eax mov eax, [edx + CPUMCPU.Host.es] mov es, eax mov eax, [edx + CPUMCPU.Host.fs] mov fs, eax mov eax, [edx + CPUMCPU.Host.gs] mov gs, eax ; restore stack lss esp, [edx + CPUMCPU.Host.esp] ; Control registers. mov ecx, [edx + CPUMCPU.Host.cr4] mov cr4, ecx mov ecx, [edx + CPUMCPU.Host.cr0] mov cr0, ecx ;mov ecx, [edx + CPUMCPU.Host.cr2] ; assumes this is waste of time. ;mov cr2, ecx ; restore general registers. mov edi, [edx + CPUMCPU.Host.edi] mov esi, [edx + CPUMCPU.Host.esi] mov ebx, [edx + CPUMCPU.Host.ebx] mov ebp, [edx + CPUMCPU.Host.ebp] ; store the return code in eax DEBUG_CMOS_TRASH_AL 79h mov eax, [edx + CPUMCPU.u32RetCode] retf ENDPROC vmmRCToHostAsm GLOBALNAME End ; ; The description string (in the text section). ; NAME(Description): db SWITCHER_DESCRIPTION db 0 extern NAME(Relocate) ; ; End the fixup records. ; BEGINDATA db FIX_THE_END ; final entry. GLOBALNAME FixupsEnd ;; ; The switcher definition structure. ALIGNDATA(16) GLOBALNAME Def istruc VMMSWITCHERDEF at VMMSWITCHERDEF.pvCode, RTCCPTR_DEF NAME(Start) at VMMSWITCHERDEF.pvFixups, RTCCPTR_DEF NAME(Fixups) at VMMSWITCHERDEF.pszDesc, RTCCPTR_DEF NAME(Description) at VMMSWITCHERDEF.pfnRelocate, RTCCPTR_DEF NAME(Relocate) at VMMSWITCHERDEF.enmType, dd SWITCHER_TYPE at VMMSWITCHERDEF.cbCode, dd NAME(End) - NAME(Start) at VMMSWITCHERDEF.offR0ToRawMode, dd NAME(vmmR0ToRawMode) - NAME(Start) at VMMSWITCHERDEF.offRCToHost, dd NAME(vmmRCToHost) - NAME(Start) at VMMSWITCHERDEF.offRCCallTrampoline, dd NAME(vmmRCCallTrampoline) - NAME(Start) at VMMSWITCHERDEF.offRCToHostAsm, dd NAME(vmmRCToHostAsm) - NAME(Start) at VMMSWITCHERDEF.offRCToHostAsmNoReturn, dd NAME(vmmRCToHostAsmNoReturn) - NAME(Start) ; disasm help at VMMSWITCHERDEF.offHCCode0, dd 0 at VMMSWITCHERDEF.cbHCCode0, dd NAME(IDEnterTarget) - NAME(Start) at VMMSWITCHERDEF.offHCCode1, dd NAME(ICExitTarget) - NAME(Start) at VMMSWITCHERDEF.cbHCCode1, dd NAME(End) - NAME(ICExitTarget) at VMMSWITCHERDEF.offIDCode0, dd NAME(IDEnterTarget) - NAME(Start) at VMMSWITCHERDEF.cbIDCode0, dd NAME(ICEnterTarget) - NAME(IDEnterTarget) at VMMSWITCHERDEF.offIDCode1, dd NAME(IDExitTarget) - NAME(Start) at VMMSWITCHERDEF.cbIDCode1, dd NAME(ICExitTarget) - NAME(Start) %ifdef VBOX_WITH_64ON32_IDT ; Hack! Use offGCCode to find the IDT. at VMMSWITCHERDEF.offGCCode, dd NAME(vmm64On32Idt) - NAME(Start) %else at VMMSWITCHERDEF.offGCCode, dd 0 %endif at VMMSWITCHERDEF.cbGCCode, dd 0 iend