; $Id: CPUMRZA.asm 91283 2021-09-16 13:58:36Z vboxsync $ ;; @file ; CPUM - Raw-mode and Ring-0 Context Assembly Routines. ; ; ; Copyright (C) 2006-2020 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. ; ;******************************************************************************* ;* Header Files * ;******************************************************************************* %define RT_ASM_WITH_SEH64 %include "VBox/asmdefs.mac" %include "CPUMInternal.mac" %include "iprt/x86.mac" %include "VBox/vmm/cpum.mac" %include "VBox/err.mac" BEGINCODE ;; ; Saves the host FPU/SSE/AVX state. ; ; Will return with CR0.EM and CR0.TS cleared! This is the normal state in ring-0. ; ; @returns VINF_SUCCESS (0) or VINF_CPUM_HOST_CR0_MODIFIED. (EAX) ; @param pCpumCpu x86:[ebp+8] gcc:rdi msc:rcx CPUMCPU pointer ; align 16 BEGINPROC cpumRZSaveHostFPUState push xBP SEH64_PUSH_xBP mov xBP, xSP SEH64_SET_FRAME_xBP 0 SEH64_END_PROLOGUE ; ; Prologue - xAX+xDX must be free for XSAVE/XRSTOR input. ; %ifdef RT_ARCH_AMD64 %ifdef ASM_CALL64_MSC mov r11, rcx %else mov r11, rdi %endif %define pCpumCpu r11 %define pXState r10 %else push ebx push esi mov ebx, dword [ebp + 8] %define pCpumCpu ebx %define pXState esi %endif pushf ; The darwin kernel can get upset or upset things if an cli ; interrupt occurs while we're doing fxsave/fxrstor/cr0. ; ; We may have to update CR0, indirectly or directly. We must report any ; changes to the VT-x code. ; CPUMRZ_TOUCH_FPU_CLEAR_CR0_FPU_TRAPS_SET_RC xCX, xAX, pCpumCpu ; xCX is the return value (xAX scratch) ; ; Save the host state (xsave/fxsave will cause thread FPU state to be ; loaded on systems where we are allowed to use it in ring-0. ; CPUMR0_SAVE_HOST or dword [pCpumCpu + CPUMCPU.fUseFlags], (CPUM_USED_FPU_HOST | CPUM_USED_FPU_SINCE_REM) ; Latter is not necessarily true, but normally yes. popf mov eax, ecx ; The return value from above. %ifdef RT_ARCH_X86 pop esi pop ebx %endif leave ret %undef pCpumCpu %undef pXState ENDPROC cpumRZSaveHostFPUState ;; ; Saves the guest FPU/SSE/AVX state. ; ; @param pCpumCpu x86:[ebp+8] gcc:rdi msc:rcx CPUMCPU pointer ; @param fLeaveFpuAccessible x86:[ebp+c] gcc:sil msc:dl Whether to restore CR0 and XCR0 on ; the way out. Only really applicable to RC. ; ; @remarks 64-bit Windows drivers shouldn't use AVX registers without saving+loading: ; https://msdn.microsoft.com/en-us/library/windows/hardware/ff545910%28v=vs.85%29.aspx?f=255&MSPPError=-2147217396 ; However the compiler docs have different idea: ; https://msdn.microsoft.com/en-us/library/9z1stfyw.aspx ; We'll go with the former for now. ; align 16 BEGINPROC cpumRZSaveGuestFpuState push xBP SEH64_PUSH_xBP mov xBP, xSP SEH64_SET_FRAME_xBP 0 SEH64_END_PROLOGUE ; ; Prologue - xAX+xDX must be free for XSAVE/XRSTOR input. ; %ifdef RT_ARCH_AMD64 %ifdef ASM_CALL64_MSC mov r11, rcx %else mov r11, rdi %endif %define pCpumCpu r11 %define pXState r10 %else push ebx push esi mov ebx, dword [ebp + 8] %define pCpumCpu ebx %define pXState esi %endif pushf ; The darwin kernel can get upset or upset things if an cli ; interrupt occurs while we're doing fxsave/fxrstor/cr0. %ifdef IN_RC mov ecx, cr0 ; ecx = saved cr0 test ecx, X86_CR0_TS | X86_CR0_EM jz .skip_cr0_write mov eax, ecx and eax, ~(X86_CR0_TS | X86_CR0_EM) mov cr0, eax .skip_cr0_write: %endif %ifndef VBOX_WITH_KERNEL_USING_XMM CPUMR0_SAVE_GUEST %else ; ; The XMM0..XMM15 registers have been saved already. We exploit the ; host state here to temporarly save the non-volatile XMM registers, ; so we can load the guest ones while saving. This is safe. ; ; Save caller's XMM registers. lea pXState, [pCpumCpu + CPUMCPU.Host.XState] movdqa [pXState + X86FXSTATE.xmm6 ], xmm6 movdqa [pXState + X86FXSTATE.xmm7 ], xmm7 movdqa [pXState + X86FXSTATE.xmm8 ], xmm8 movdqa [pXState + X86FXSTATE.xmm9 ], xmm9 movdqa [pXState + X86FXSTATE.xmm10], xmm10 movdqa [pXState + X86FXSTATE.xmm11], xmm11 movdqa [pXState + X86FXSTATE.xmm12], xmm12 movdqa [pXState + X86FXSTATE.xmm13], xmm13 movdqa [pXState + X86FXSTATE.xmm14], xmm14 movdqa [pXState + X86FXSTATE.xmm15], xmm15 stmxcsr [pXState + X86FXSTATE.MXCSR] ; Load the guest XMM register values we already saved in HMR0VMXStartVMWrapXMM. lea pXState, [pCpumCpu + CPUMCPU.Guest.XState] movdqa xmm0, [pXState + X86FXSTATE.xmm0] movdqa xmm1, [pXState + X86FXSTATE.xmm1] movdqa xmm2, [pXState + X86FXSTATE.xmm2] movdqa xmm3, [pXState + X86FXSTATE.xmm3] movdqa xmm4, [pXState + X86FXSTATE.xmm4] movdqa xmm5, [pXState + X86FXSTATE.xmm5] movdqa xmm6, [pXState + X86FXSTATE.xmm6] movdqa xmm7, [pXState + X86FXSTATE.xmm7] movdqa xmm8, [pXState + X86FXSTATE.xmm8] movdqa xmm9, [pXState + X86FXSTATE.xmm9] movdqa xmm10, [pXState + X86FXSTATE.xmm10] movdqa xmm11, [pXState + X86FXSTATE.xmm11] movdqa xmm12, [pXState + X86FXSTATE.xmm12] movdqa xmm13, [pXState + X86FXSTATE.xmm13] movdqa xmm14, [pXState + X86FXSTATE.xmm14] movdqa xmm15, [pXState + X86FXSTATE.xmm15] ldmxcsr [pXState + X86FXSTATE.MXCSR] CPUMR0_SAVE_GUEST ; Restore caller's XMM registers. lea pXState, [pCpumCpu + CPUMCPU.Host.XState] movdqa xmm6, [pXState + X86FXSTATE.xmm6 ] movdqa xmm7, [pXState + X86FXSTATE.xmm7 ] movdqa xmm8, [pXState + X86FXSTATE.xmm8 ] movdqa xmm9, [pXState + X86FXSTATE.xmm9 ] movdqa xmm10, [pXState + X86FXSTATE.xmm10] movdqa xmm11, [pXState + X86FXSTATE.xmm11] movdqa xmm12, [pXState + X86FXSTATE.xmm12] movdqa xmm13, [pXState + X86FXSTATE.xmm13] movdqa xmm14, [pXState + X86FXSTATE.xmm14] movdqa xmm15, [pXState + X86FXSTATE.xmm15] ldmxcsr [pXState + X86FXSTATE.MXCSR] %endif and dword [pCpumCpu + CPUMCPU.fUseFlags], ~CPUM_USED_FPU_GUEST mov byte [pCpumCpu + CPUMCPU.Guest.fUsedFpuGuest], 0 %ifdef IN_RC test byte [ebp + 0ch], 1 ; fLeaveFpuAccessible jz .no_cr0_restore CPUMRZ_RESTORE_CR0_IF_TS_OR_EM_SET ecx .no_cr0_restore: %endif popf %ifdef RT_ARCH_X86 pop esi pop ebx %endif leave ret %undef pCpumCpu %undef pXState ENDPROC cpumRZSaveGuestFpuState ;; ; Saves the guest XMM0..15 registers and MXCSR. ; ; The purpose is to actualize the register state for read-only use, so CR0 is ; restored in raw-mode context (so, the FPU/SSE/AVX CPU features can be ; inaccessible upon return). ; ; @param pCpumCpu x86:[ebp+8] gcc:rdi msc:rcx CPUMCPU pointer ; align 16 BEGINPROC cpumRZSaveGuestSseRegisters push xBP SEH64_PUSH_xBP mov xBP, xSP SEH64_SET_FRAME_xBP 0 SEH64_END_PROLOGUE %ifndef VBOX_WITH_KERNEL_USING_XMM ; ; Load xCX with the guest pXState. ; %ifdef ASM_CALL64_GCC mov xCX, rdi %elifdef RT_ARCH_X86 mov xCX, dword [ebp + 8] %endif lea xCX, [xCX + CPUMCPU.Guest.XState] %ifdef IN_RC ; Temporarily grant access to the SSE state. xDX must be preserved until CR0 is restored! mov edx, cr0 test edx, X86_CR0_TS | X86_CR0_EM jz .skip_cr0_write mov eax, edx and eax, ~(X86_CR0_TS | X86_CR0_EM) mov cr0, eax .skip_cr0_write: %endif ; ; Do the job. ; stmxcsr [xCX + X86FXSTATE.MXCSR] movdqa [xCX + X86FXSTATE.xmm0 ], xmm0 movdqa [xCX + X86FXSTATE.xmm1 ], xmm1 movdqa [xCX + X86FXSTATE.xmm2 ], xmm2 movdqa [xCX + X86FXSTATE.xmm3 ], xmm3 movdqa [xCX + X86FXSTATE.xmm4 ], xmm4 movdqa [xCX + X86FXSTATE.xmm5 ], xmm5 movdqa [xCX + X86FXSTATE.xmm6 ], xmm6 movdqa [xCX + X86FXSTATE.xmm7 ], xmm7 %if ARCH_BITS == 64 movdqa [xCX + X86FXSTATE.xmm8 ], xmm8 movdqa [xCX + X86FXSTATE.xmm9 ], xmm9 movdqa [xCX + X86FXSTATE.xmm10], xmm10 movdqa [xCX + X86FXSTATE.xmm11], xmm11 movdqa [xCX + X86FXSTATE.xmm12], xmm12 movdqa [xCX + X86FXSTATE.xmm13], xmm13 movdqa [xCX + X86FXSTATE.xmm14], xmm14 movdqa [xCX + X86FXSTATE.xmm15], xmm15 %endif %ifdef IN_RC CPUMRZ_RESTORE_CR0_IF_TS_OR_EM_SET edx ; Restore CR0 if we changed it above. %endif %endif ; !VBOX_WITH_KERNEL_USING_XMM leave ret ENDPROC cpumRZSaveGuestSseRegisters ;; ; Saves the guest YMM0..15 registers. ; ; The purpose is to actualize the register state for read-only use, so CR0 is ; restored in raw-mode context (so, the FPU/SSE/AVX CPU features can be ; inaccessible upon return). ; ; @param pCpumCpu x86:[ebp+8] gcc:rdi msc:rcx CPUMCPU pointer ; align 16 BEGINPROC cpumRZSaveGuestAvxRegisters push xBP SEH64_PUSH_xBP mov xBP, xSP SEH64_SET_FRAME_xBP 0 %ifdef IN_RC push xBX %endif SEH64_END_PROLOGUE ; ; Load xCX with the guest pXState. ; %ifdef ASM_CALL64_GCC mov xCX, rdi %elifdef RT_ARCH_X86 mov xCX, dword [ebp + 8] %endif lea xCX, [xCX + CPUMCPU.Guest.XState] %ifdef IN_RC ; Temporarily grant access to the SSE state. xBX must be preserved until CR0 is restored! mov ebx, cr0 test ebx, X86_CR0_TS | X86_CR0_EM jz .skip_cr0_write mov eax, ebx and eax, ~(X86_CR0_TS | X86_CR0_EM) mov cr0, eax .skip_cr0_write: %endif ; ; Use XSAVE to do the job. ; ; Drivers shouldn't use AVX registers without saving+loading: ; https://msdn.microsoft.com/en-us/library/windows/hardware/ff545910%28v=vs.85%29.aspx?f=255&MSPPError=-2147217396 ; However the compiler docs have different idea: ; https://msdn.microsoft.com/en-us/library/9z1stfyw.aspx ; We'll go with the former for now. ; %ifdef VBOX_WITH_KERNEL_USING_XMM mov eax, XSAVE_C_YMM %else mov eax, XSAVE_C_YMM | XSAVE_C_SSE ; The SSE component includes MXCSR. %endif xor edx, edx %if ARCH_BITS == 64 o64 xsave [xCX] %else xsave [xCX] %endif %ifdef IN_RC CPUMRZ_RESTORE_CR0_IF_TS_OR_EM_SET ebx ; Restore CR0 if we changed it above. pop xBX %endif leave ret ENDPROC cpumRZSaveGuestAvxRegisters