; $Id: CPUMAllA.asm 44528 2013-02-04 14:27:54Z vboxsync $ ;; @file ; CPUM - Guest Context Assembly Routines. ; ; ; Copyright (C) 2006-2011 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 * ;******************************************************************************* %include "VBox/asmdefs.mac" %include "VBox/vmm/vm.mac" %include "VBox/err.mac" %include "VBox/vmm/stam.mac" %include "CPUMInternal.mac" %include "iprt/x86.mac" %include "VBox/vmm/cpum.mac" %ifdef IN_RING3 %error "The jump table doesn't link on leopard." %endif ; ; Enables write protection of Hypervisor memory pages. ; !note! Must be commented out for Trap8 debug handler. ; %define ENABLE_WRITE_PROTECTION 1 BEGINCODE ;; ; Handles lazy FPU saving and restoring. ; ; This handler will implement lazy fpu (sse/mmx/stuff) saving. ; Two actions may be taken in this handler since the Guest OS may ; be doing lazy fpu switching. So, we'll have to generate those ; traps which the Guest CPU CTX shall have according to the ; its CR0 flags. If no traps for the Guest OS, we'll save the host ; context and restore the guest context. ; ; @returns 0 if caller should continue execution. ; @returns VINF_EM_RAW_GUEST_TRAP if a guest trap should be generated. ; @param pCPUMCPU x86:[esp+4] GCC:rdi MSC:rcx CPUMCPU pointer ; align 16 BEGINPROC cpumHandleLazyFPUAsm ; ; Figure out what to do. ; ; There are two basic actions: ; 1. Save host fpu and restore guest fpu. ; 2. Generate guest trap. ; ; When entering the hypervisor we'll always enable MP (for proper wait ; trapping) and TS (for intercepting all fpu/mmx/sse stuff). The EM flag ; is taken from the guest OS in order to get proper SSE handling. ; ; ; Actions taken depending on the guest CR0 flags: ; ; 3 2 1 ; TS | EM | MP | FPUInstr | WAIT :: VMM Action ; ------------------------------------------------------------------------ ; 0 | 0 | 0 | Exec | Exec :: Clear TS & MP, Save HC, Load GC. ; 0 | 0 | 1 | Exec | Exec :: Clear TS, Save HC, Load GC. ; 0 | 1 | 0 | #NM | Exec :: Clear TS & MP, Save HC, Load GC; ; 0 | 1 | 1 | #NM | Exec :: Clear TS, Save HC, Load GC. ; 1 | 0 | 0 | #NM | Exec :: Clear MP, Save HC, Load GC. (EM is already cleared.) ; 1 | 0 | 1 | #NM | #NM :: Go to host taking trap there. ; 1 | 1 | 0 | #NM | Exec :: Clear MP, Save HC, Load GC. (EM is already set.) ; 1 | 1 | 1 | #NM | #NM :: Go to host taking trap there. ; ; Before taking any of these actions we're checking if we have already ; loaded the GC FPU. Because if we have, this is an trap for the guest - raw ring-3. ; %ifdef RT_ARCH_AMD64 %ifdef RT_OS_WINDOWS mov xDX, rcx %else mov xDX, rdi %endif %else mov xDX, dword [esp + 4] %endif test dword [xDX + CPUMCPU.fUseFlags], CPUM_USED_FPU jz hlfpua_not_loaded jmp hlfpua_to_host ; ; Take action. ; align 16 hlfpua_not_loaded: mov eax, [xDX + CPUMCPU.Guest.cr0] and eax, X86_CR0_MP | X86_CR0_EM | X86_CR0_TS %ifdef RT_ARCH_AMD64 lea r8, [hlfpuajmp1 wrt rip] jmp qword [rax*4 + r8] %else jmp dword [eax*2 + hlfpuajmp1] %endif align 16 ;; jump table using fpu related cr0 flags as index. hlfpuajmp1: RTCCPTR_DEF hlfpua_switch_fpu_ctx RTCCPTR_DEF hlfpua_switch_fpu_ctx RTCCPTR_DEF hlfpua_switch_fpu_ctx RTCCPTR_DEF hlfpua_switch_fpu_ctx RTCCPTR_DEF hlfpua_switch_fpu_ctx RTCCPTR_DEF hlfpua_to_host RTCCPTR_DEF hlfpua_switch_fpu_ctx RTCCPTR_DEF hlfpua_to_host ;; and mask for cr0. hlfpu_afFlags: RTCCPTR_DEF ~(X86_CR0_TS | X86_CR0_MP) RTCCPTR_DEF ~(X86_CR0_TS) RTCCPTR_DEF ~(X86_CR0_TS | X86_CR0_MP) RTCCPTR_DEF ~(X86_CR0_TS) RTCCPTR_DEF ~(X86_CR0_MP) RTCCPTR_DEF 0 RTCCPTR_DEF ~(X86_CR0_MP) RTCCPTR_DEF 0 ; ; Action - switch FPU context and change cr0 flags. ; align 16 hlfpua_switch_fpu_ctx: %ifndef IN_RING3 ; IN_RC or IN_RING0 mov xCX, cr0 %ifdef RT_ARCH_AMD64 lea r8, [hlfpu_afFlags wrt rip] and rcx, [rax*4 + r8] ; calc the new cr0 flags. %else and ecx, [eax*2 + hlfpu_afFlags] ; calc the new cr0 flags. %endif mov xAX, cr0 and xAX, ~(X86_CR0_TS | X86_CR0_EM) mov cr0, xAX ; clear flags so we don't trap here. %endif %ifndef RT_ARCH_AMD64 mov eax, edx ; Calculate the PCPUM pointer sub eax, [edx + CPUMCPU.offCPUM] test dword [eax + CPUM.CPUFeatures.edx], X86_CPUID_FEATURE_EDX_FXSR jz short hlfpua_no_fxsave %endif fxsave [xDX + CPUMCPU.Host.fpu] or dword [xDX + CPUMCPU.fUseFlags], (CPUM_USED_FPU | CPUM_USED_FPU_SINCE_REM) fxrstor [xDX + CPUMCPU.Guest.fpu] hlfpua_finished_switch: %ifdef IN_RC mov cr0, xCX ; load the new cr0 flags. %endif ; return continue execution. xor eax, eax ret %ifndef RT_ARCH_AMD64 ; legacy support. hlfpua_no_fxsave: fnsave [xDX + CPUMCPU.Host.fpu] or dword [xDX + CPUMCPU.fUseFlags], dword (CPUM_USED_FPU | CPUM_USED_FPU_SINCE_REM) ; yasm / nasm mov eax, [xDX + CPUMCPU.Guest.fpu] ; control word not eax ; 1 means exception ignored (6 LS bits) and eax, byte 03Fh ; 6 LS bits only test eax, [xDX + CPUMCPU.Guest.fpu + 4] ; status word jz short hlfpua_no_exceptions_pending ; technically incorrect, but we certainly don't want any exceptions now!! and dword [xDX + CPUMCPU.Guest.fpu + 4], ~03Fh hlfpua_no_exceptions_pending: frstor [xDX + CPUMCPU.Guest.fpu] jmp near hlfpua_finished_switch %endif ; !RT_ARCH_AMD64 ; ; Action - Generate Guest trap. ; hlfpua_action_4: hlfpua_to_host: mov eax, VINF_EM_RAW_GUEST_TRAP ret ENDPROC cpumHandleLazyFPUAsm