; $Id: TRPMGCHandlersA.asm 20673 2009-06-17 16:00:46Z vboxsync $ ;; @file ; TRPM - Guest Context Trap Handlers ; ; Copyright (C) 2006-2007 Sun Microsystems, Inc. ; ; 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. ; ; Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa ; Clara, CA 95054 USA or visit http://www.sun.com if you need ; additional information or have any questions. ; ;******************************************************************************* ;* Header Files * ;******************************************************************************* %include "VMMGC.mac" %include "VBox/x86.mac" %include "VBox/cpum.mac" %include "VBox/stam.mac" %include "VBox/vm.mac" %include "TRPMInternal.mac" %include "VBox/err.mac" %include "VBox/trpm.mac" ;******************************************************************************* ;* External Symbols * ;******************************************************************************* extern IMPNAME(g_CPUM) ; These IMPNAME(g_*) symbols resolve to the import table extern IMPNAME(g_TRPM) ; where there is a pointer to the real symbol. PE imports extern IMPNAME(g_TRPMCPU) ; are a bit confusing at first... :-) extern IMPNAME(g_VM) extern NAME(CPUMGCRestoreInt) extern NAME(cpumHandleLazyFPUAsm) extern NAME(CPUMHyperSetCtxCore) extern NAME(trpmGCTrapInGeneric) extern NAME(TRPMGCHyperTrap0bHandler) extern NAME(TRPMGCHyperTrap0dHandler) extern NAME(TRPMGCHyperTrap0eHandler) extern NAME(TRPMGCTrap01Handler) %ifdef VBOX_WITH_NMI extern NAME(TRPMGCTrap02Handler) %endif extern NAME(TRPMGCTrap03Handler) extern NAME(TRPMGCTrap06Handler) extern NAME(TRPMGCTrap0bHandler) extern NAME(TRPMGCTrap0dHandler) extern NAME(TRPMGCTrap0eHandler) extern NAME(TRPMGCTrap07Handler) ;; IMPORTANT all COM_ functions trashes esi, some edi and the LOOP_SHORT_WHILE kills ecx. ;%define DEBUG_STUFF 1 ;%define DEBUG_STUFF_TRPG 1 ;%define DEBUG_STUFF_INT 1 BEGINCODE ;; ; Jump table for trap handlers for hypervisor traps. ; g_apfnStaticTrapHandlersHyper: ; N - M M - T - C - D i ; o - n o - y - o - e p ; - e n - p - d - s t ; - i - e - e - c . ; - c - - - r ; ============================================================= dd 0 ; 0 - #DE - F - N - Divide error dd NAME(TRPMGCTrap01Handler) ; 1 - #DB - F/T - N - Single step, INT 1 instruction %ifdef VBOX_WITH_NMI dd NAME(TRPMGCTrap02Handler) ; 2 - - I - N - Non-Maskable Interrupt (NMI) %else dd 0 ; 2 - - I - N - Non-Maskable Interrupt (NMI) %endif dd NAME(TRPMGCTrap03Handler) ; 3 - #BP - T - N - Breakpoint, INT 3 instruction. dd 0 ; 4 - #OF - T - N - Overflow, INTO instruction. dd 0 ; 5 - #BR - F - N - BOUND Range Exceeded, BOUND instruction. dd 0 ; 6 - #UD - F - N - Undefined(/Invalid) Opcode. dd 0 ; 7 - #NM - F - N - Device not available, FP or (F)WAIT instruction. dd 0 ; 8 - #DF - A - 0 - Double fault. dd 0 ; 9 - - F - N - Coprocessor Segment Overrun (obsolete). dd 0 ; a - #TS - F - Y - Invalid TSS, Taskswitch or TSS access. dd NAME(TRPMGCHyperTrap0bHandler) ; b - #NP - F - Y - Segment not present. dd 0 ; c - #SS - F - Y - Stack-Segment fault. dd NAME(TRPMGCHyperTrap0dHandler) ; d - #GP - F - Y - General protection fault. dd NAME(TRPMGCHyperTrap0eHandler) ; e - #PF - F - Y - Page fault. dd 0 ; f - - - - Intel Reserved. Do not use. dd 0 ; 10 - #MF - F - N - x86 FPU Floating-Point Error (Math fault), FP or (F)WAIT instruction. dd 0 ; 11 - #AC - F - 0 - Alignment Check. dd 0 ; 12 - #MC - A - N - Machine Check. dd 0 ; 13 - #XF - F - N - SIMD Floating-Point Exception. dd 0 ; 14 - - - - Intel Reserved. Do not use. dd 0 ; 15 - - - - Intel Reserved. Do not use. dd 0 ; 16 - - - - Intel Reserved. Do not use. dd 0 ; 17 - - - - Intel Reserved. Do not use. dd 0 ; 18 - - - - Intel Reserved. Do not use. ;; ; Jump table for trap handlers for guest traps ; g_apfnStaticTrapHandlersGuest: ; N - M M - T - C - D i ; o - n o - y - o - e p ; - e n - p - d - s t ; - i - e - e - c . ; - c - - - r ; ============================================================= dd 0 ; 0 - #DE - F - N - Divide error dd NAME(TRPMGCTrap01Handler) ; 1 - #DB - F/T - N - Single step, INT 1 instruction %ifdef VBOX_WITH_NMI dd NAME(TRPMGCTrap02Handler) ; 2 - - I - N - Non-Maskable Interrupt (NMI) %else dd 0 ; 2 - - I - N - Non-Maskable Interrupt (NMI) %endif dd NAME(TRPMGCTrap03Handler) ; 3 - #BP - T - N - Breakpoint, INT 3 instruction. dd 0 ; 4 - #OF - T - N - Overflow, INTO instruction. dd 0 ; 5 - #BR - F - N - BOUND Range Exceeded, BOUND instruction. dd NAME(TRPMGCTrap06Handler) ; 6 - #UD - F - N - Undefined(/Invalid) Opcode. dd NAME(TRPMGCTrap07Handler) ; 7 - #NM - F - N - Device not available, FP or (F)WAIT instruction. dd 0 ; 8 - #DF - A - 0 - Double fault. dd 0 ; 9 - - F - N - Coprocessor Segment Overrun (obsolete). dd 0 ; a - #TS - F - Y - Invalid TSS, Taskswitch or TSS access. dd NAME(TRPMGCTrap0bHandler) ; b - #NP - F - Y - Segment not present. dd 0 ; c - #SS - F - Y - Stack-Segment fault. dd NAME(TRPMGCTrap0dHandler) ; d - #GP - F - Y - General protection fault. dd NAME(TRPMGCTrap0eHandler) ; e - #PF - F - Y - Page fault. dd 0 ; f - - - - Intel Reserved. Do not use. dd 0 ; 10 - #MF - F - N - x86 FPU Floating-Point Error (Math fault), FP or (F)WAIT instruction. dd 0 ; 11 - #AC - F - 0 - Alignment Check. dd 0 ; 12 - #MC - A - N - Machine Check. dd 0 ; 13 - #XF - F - N - SIMD Floating-Point Exception. dd 0 ; 14 - - - - Intel Reserved. Do not use. dd 0 ; 15 - - - - Intel Reserved. Do not use. dd 0 ; 16 - - - - Intel Reserved. Do not use. dd 0 ; 17 - - - - Intel Reserved. Do not use. dd 0 ; 18 - - - - Intel Reserved. Do not use. ;; ; We start by 24 push + jmp ; ALIGNCODE(16) BEGINPROC_EXPORTED TRPMGCHandlerGeneric %macro TRPMGenericEntry 1 db 06ah, i ; push imm8 - note that this is a signextended value. jmp %1 ALIGNCODE(8) %assign i i+1 %endmacro %assign i 0 ; start counter. TRPMGenericEntry GenericTrap ; 0 TRPMGenericEntry GenericTrap ; 1 TRPMGenericEntry GenericTrap ; 2 TRPMGenericEntry GenericTrap ; 3 TRPMGenericEntry GenericTrap ; 4 TRPMGenericEntry GenericTrap ; 5 TRPMGenericEntry GenericTrap ; 6 TRPMGenericEntry GenericTrap ; 7 TRPMGenericEntry GenericTrapErrCode ; 8 TRPMGenericEntry GenericTrap ; 9 TRPMGenericEntry GenericTrapErrCode ; a TRPMGenericEntry GenericTrapErrCode ; b TRPMGenericEntry GenericTrapErrCode ; c TRPMGenericEntry GenericTrapErrCode ; d TRPMGenericEntry GenericTrapErrCode ; e TRPMGenericEntry GenericTrap ; f (reserved) TRPMGenericEntry GenericTrap ; 10 TRPMGenericEntry GenericTrapErrCode ; 11 TRPMGenericEntry GenericTrap ; 12 TRPMGenericEntry GenericTrap ; 13 TRPMGenericEntry GenericTrap ; 14 (reserved) TRPMGenericEntry GenericTrap ; 15 (reserved) TRPMGenericEntry GenericTrap ; 16 (reserved) TRPMGenericEntry GenericTrap ; 17 (reserved) %undef i %undef TRPMGenericEntry ;; ; Main exception handler for the guest context ; ; Stack: ; 14 SS ; 10 ESP ; c EFLAGS ; 8 CS ; 4 EIP ; 0 vector number ; ; @uses none ; ALIGNCODE(8) GenericTrap: ; ; for the present we fake an error code ~0 ; push eax mov eax, 0ffffffffh xchg [esp + 4], eax ; get vector number, set error code xchg [esp], eax ; get saved eax, set vector number jmp short GenericTrapErrCode ;; ; Main exception handler for the guest context with error code ; ; Stack: ; 28 GS (V86 only) ; 24 FS (V86 only) ; 20 DS (V86 only) ; 1C ES (V86 only) ; 18 SS (only if ring transition.) ; 14 ESP (only if ring transition.) ; 10 EFLAGS ; c CS ; 8 EIP ; 4 Error code. (~0 for vectors which don't take an error code.) ; 0 vector number ; ; Error code: ; ; 31 16 15 3 2 1 0 ; ; reserved segment TI IDT EXT ; selector GDT/LDT (1) IDT External interrupt ; index (IDT=0) index ; ; NOTE: Page faults (trap 14) have a different error code ; ; @uses none ; ALIGNCODE(8) GenericTrapErrCode: cld ; ; Setup CPUMCTXCORE frame ; ; ASSUMPTION: If trap in hypervisor, we assume that we can read two dword ; under the bottom of the stack. This is atm safe. ; ASSUMPTION: There is sufficient stack space. ; ASSUMPTION: The stack is not write protected. ; %define ESPOFF CPUMCTXCORE_size sub esp, CPUMCTXCORE_size mov [esp + CPUMCTXCORE.eax], eax mov [esp + CPUMCTXCORE.ecx], ecx mov [esp + CPUMCTXCORE.edx], edx mov [esp + CPUMCTXCORE.ebx], ebx mov [esp + CPUMCTXCORE.esi], esi mov [esp + CPUMCTXCORE.edi], edi mov [esp + CPUMCTXCORE.ebp], ebp mov eax, [esp + 14h + ESPOFF] ; esp mov [esp + CPUMCTXCORE.esp], eax %if GC_ARCH_BITS == 64 ; zero out the high dword mov dword [esp + CPUMCTXCORE.esp + 4], 0 %endif mov eax, [esp + 18h + ESPOFF] ; ss mov dword [esp + CPUMCTXCORE.ss], eax mov eax, [esp + 0ch + ESPOFF] ; cs mov dword [esp + CPUMCTXCORE.cs], eax mov eax, [esp + 08h + ESPOFF] ; eip mov [esp + CPUMCTXCORE.eip], eax %if GC_ARCH_BITS == 64 ; zero out the high dword mov dword [esp + CPUMCTXCORE.eip + 4], 0 %endif mov eax, [esp + 10h + ESPOFF] ; eflags mov [esp + CPUMCTXCORE.eflags], eax mov eax, es mov dword [esp + CPUMCTXCORE.es], eax mov eax, ds mov dword [esp + CPUMCTXCORE.ds], eax mov eax, fs mov dword [esp + CPUMCTXCORE.fs], eax mov eax, gs mov dword [esp + CPUMCTXCORE.gs], eax test dword [esp + CPUMCTXCORE.eflags], X86_EFL_VM jz short gt_SkipV86Entry ; ; The DS, ES, FS and GS registers are zeroed in V86 mode and their real values are on the stack ; mov eax, dword [esp + ESPOFF + 1Ch] mov dword [esp + CPUMCTXCORE.es], eax mov eax, dword [esp + ESPOFF + 20h] mov dword [esp + CPUMCTXCORE.ds], eax mov eax, dword [esp + ESPOFF + 24h] mov dword [esp + CPUMCTXCORE.fs], eax mov eax, dword [esp + ESPOFF + 28h] mov dword [esp + CPUMCTXCORE.gs], eax gt_SkipV86Entry: ; ; Disable Ring-0 WP ; mov eax, cr0 ;; @todo elimitate this read? and eax, ~X86_CR0_WRITE_PROTECT mov cr0, eax ; ; Load Hypervisor DS and ES (get it from the SS) ; mov eax, ss mov ds, eax mov es, eax %ifdef VBOX_WITH_STATISTICS ; ; Start profiling. ; mov edx, [esp + 0h + ESPOFF] ; vector number imul edx, edx, byte STAMPROFILEADV_size ; assumes < 128. add edx, TRPM.aStatGCTraps add edx, IMP(g_TRPM) STAM_PROFILE_ADV_START edx %endif ; ; Store the information about the active trap/interrupt. ; mov eax, IMP(g_TRPMCPU) movzx edx, byte [esp + 0h + ESPOFF] ; vector number mov [eax + TRPMCPU.uActiveVector], edx mov edx, [esp + 4h + ESPOFF] ; error code mov [eax + TRPMCPU.uActiveErrorCode], edx mov dword [eax + TRPMCPU.enmActiveType], TRPM_TRAP mov edx, cr2 ;; @todo Check how expensive cr2 reads are! mov dword [eax + TRPMCPU.uActiveCR2], edx %if GC_ARCH_BITS == 64 ; zero out the high dword mov dword [eax + TRPMCPU.uActiveErrorCode + 4], 0 mov dword [eax + TRPMCPU.uActiveCR2 + 4], 0 %endif ; ; Check if we're in Hypervisor when this happend. ; test dword [esp + CPUMCTXCORE.eflags], X86_EFL_VM jnz short gt_NotHyperVisor test byte [esp + 0ch + ESPOFF], 3h ; check CPL of the cs selector jz near gt_InHypervisor ; ; Trap in guest code. ; gt_NotHyperVisor: %ifdef DEBUG_STUFF_TRPG mov ebx, [esp + 4h + ESPOFF] ; error code mov ecx, 'trpG' ; indicate trap. mov edx, [esp + 0h + ESPOFF] ; vector number lea eax, [esp] call trpmDbgDumpRegisterFrame %endif ; ; Do we have a GC handler for these traps? ; mov edx, [esp + 0h + ESPOFF] ; vector number mov eax, [g_apfnStaticTrapHandlersGuest + edx * 4] or eax, eax jnz short gt_HaveHandler mov eax, VINF_EM_RAW_GUEST_TRAP jmp short gt_GuestTrap ; ; Call static handler. ; gt_HaveHandler: push esp ; Param 2 - CPUMCTXCORE pointer. push dword IMP(g_TRPMCPU) ; Param 1 - Pointer to TRPMCPU call eax add esp, byte 8 ; cleanup stack (cdecl) or eax, eax je near gt_continue_guest ; ; Switch back to the host and process it there. ; gt_GuestTrap: %ifdef VBOX_WITH_STATISTICS mov edx, [esp + 0h + ESPOFF] ; vector number imul edx, edx, byte STAMPROFILEADV_size ; assume < 128 add edx, IMP(g_TRPM) add edx, TRPM.aStatGCTraps STAM_PROFILE_ADV_STOP edx %endif mov edx, IMP(g_VM) call [edx + VM.pfnVMMGCGuestToHostAsmGuestCtx] ;; @todo r=bird: is this path actually every taken? if not we should replace this code with a panic. ; ; We've returned! ; N.B. The stack has been changed now! No CPUMCTXCORE any longer. esp = vector number. ; N.B. Current scheduling design causes this code path to be unused. ; N.B. Better not use it when in V86 mode! ; ; Enable WP mov eax, cr0 ;; @todo try elimiate this read. or eax, X86_CR0_WRITE_PROTECT mov cr0, eax ; Restore guest context and continue execution. mov edx, IMP(g_CPUM) lea eax, [esp + 8] push eax call NAME(CPUMGCRestoreInt) lea esp, [esp + 0ch] ; cleanup call and skip vector & error code. iret ; ; Continue(/Resume/Restart/Whatever) guest execution. ; ALIGNCODE(16) gt_continue_guest: %ifdef VBOX_WITH_STATISTICS mov edx, [esp + 0h + ESPOFF] ; vector number imul edx, edx, byte STAMPROFILEADV_size ; assumes < 128 add edx, TRPM.aStatGCTraps add edx, IMP(g_TRPM) STAM_PROFILE_ADV_STOP edx %endif ; enable WP mov eax, cr0 ;; @todo try elimiate this read. or eax, X86_CR0_WRITE_PROTECT mov cr0, eax ; restore guest state and start executing again. test dword [esp + CPUMCTXCORE.eflags], X86_EFL_VM jnz gt_V86Return mov ecx, [esp + CPUMCTXCORE.ecx] mov edx, [esp + CPUMCTXCORE.edx] mov ebx, [esp + CPUMCTXCORE.ebx] mov ebp, [esp + CPUMCTXCORE.ebp] mov esi, [esp + CPUMCTXCORE.esi] mov edi, [esp + CPUMCTXCORE.edi] mov eax, [esp + CPUMCTXCORE.esp] mov [esp + 14h + ESPOFF], eax ; esp mov eax, dword [esp + CPUMCTXCORE.ss] mov [esp + 18h + ESPOFF], eax ; ss mov eax, dword [esp + CPUMCTXCORE.gs] TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_MOV_GS mov gs, eax mov eax, dword [esp + CPUMCTXCORE.fs] TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_MOV_FS mov fs, eax mov eax, dword [esp + CPUMCTXCORE.es] TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_MOV_ES mov es, eax mov eax, dword [esp + CPUMCTXCORE.ds] TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_MOV_DS mov ds, eax mov eax, dword [esp + CPUMCTXCORE.cs] mov [esp + 0ch + ESPOFF], eax ; cs mov eax, [esp + CPUMCTXCORE.eflags] mov [esp + 10h + ESPOFF], eax ; eflags mov eax, [esp + CPUMCTXCORE.eip] mov [esp + 08h + ESPOFF], eax ; eip ; finally restore our scratch register eax mov eax, [esp + CPUMCTXCORE.eax] add esp, ESPOFF + 8 ; skip CPUMCTXCORE structure, error code and vector number TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_IRET iret ALIGNCODE(16) gt_V86Return: mov ecx, [esp + CPUMCTXCORE.ecx] mov edx, [esp + CPUMCTXCORE.edx] mov ebx, [esp + CPUMCTXCORE.ebx] mov ebp, [esp + CPUMCTXCORE.ebp] mov esi, [esp + CPUMCTXCORE.esi] mov edi, [esp + CPUMCTXCORE.edi] mov eax, [esp + CPUMCTXCORE.esp] mov [esp + 14h + ESPOFF], eax ; esp mov eax, dword [esp + CPUMCTXCORE.ss] mov [esp + 18h + ESPOFF], eax ; ss mov eax, dword [esp + CPUMCTXCORE.es] mov [esp + 1ch + ESPOFF], eax ; es mov eax, dword [esp + CPUMCTXCORE.ds] mov [esp + 20h + ESPOFF], eax ; ds mov eax, dword [esp + CPUMCTXCORE.fs] mov [esp + 24h + ESPOFF], eax ; fs mov eax, dword [esp + CPUMCTXCORE.gs] mov [esp + 28h + ESPOFF], eax ; gs mov eax, [esp + CPUMCTXCORE.eip] mov [esp + 08h + ESPOFF], eax ; eip mov eax, dword [esp + CPUMCTXCORE.cs] mov [esp + 0ch + ESPOFF], eax ; cs mov eax, [esp + CPUMCTXCORE.eflags] mov [esp + 10h + ESPOFF], eax ; eflags ; finally restore our scratch register eax mov eax, [esp + CPUMCTXCORE.eax] add esp, ESPOFF + 8 ; skip CPUMCTXCORE structure, error code and vector number TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_IRET | TRPM_TRAP_IN_V86 iret ; ; Trap in Hypervisor, try to handle it. ; ; (eax = pTRPMCPU) ; ALIGNCODE(16) gt_InHypervisor: ; fix ss:esp. lea ebx, [esp + 14h + ESPOFF] ; calc esp at trap mov [esp + CPUMCTXCORE.esp], ebx; update esp in register frame mov [esp + CPUMCTXCORE.ss], ss ; update ss in register frame ; tell cpum about the context core. xchg esi, eax ; save pTRPMCPU - @todo reallocate this variable to esi, edi, or ebx push esp ; Param 2 - The new CPUMCTXCORE pointer. mov eax, IMP(g_VM) ; Param 1 - Pointer to the VMCPU. add eax, [eax + VM.offVMCPU] push eax call NAME(CPUMHyperSetCtxCore) add esp, byte 8 ; stack cleanup (cdecl) xchg eax, esi ; restore pTRPMCPU ; check for temporary handler. movzx ebx, byte [eax + TRPMCPU.uActiveVector] mov esi, IMP(g_TRPM) ; keep eax == pTRPMCPU xor ecx, ecx xchg ecx, [esi + TRPM.aTmpTrapHandlers + ebx * 4] ; ecx = Temp handler pointer or 0 or ecx, ecx jnz short gt_Hyper_HaveTemporaryHandler ; check for static trap handler. mov ecx, [g_apfnStaticTrapHandlersHyper + ebx * 4] ; ecx = Static handler pointer or 0 or ecx, ecx jnz short gt_Hyper_HaveStaticHandler jmp gt_Hyper_AbandonShip ; ; Temporary trap handler present, call it (CDECL). ; gt_Hyper_HaveTemporaryHandler: push esp ; Param 2 - Pointer to CPUMCTXCORE. push IMP(g_VM) ; Param 1 - Pointer to VM. call ecx add esp, byte 8 ; cleanup stack (cdecl) cmp eax, byte VINF_SUCCESS ; If completely handled Then resume execution. je near gt_Hyper_Continue ;; @todo Handle ALL returns types from temporary handlers! jmp gt_Hyper_AbandonShip ; ; Static trap handler present, call it (CDECL). ; gt_Hyper_HaveStaticHandler: push esp ; Param 2 - Pointer to CPUMCTXCORE. push eax ; Param 1 - Pointer to TRPMCPU call ecx add esp, byte 8 ; cleanup stack (cdecl) cmp eax, byte VINF_SUCCESS ; If completely handled Then resume execution. je short gt_Hyper_Continue cmp eax, VINF_EM_DBG_HYPER_STEPPED je short gt_Hyper_ToHost cmp eax, VINF_EM_DBG_HYPER_BREAKPOINT je short gt_Hyper_ToHost cmp eax, VINF_EM_DBG_HYPER_ASSERTION je short gt_Hyper_ToHost jmp gt_Hyper_AbandonShip ; ; Pop back to the host to service the error. ; gt_Hyper_ToHost: mov ecx, esp mov edx, IMP(g_VM) call [edx + VM.pfnVMMGCGuestToHostAsm] jmp short gt_Hyper_Continue ; ; Continue(/Resume/Restart/Whatever) hypervisor execution. ; Don't reset the TRPM state. Caller takes care of that. ; ALIGNCODE(16) gt_Hyper_Continue: %ifdef DEBUG_STUFF mov ebx, [esp + 4h + ESPOFF] ; error code mov ecx, 'resH' ; indicate trap. mov edx, [esp + 0h + ESPOFF] ; vector number lea eax, [esp] call trpmDbgDumpRegisterFrame %endif ; tell CPUM to use the default CPUMCTXCORE. push byte 0 ; Param 2 - NULL indicating use default context core. mov eax, IMP(g_VM) ; Param 1 - Pointer to the VMCPU. add eax, [eax + VM.offVMCPU] push eax call NAME(CPUMHyperSetCtxCore) add esp, byte 8 ; stack cleanup (cdecl) %ifdef VBOX_WITH_STATISTICS mov edx, [esp + 0h + ESPOFF] ; vector number imul edx, edx, byte STAMPROFILEADV_size ; assumes < 128 add edx, TRPM.aStatGCTraps add edx, IMP(g_TRPM) STAM_PROFILE_ADV_STOP edx %endif ; restore mov ecx, [esp + CPUMCTXCORE.ecx] mov edx, [esp + CPUMCTXCORE.edx] mov ebx, [esp + CPUMCTXCORE.ebx] mov ebp, [esp + CPUMCTXCORE.ebp] mov esi, [esp + CPUMCTXCORE.esi] mov edi, [esp + CPUMCTXCORE.edi] mov eax, dword [esp + CPUMCTXCORE.gs] TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_MOV_GS | TRPM_TRAP_IN_HYPER mov gs, eax mov eax, dword [esp + CPUMCTXCORE.fs] TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_MOV_FS | TRPM_TRAP_IN_HYPER mov fs, eax mov eax, dword [esp + CPUMCTXCORE.es] mov es, eax mov eax, dword [esp + CPUMCTXCORE.ds] mov ds, eax ; skip esp & ss mov eax, [esp + CPUMCTXCORE.eip] mov [esp + 08h + ESPOFF], eax ; eip mov eax, dword [esp + CPUMCTXCORE.cs] mov [esp + 0ch + ESPOFF], eax ; cs mov eax, [esp + CPUMCTXCORE.eflags] mov [esp + 10h + ESPOFF], eax ; eflags ; finally restore our scratch register eax mov eax, [esp + CPUMCTXCORE.eax] add esp, ESPOFF + 8 ; skip CPUMCTXCORE structure, error code and vector number iret ; ; ABANDON SHIP! DON'T PANIC! ; gt_Hyper_AbandonShip: %ifdef DEBUG_STUFF mov ebx, [esp + 4h + ESPOFF] ; error code mov ecx, 'trpH' ; indicate trap. mov edx, [esp + 0h + ESPOFF] ; vector number lea eax, [esp] call trpmDbgDumpRegisterFrame %endif gt_Hyper_DontPanic: mov ecx, esp mov edx, IMP(g_VM) mov eax, VERR_TRPM_DONT_PANIC call [edx + VM.pfnVMMGCGuestToHostAsmHyperCtx] %ifdef DEBUG_STUFF COM_S_PRINT 'bad!!!' %endif jmp gt_Hyper_DontPanic ; this shall never ever happen! %undef ESPOFF ENDPROC TRPMGCHandlerGeneric ;; ; We start by 256 push + jmp interruptworker ; ALIGNCODE(16) BEGINPROC_EXPORTED TRPMGCHandlerInterupt ; NASM has some nice features, here an example of a loop. %assign i 0 %rep 256 db 06ah, i ; push imm8 - note that this is a signextended value. jmp ti_GenericInterrupt ALIGNCODE(8) %assign i i+1 %endrep ;; ; Main interrupt handler for the guest context ; ; Stack: ; 24 GS (V86 only) ; 20 FS (V86 only) ; 1C DS (V86 only) ; 18 ES (V86 only) ; 14 SS ; 10 ESP ; c EFLAGS ; 8 CS ; 4 EIP ; ESP -> 0 Vector number (only use low byte!). ; ; @uses none ti_GenericInterrupt: cld ; ; Setup CPUMCTXCORE frame ; ; ASSUMPTION: If trap in hypervisor, we assume that we can read two dword ; under the bottom of the stack. This is atm safe. ; ASSUMPTION: There is sufficient stack space. ; ASSUMPTION: The stack is not write protected. ; %define ESPOFF CPUMCTXCORE_size sub esp, CPUMCTXCORE_size mov [esp + CPUMCTXCORE.eax], eax mov [esp + CPUMCTXCORE.ecx], ecx mov [esp + CPUMCTXCORE.edx], edx mov [esp + CPUMCTXCORE.ebx], ebx mov [esp + CPUMCTXCORE.esi], esi mov [esp + CPUMCTXCORE.edi], edi mov [esp + CPUMCTXCORE.ebp], ebp mov eax, [esp + 04h + ESPOFF] ; eip mov [esp + CPUMCTXCORE.eip], eax %if GC_ARCH_BITS == 64 ; zero out the high dword mov dword [esp + CPUMCTXCORE.eip + 4], 0 %endif mov eax, dword [esp + 08h + ESPOFF] ; cs mov [esp + CPUMCTXCORE.cs], eax mov eax, [esp + 0ch + ESPOFF] ; eflags mov [esp + CPUMCTXCORE.eflags], eax mov eax, [esp + 10h + ESPOFF] ; esp mov [esp + CPUMCTXCORE.esp], eax %if GC_ARCH_BITS == 64 ; zero out the high dword mov dword [esp + CPUMCTXCORE.esp + 4], 0 %endif mov eax, dword [esp + 14h + ESPOFF] ; ss mov [esp + CPUMCTXCORE.ss], eax mov eax, es mov dword [esp + CPUMCTXCORE.es], eax mov eax, ds mov dword [esp + CPUMCTXCORE.ds], eax mov eax, fs mov dword [esp + CPUMCTXCORE.fs], eax mov eax, gs mov dword [esp + CPUMCTXCORE.gs], eax test dword [esp + CPUMCTXCORE.eflags], X86_EFL_VM jz short ti_SkipV86Entry ; ; The DS, ES, FS and GS registers are zeroed in V86 mode and their real values are on the stack ; mov eax, dword [esp + ESPOFF + 18h] mov dword [esp + CPUMCTXCORE.es], eax mov eax, dword [esp + ESPOFF + 1Ch] mov dword [esp + CPUMCTXCORE.ds], eax mov eax, dword [esp + ESPOFF + 20h] mov dword [esp + CPUMCTXCORE.fs], eax mov eax, dword [esp + ESPOFF + 24h] mov dword [esp + CPUMCTXCORE.gs], eax ti_SkipV86Entry: ; ; Disable Ring-0 WP ; mov eax, cr0 ;; @todo try elimiate this read. and eax, ~X86_CR0_WRITE_PROTECT mov cr0, eax ; ; Load Hypervisor DS and ES (get it from the SS) ; mov eax, ss mov ds, eax mov es, eax ; ; Store the information about the active trap/interrupt. ; mov eax, IMP(g_TRPMCPU) movzx edx, byte [esp + 0h + ESPOFF] ; vector number mov [eax + TRPMCPU.uActiveVector], edx xor edx, edx mov dword [eax + TRPMCPU.enmActiveType], TRPM_HARDWARE_INT dec edx mov [eax + TRPMCPU.uActiveErrorCode], edx mov [eax + TRPMCPU.uActiveCR2], edx %if GC_ARCH_BITS == 64 ; zero out the high dword mov dword [eax + TRPMCPU.uActiveErrorCode + 4], 0 mov dword [eax + TRPMCPU.uActiveCR2 + 4], 0 %endif ; ; Check if we're in Hypervisor when this happend. ; test byte [esp + 08h + ESPOFF], 3h ; check CPL of the cs selector jnz short gi_NotHyperVisor jmp gi_HyperVisor ; ; Trap in guest code. ; gi_NotHyperVisor: and dword [esp + CPUMCTXCORE.eflags], ~010000h ; Clear RF (Resume Flag). @todo make %defines for eflags. ; The guest shall not see this in it's state. %ifdef DEBUG_STUFF_INT mov ecx, 'intG' ; indicate trap. movzx edx, byte [esp + 0h + ESPOFF] ; vector number lea eax, [esp] call trpmDbgDumpRegisterFrame %endif ; ; Switch back to the host and process it there. ; mov edx, IMP(g_VM) mov eax, VINF_EM_RAW_INTERRUPT call [edx + VM.pfnVMMGCGuestToHostAsmGuestCtx] ; ; We've returned! ; NOTE that the stack has been changed now! ; there is no longer any CPUMCTXCORE around and esp points to vector number! ; ; Reset TRPM state mov eax, IMP(g_TRPMCPU) xor edx, edx dec edx ; edx = 0ffffffffh xchg [eax + TRPMCPU.uActiveVector], edx mov [eax + TRPMCPU.uPrevVector], edx ; Enable WP mov eax, cr0 ;; @todo try elimiate this read. or eax, X86_CR0_WRITE_PROTECT mov cr0, eax ; restore guest context and continue execution. lea eax, [esp + 8] push eax call NAME(CPUMGCRestoreInt) lea esp, [esp + 0ch] ; cleanup call and skip vector & error code. iret ; -+- Entry point -+- ; ; We're in hypervisor mode which means no guest context ; and special care to be taken to restore the hypervisor ; context correctely. ; ; ATM the only place this can happen is when entering a trap handler. ; We make ASSUMPTIONS about this in respects to the WP CR0 bit ; gi_HyperVisor: lea eax, [esp + 14h + ESPOFF] ; calc esp at trap mov [esp + CPUMCTXCORE.esp], eax ; update esp in register frame mov [esp + CPUMCTXCORE.ss], ss ; update ss in register frame %ifdef DEBUG_STUFF_INT mov ebx, [esp + 4h + ESPOFF] ; error code mov ecx, 'intH' ; indicate hypervisor interrupt. movzx edx, byte [esp + 0h + ESPOFF] ; vector number lea eax, [esp] call trpmDbgDumpRegisterFrame %endif mov ecx, esp mov edx, IMP(g_VM) mov eax, VINF_EM_RAW_INTERRUPT_HYPER call [edx + VM.pfnVMMGCGuestToHostAsm] %ifdef DEBUG_STUFF_INT COM_CHAR '!' %endif ; ; We've returned! ; ; Reset TRPM state - don't record this. mov eax, IMP(g_TRPMCPU) mov dword [eax + TRPMCPU.uActiveVector], 0ffffffffh ; ; Restore the hypervisor context and return. ; mov ecx, [esp + CPUMCTXCORE.ecx] mov edx, [esp + CPUMCTXCORE.edx] mov ebx, [esp + CPUMCTXCORE.ebx] mov ebp, [esp + CPUMCTXCORE.ebp] mov esi, [esp + CPUMCTXCORE.esi] mov edi, [esp + CPUMCTXCORE.edi] ; In V86 mode DS, ES, FS & GS are restored by the iret test dword [esp + CPUMCTXCORE.eflags], X86_EFL_VM jnz short ti_SkipSelRegs mov eax, [esp + CPUMCTXCORE.gs] TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_MOV_GS | TRPM_TRAP_IN_HYPER mov gs, eax mov eax, [esp + CPUMCTXCORE.fs] TRPM_NP_GP_HANDLER NAME(trpmGCTrapInGeneric), TRPM_TRAP_IN_MOV_FS | TRPM_TRAP_IN_HYPER mov fs, eax mov eax, [esp + CPUMCTXCORE.es] mov es, eax mov eax, [esp + CPUMCTXCORE.ds] mov ds, eax ti_SkipSelRegs: ; finally restore our scratch register eax mov eax, [esp + CPUMCTXCORE.eax] ; skip esp, ss, cs, eip & eflags. Done by iret add esp, ESPOFF + 4h ; skip CPUMCTXCORE structure & vector number. iret %undef ESPOFF ENDPROC TRPMGCHandlerInterupt ;; ; Trap handler for #MC ; ; This handler will forward the #MC to the host OS. Since this ; is generalized in the generic interrupt handler, we just disable ; interrupts and push vector number and jump to the generic code. ; ; Stack: ; 10 SS (only if ring transition.) ; c ESP (only if ring transition.) ; 8 EFLAGS ; 4 CS ; 0 EIP ; ; @uses none ; ALIGNCODE(16) BEGINPROC_EXPORTED TRPMGCHandlerTrap12 push byte 12h jmp ti_GenericInterrupt ENDPROC TRPMGCHandlerTrap12 ;; ; Trap handler for double fault (#DF). ; ; This is a special trap handler executes in separate task with own TSS, with ; one of the intermediate memory contexts instead of the shadow context. ; The handler will unconditionally print an report to the comport configured ; for the COM_S_* macros before attempting to return to the host. If it it ends ; up double faulting more than 10 times, it will simply cause an tripple fault ; to get us out of the mess. ; ; @param esp Half way down the hypvervisor stack + the trap frame. ; @param ebp Half way down the hypvervisor stack. ; @param eflags Interrupts disabled, nested flag is probably set (we don't care). ; @param ecx The address of the hypervisor TSS. ; @param edi Same as ecx. ; @param eax Same as ecx. ; @param edx Address of the VM structure. ; @param esi Same as edx. ; @param ebx Same as edx. ; @param ss Hypervisor DS. ; @param ds Hypervisor DS. ; @param es Hypervisor DS. ; @param fs 0 ; @param gs 0 ; ; ; @remark To be able to catch errors with WP turned off, it is required that the ; TSS GDT descriptor and the TSSes are writable (X86_PTE_RW). See SELM.cpp ; for how to enable this. ; ; @remark It is *not* safe to resume the VMM after a double fault. (At least not ; without clearing the busy flag of the TssTrap8 and fixing whatever cause it.) ; ALIGNCODE(16) BEGINPROC_EXPORTED TRPMGCHandlerTrap08 ; be careful. cli cld ; ; Load Hypervisor DS and ES (get it from the SS) - paranoia, but the TSS could be overwritten.. :) ; mov eax, ss mov ds, eax mov es, eax COM_S_PRINT 10,13,'*** Guru Meditation 00000008 - Double Fault! ***',10,13 ; ; Disable write protection. ; mov eax, cr0 and eax, ~X86_CR0_WRITE_PROTECT mov cr0, eax COM_S_PRINT 'VM=' COM_S_DWORD_REG edx COM_S_PRINT ' prevTSS=' COM_S_DWORD_REG ecx COM_S_PRINT ' prevCR3=' mov eax, [ecx + VBOXTSS.cr3] COM_S_DWORD_REG eax COM_S_PRINT ' prevLdtr=' movzx eax, word [ecx + VBOXTSS.selLdt] COM_S_DWORD_REG eax COM_S_NEWLINE ; ; Create CPUMCTXCORE structure. ; sub esp, CPUMCTXCORE_size mov eax, [ecx + VBOXTSS.eip] mov [esp + CPUMCTXCORE.eip], eax %if GC_ARCH_BITS == 64 ; zero out the high dword mov dword [esp + CPUMCTXCORE.eip + 4], 0 %endif mov eax, [ecx + VBOXTSS.eflags] mov [esp + CPUMCTXCORE.eflags], eax movzx eax, word [ecx + VBOXTSS.cs] mov dword [esp + CPUMCTXCORE.cs], eax movzx eax, word [ecx + VBOXTSS.ds] mov dword [esp + CPUMCTXCORE.ds], eax movzx eax, word [ecx + VBOXTSS.es] mov dword [esp + CPUMCTXCORE.es], eax movzx eax, word [ecx + VBOXTSS.fs] mov dword [esp + CPUMCTXCORE.fs], eax movzx eax, word [ecx + VBOXTSS.gs] mov dword [esp + CPUMCTXCORE.gs], eax movzx eax, word [ecx + VBOXTSS.ss] mov [esp + CPUMCTXCORE.ss], eax mov eax, [ecx + VBOXTSS.esp] mov [esp + CPUMCTXCORE.esp], eax %if GC_ARCH_BITS == 64 ; zero out the high dword mov dword [esp + CPUMCTXCORE.esp + 4], 0 %endif mov eax, [ecx + VBOXTSS.ecx] mov [esp + CPUMCTXCORE.ecx], eax mov eax, [ecx + VBOXTSS.edx] mov [esp + CPUMCTXCORE.edx], eax mov eax, [ecx + VBOXTSS.ebx] mov [esp + CPUMCTXCORE.ebx], eax mov eax, [ecx + VBOXTSS.eax] mov [esp + CPUMCTXCORE.eax], eax mov eax, [ecx + VBOXTSS.ebp] mov [esp + CPUMCTXCORE.ebp], eax mov eax, [ecx + VBOXTSS.esi] mov [esp + CPUMCTXCORE.esi], eax mov eax, [ecx + VBOXTSS.edi] mov [esp + CPUMCTXCORE.edi], eax ; ; Show regs ; mov ebx, 0ffffffffh mov ecx, 'trpH' ; indicate trap. mov edx, 08h ; vector number lea eax, [esp] call trpmDbgDumpRegisterFrame ; ; Should we try go back? ; inc dword [df_Count] cmp dword [df_Count], byte 10 jb df_to_host jmp df_tripple_fault df_Count: dd 0 ; ; Try return to the host. ; df_to_host: COM_S_PRINT 'Trying to return to host...',10,13 mov ecx, esp mov edx, IMP(g_VM) mov eax, VERR_TRPM_PANIC call [edx + VM.pfnVMMGCGuestToHostAsmHyperCtx] jmp short df_to_host ; ; Perform a tripple fault. ; df_tripple_fault: COM_S_PRINT 'Giving up - tripple faulting the machine...',10,13 push byte 0 push byte 0 sidt [esp] mov word [esp], 0 lidt [esp] xor eax, eax mov dword [eax], 0 jmp df_tripple_fault ENDPROC TRPMGCHandlerTrap08 ;; ; Internal procedure used to dump registers. ; ; @param eax Pointer to CPUMCTXCORE. ; @param edx Vector number ; @param ecx 'trap' if trap, 'int' if interrupt. ; @param ebx Error code if trap. ; trpmDbgDumpRegisterFrame: sub esp, byte 8 ; working space for sidt/sgdt/etc ; Init _must_ be done on host before crashing! ; push edx ; push eax ; COM_INIT ; pop eax ; pop edx cmp ecx, 'trpH' je near tddrf_trpH cmp ecx, 'trpG' je near tddrf_trpG cmp ecx, 'intH' je near tddrf_intH cmp ecx, 'intG' je near tddrf_intG cmp ecx, 'resH' je near tddrf_resH COM_S_PRINT 10,13,'*** Bogus Dump Code ' jmp tddrf_regs %if 1 ; the verbose version tddrf_intG: COM_S_PRINT 10,13,'*** Interrupt (Guest) ' COM_S_DWORD_REG edx jmp tddrf_regs tddrf_intH: COM_S_PRINT 10,13,'*** Interrupt (Hypervisor) ' COM_S_DWORD_REG edx jmp tddrf_regs tddrf_trpG: COM_S_PRINT 10,13,'*** Trap ' jmp tddrf_trap_rest %else ; the short version tddrf_intG: COM_S_CHAR 'I' jmp tddrf_ret tddrf_intH: COM_S_CHAR 'i' jmp tddrf_ret tddrf_trpG: COM_S_CHAR 'T' jmp tddrf_ret %endif ; the short version tddrf_trpH: COM_S_PRINT 10,13,'*** Guru Meditation ' jmp tddrf_trap_rest tddrf_resH: COM_S_PRINT 10,13,'*** Resuming Hypervisor Trap ' jmp tddrf_trap_rest tddrf_trap_rest: COM_S_DWORD_REG edx COM_S_PRINT ' ErrorCode=' COM_S_DWORD_REG ebx COM_S_PRINT ' cr2=' mov ecx, cr2 COM_S_DWORD_REG ecx tddrf_regs: COM_S_PRINT ' ***',10,13,'cs:eip=' movzx ecx, word [eax + CPUMCTXCORE.cs] COM_S_DWORD_REG ecx COM_S_CHAR ':' mov ecx, [eax + CPUMCTXCORE.eip] COM_S_DWORD_REG ecx COM_S_PRINT ' ss:esp=' movzx ecx, word [eax + CPUMCTXCORE.ss] COM_S_DWORD_REG ecx COM_S_CHAR ':' mov ecx, [eax + CPUMCTXCORE.esp] COM_S_DWORD_REG ecx sgdt [esp] COM_S_PRINT 10,13,' gdtr=' movzx ecx, word [esp] COM_S_DWORD_REG ecx COM_S_CHAR ':' mov ecx, [esp + 2] COM_S_DWORD_REG ecx sidt [esp] COM_S_PRINT ' idtr=' movzx ecx, word [esp] COM_S_DWORD_REG ecx COM_S_CHAR ':' mov ecx, [esp + 2] COM_S_DWORD_REG ecx str [esp] ; yasm BUG! it generates sldt [esp] here! YASMCHECK! COM_S_PRINT 10,13,' tr=' movzx ecx, word [esp] COM_S_DWORD_REG ecx sldt [esp] COM_S_PRINT ' ldtr=' movzx ecx, word [esp] COM_S_DWORD_REG ecx COM_S_PRINT ' eflags=' mov ecx, [eax + CPUMCTXCORE.eflags] COM_S_DWORD_REG ecx COM_S_PRINT 10,13,'cr0=' mov ecx, cr0 COM_S_DWORD_REG ecx COM_S_PRINT ' cr2=' mov ecx, cr2 COM_S_DWORD_REG ecx COM_S_PRINT ' cr3=' mov ecx, cr3 COM_S_DWORD_REG ecx COM_S_PRINT ' cr4=' mov ecx, cr4 COM_S_DWORD_REG ecx COM_S_PRINT 10,13,' ds=' movzx ecx, word [eax + CPUMCTXCORE.ds] COM_S_DWORD_REG ecx COM_S_PRINT ' es=' movzx ecx, word [eax + CPUMCTXCORE.es] COM_S_DWORD_REG ecx COM_S_PRINT ' fs=' movzx ecx, word [eax + CPUMCTXCORE.fs] COM_S_DWORD_REG ecx COM_S_PRINT ' gs=' movzx ecx, word [eax + CPUMCTXCORE.gs] COM_S_DWORD_REG ecx COM_S_PRINT 10,13,'eax=' mov ecx, [eax + CPUMCTXCORE.eax] COM_S_DWORD_REG ecx COM_S_PRINT ' ebx=' mov ecx, [eax + CPUMCTXCORE.ebx] COM_S_DWORD_REG ecx COM_S_PRINT ' ecx=' mov ecx, [eax + CPUMCTXCORE.ecx] COM_S_DWORD_REG ecx COM_S_PRINT ' edx=' mov ecx, [eax + CPUMCTXCORE.edx] COM_S_DWORD_REG ecx COM_S_PRINT 10,13,'esi=' mov ecx, [eax + CPUMCTXCORE.esi] COM_S_DWORD_REG ecx COM_S_PRINT ' edi=' mov ecx, [eax + CPUMCTXCORE.edi] COM_S_DWORD_REG ecx COM_S_PRINT ' ebp=' mov ecx, [eax + CPUMCTXCORE.ebp] COM_S_DWORD_REG ecx COM_S_NEWLINE tddrf_ret: add esp, byte 8 ret