Leaked source code of windows server 2003
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296 lines
8.7 KiB

TITLE "Call Bios support"
;++
;
; Copyright (c) 1989 Microsoft Corporation
;
; Module Name:
;
; spinlock.asm
;
; Abstract:
;
; This module implements the support routines for executing int bios
; call in v86 mode.
;
; Author:
;
; Shie-Lint Tzong (shielint) Sept 10, 1992
;
; Environment:
;
; Kernel mode only.
;
; Revision History:
;
;--
.386p
include ks386.inc
include callconv.inc ; calling convention macros
include i386\kimacro.inc
VdmStartExecution EQU 0
V86_STACK_POINTER equ 11ffeh ; see BIOSC.C
EXTRNP _NtVdmControl,2
extrn _KiExceptionExit:PROC
_TEXT SEGMENT DWORD PUBLIC 'CODE'
ASSUME DS:FLAT, ES:FLAT, SS:NOTHING, FS:NOTHING, GS:NOTHING
PAGE
SUBTTL "Switch to V86 mode"
;++
;
; VOID
; Ki386SetupAndExitToV86Code (
; VOID
; )
;
; Routine Description:
;
; This function sets up return trap frame, switch stack and
; calls VdmStartExecution routine to put vdm context to
; base trap frame and causes the system to execute in v86 mode by
; doing a KiExceptionExit.
;
; Arguments:
;
; BiosArguments - Supplies a pointer to a structure which contains
; the arguments for v86 int function.
;
; Return Value:
;
; None.
;
;--
cPublicProc _Ki386SetupAndExitToV86Code,1
NewTEB equ [ecx+32] ; location of the parameter based on
; the ecx stack pointer.
KsaeInitialStack equ [ecx]
OriginalThTeb equ [ecx+4]
OriginalPcTeb equ [ecx+8]
;
; Allocate TRAP FRAME at the bottom of the stack.
;
push ebp
push ebx
push esi
push edi
sub esp, 12 ; 12 bytes for local variable
mov ecx, esp ; (ecx) = saved esp
sub esp, NPX_FRAME_LENGTH
and esp, 0fffffff0h ; FXSAVE 16 byte alignment requirement
sub esp, KTRAP_FRAME_LENGTH ; (esp)-> new trap frame
mov eax, esp ; (eax)->New base trap frame
;
; Initialize newly allocated trap frame to caller's nonvolatle context.
; Note that it is very important that the trap frame we are going to create
; is a USER mode frame. The system expects the top trap frame for user
; mode thread is a user mode frame. (Get/SetContext enforce the rule.)
;
; (eax)-> Base of trap frame.
;
mov dword ptr [eax].TsSegCs, KGDT_R0_CODE OR RPL_MASK
; an invalid cs to trap it back to kernel
mov dword ptr [eax].TsSegEs, 0
mov dword ptr [eax].TsSegDs, 0
mov dword ptr [eax].TsSegFs, 0
mov dword ptr [eax].TsSegGs, 0
mov dword ptr [eax].TsErrCode, 0
mov ebx, PCR[PcSelfPcr] ; (ebx)->Pcr
mov edi, [ebx]+PcPrcbData+PbCurrentThread ; (edi)->CurrentThread
mov edx, [edi].ThInitialStack
sub edx, NPX_FRAME_LENGTH ; space for NPX_FRAME
mov KsaeInitialStack, edx ; Thread InitialSack
mov edx, [edi].ThTeb
mov OriginalThTeb, edx
mov edx, PCR[PcTeb]
mov OriginalPcTeb, edx
mov edi, offset Ki386BiosCallReturnAddress
mov [eax].TsEsi, ecx ; Saved esp
mov [eax].TsEip, edi ; set up return address
pushfd
pop edi
and edi, 60dd7h
or edi, 200h ; sanitize EFLAGS
mov dword ptr [eax].TsHardwareSegSs, KGDT_R3_DATA OR RPL_MASK
mov dword ptr [eax].TsHardwareEsp, V86_STACK_POINTER
mov [eax].TsEflags, edi
mov [eax].TsExceptionList, EXCEPTION_CHAIN_END
mov [eax].TsPreviousPreviousMode, 0ffffffffh ; No previous mode
and [eax].TsDr7, 0
if DBG
mov [eax].TsDbgArgMark, 0BADB0D00h ; set trap frame mark
endif
add eax, KTRAP_FRAME_LENGTH
;
; Disable interrupt and change the stack pointer to make the new
; trap frame be the current thread's base trap frame.
;
; (eax)->Npx save area
;
cli
;
; Set up various stack pointers
;
; Low | |
; |-----------| <- New esp
; | New Base |
; |Trap Frame |
; |-----------| <- Tss.Esp0
; |V86 segs |
; |-----------| <- Pcr.InitialStack
; |Npx Area |
; |-----------| <- Old Esp = Thread.InitialStack
; | |
; High | |
;
;
; Copy the FP state to the new FP state save area (NPX frame)
;
push ecx ; save ecx (saved esp)
mov edi, [ebx]+PcPrcbData+PbCurrentThread ; (edi)->CurrentThread
mov esi, [edi].ThInitialStack
sub esi, NPX_FRAME_LENGTH
mov ecx, NPX_FRAME_LENGTH/4
mov edi, eax
rep movsd
pop ecx ; restore ecx
mov edi, [ebx]+PcPrcbData+PbCurrentThread ; (edi)->CurrentThread
mov esi,[ebx]+PcTss ; (esi)->TSS
sub eax,TsV86Gs - TsHardwareSegSs ; bias for missing fields
mov [ebx].PcExceptionList, EXCEPTION_CHAIN_END
mov [esi]+TssEsp0,eax
add eax, NPX_FRAME_LENGTH + (TsV86Gs - TsHardwareSegSs)
mov [edi].ThInitialStack, eax
;
; Set up the pointers to the fake TEB so we can execute the int10
; call
;
mov eax, NewTeb
mov PCR[PcTeb], eax
mov [edi].ThTeb, eax
mov ebx, PCR[PcGdt]
mov [ebx]+(KGDT_R3_TEB+KgdtBaseLow), ax
shr eax, 16
mov [ebx]+(KGDT_R3_TEB+KgdtBaseMid), al
mov [ebx]+(KGDT_R3_TEB+KgdtBaseHi), ah
sti
; Now call VdmControl to save return 32bit frame and put vdm context
; to new base trap frame
stdCall _NtVdmControl, <VdmStartExecution, 0>
if 0
;
; Now call _VdmpStartExecution to save return 32bit frame and put vdm context
; to new base trap frame
;
mov eax, ExecAddr
stdCall _VdmpStartExecution, <eax>
endif
;
; Call KiexceptionExit to 'exit' to v86 code.
;
mov ebp, esp ; (ebp)->Exit trap frame
jmp _KiExceptionExit ; go execute int 10
public Ki386BiosCallReturnAddress
Ki386BiosCallReturnAddress:
;
; After ROM BIOS int completes, the bop instruction gets executed.
; This results in a trap to kernel mode bop handler where the
; 16 bit Vdm context will be saved to VdmTib->VdmCOntext, and
; the faked 32 bit user mode context (i.e. the one we created earlier)
; be restored. Since the faked user mode context does NOT have a valid
; iret address, the 'iret' instruction of the EXIT_ALL will be trapped to
; our GP fault handler which recognizes this and transfers control back to
; here.
;
; when we come back here, all the segment registers are set up properly
; Interrupts are disabled.
;
;
; restore all the pointers.
;
mov eax, PCR[PcSelfPcr] ; (eax)->Pcr
mov edi, [ebp].TsEsi ; Fetch previous stack address
mov edi, [edi] ; Initial Stack is saved at stack top
;
; Copy the FP state back down to the default stack
;
mov ecx, [eax]+PcPrcbData+PbCurrentThread ; (ecx)->CurrentThread
mov esi, [ecx].ThInitialStack
sub esi, NPX_FRAME_LENGTH
mov ecx, NPX_FRAME_LENGTH/4
rep movsd ; copy FP state
; (n.b. edi+= NPX_FRAME_LENGTH)
mov esp, [ebp].TsEsi ; Shink stack
add esp, 4 ; drop saved stack address
mov ecx, [eax]+PcPrcbData+PbCurrentThread ; (ecx)->CurrentThread
mov [ecx].ThInitialStack, edi ; Restore Thread.InitialStack
mov eax,[eax]+PcTss ; (eax)->TSS
sub edi, (TsV86Gs - TsHardwareSegSs) + NPX_FRAME_LENGTH
mov [eax]+TssEsp0,edi
;
; restore pointers to the original TEB
;
pop edx ; (edx) = OriginalThTeb
mov [ecx].ThTeb, edx
pop edx ; (edx) = OriginalPcTeb
mov PCR[PcTeb], edx
mov ebx, PCR[PcGdt]
mov [ebx]+(KGDT_R3_TEB+KgdtBaseLow), dx
shr edx, 16
mov [ebx]+(KGDT_R3_TEB+KgdtBaseMid), dl
mov [ebx]+(KGDT_R3_TEB+KgdtBaseHi), dh
sti
pop edi
pop esi
pop ebx
pop ebp
stdRET _Ki386SetupAndExitToV86Code
stdENDP _Ki386SetupAndExitToV86Code
_TEXT ends
end