audk/IntelFrameworkModulePkg/Csm/LegacyBiosDxe/Ipf/IpfThunk.s

525 lines
21 KiB
ArmAsm

//// @file
//
// Copyright (c) 1999 - 2008, Intel Corporation. All rights reserved.<BR>
//
// This program and the accompanying materials
// are licensed and made available under the terms and conditions
// of the BSD License which accompanies this distribution. The
// full text of the license may be found at
// http://opensource.org/licenses/bsd-license.php
//
// THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
// WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
//
////
.file "IpfThunk.s"
#include "IpfMacro.i"
#include "Ipf/IpfThunk.i"
.align 0x10
//-----------------------------------------------------------------------------
//++
// EfiIaEntryPoint
//
// Register physical address of Esal Data Area
//
// On Entry :
// in1 = ptr to legacy bios reg
// in2 = ptr to Call Stack
// in3 = Call Stack Size
//
// Return Value:
// r8 = SAL_SUCCESS
//
// As per static calling conventions.
//
//--
//---------------------------------------------------------------------------
PROCEDURE_ENTRY(EfiIaEntryPoint)
alloc loc0 = 8,10,8,0;;
mov out0 = r0;;
mov out1 = r0;;
mov out2 = r0;;
mov out3 = r0;;
mov out4 = r0;;
mov out5 = r0;;
mov out6 = r0;;
mov out7 = r0;;
mov loc1 = b0;; // save efi (b0)
mov loc2 = psr;; // save efi (PSR)
mov loc3 = gp;; // save efi (GP)
mov loc4 = pr;; // save efi (PR)
mov loc5 = sp;; // save efi (SP)
mov loc6 = r13;; // save efi (TP)
mov loc7 = ar.lc;; // save efi (LC)
mov loc8 = ar.fpsr;; // save efi (FPSR)
mov r8 = r0;; // return status
mov r9 = r0;; // return value
mov r10 = r0;; // return value
mov r11 = r0;; // return value
bios_int_func::
rsm 0x4000;; // i(14)=0, disable interrupt
srlz.d;;
srlz.i;;
//---------------------//
// save fp registers //
//---------------------//
dep sp = 0,sp,0,4;; // align 16
add sp = -16,sp;; // post decrement
int_ip_1x::
mov r2 = ip;;
add r2 = (int_ip_1y - int_ip_1x),r2;;
mov b7 = r2;;
br save_fp_registers;;
int_ip_1y::
add sp = 16,sp;; // adjust (SP)
mov loc9 = sp;; // save (SP)
adds sp = 0x10,in1;; // in1 + 0x10 = SP
ld4 sp = [sp];; // SP
adds r17 = 0x32,in1;; // in1 + 0x32 = SS
ld2 r17 = [r17];; // SS
movl r2 = 0xffffffff;; // if no SS:SP, then define new SS:SP
cmp.ne p6,p0 = sp,r2;;
movl r2 = 0xffff;;
cmp.ne.or p6,p0 = r17,r2;;
(p6) br.sptk bif_1;;
mov sp = in3;; // 16-bit stack pointer
mov r2 = psr;;
tbit.z p6,p7 = r2,17;; // psr.dt (Physical OR Virtual)
bif_ip1x::
mov r2 = in2;; // ia32 callback stack top
mov r3 = in3;; // 16-bit stack pointer
sub r2 = r2,r3;;
shr.u r17 = r2,4;; // 16-bit stack segment
bif_1::
extr.u sp = sp,0,16;; // SP (16-bit sp for legacy code)
dep sp = 0,sp,0,3;; // align 8
cmp.eq p6,p0 = 0,sp;; // if SP=0000 then wrap to 0x10000
(p6) dep sp = -1,sp,16,1;;
shladd r2 = r17,4,sp;; // ESP = SS<<4+SP
add r2 = -8,r2;; // post decrement 64 bit pointer
add sp = -8,sp;; // post decrement SP
sale_ip1x::
mov r18 = ip;;
adds r18 = (sale_ip1y - sale_ip1x),r18;;
sub r18 = r18,r2;; // return address - CS base
add r18 = r18,sp;; // adjustment for stack
shl r18 = r18,32;;
movl r19 = 0xb80f66fa;; // CLI, JMPE xxxxxxxx
or r18 = r18,r19;;
st8 [r2] = r18;; // (FA,66,0F,B8,xx,xx,xx,xx)
cmp.eq p6,p0 = 0,sp;; // if SP=0000 then wrap to 0x10000
(p6) dep sp = -1,sp,16,1;;
shladd r2 = r17,4,sp;; // ESP=SS<<4+SP
add r2 = -2,r2;; // post decrement 64 bit pointer
add sp = -2,sp;; // post decrement SP
movl r18 = 0x8000000000000100;; // CALL FAR function
cmp.eq p6,p7 = in0,r18;;
(p6) add r19 = 0x28,in1;; // in1 + 0x28 = CS
(p6) ld2 r18 = [r19],-4;; // CS
(p6) st2 [r2] = r18,-2;; // in1 + 0x24 = EIP
(p6) ld2 r18 = [r19];; // EIP
(p6) st2 [r2] = r18,-2;; //
(p6) movl r18 = 0x9a90;; // nop, CALLFAR xxxx:yyyy
(p7) movl r18 = 0xcd;; // INT xx
(p7) dep r18 = in0,r18,8,8;;
st2 [r2] = r18;; // (CD,xx)
mov r18 = r2;; // EIP for legacy execution
//------------------------------//
// flush 32 bytes legacy code //
//------------------------------//
dep r2 = 0,r2,0,5;; // align to 32
fc r2;;
sync.i;;
srlz.i;;
srlz.d;;
//------------------------------//
// load legacy registers //
//------------------------------//
mov r2 = in1;; // IA32 BIOS register state
ld4 r8 = [r2],4;; // in1 + 0 = EAX
ld4 r9 = [r2],4;; // in1 + 4 = ECX
ld4 r10 = [r2],4;; // in1 + 8 = EDX
ld4 r11 = [r2],4;; // in1 + 12 = EBX
add r2 = 4,r2;; // in1 + 16 = ESP (skip)
ld4 r13 = [r2],4;; // in1 + 20 = EBP
ld4 r14 = [r2],4;; // in1 + 24 = ESI
ld4 r15 = [r2],4;; // in1 + 28 = EDI
ld4 r3 = [r2],4;; // in1 + 32 = EFLAGS
mov ar.eflag = r3;;
add r2 = 4,r2;; // in1 + 36 = EIP (skip)
add r2 = 2,r2;; // in1 + 40 = CS (skip)
ld2 r16 = [r2],2;; // in1 + 42 = DS, (r16 = GS,FS,ES,DS)
movl r27 = 0xc93fffff00000000;;
dep r27 = r16,r27,4,16;; // r27 = DSD
ld2 r19 = [r2],2;; // in1 + 44 = ES
dep r16 = r19,r16,16,16;;
movl r24 = 0xc93fffff00000000;;
dep r24 = r19,r24,4,16;; // r24 = ESD
ld2 r19 = [r2],2;; // in1 + 46 = FS
dep r16 = r19,r16,32,16;;
movl r28 = 0xc93fffff00000000;;
dep r28 = r19,r28,4,16;; // r28 = FSD
ld2 r19 = [r2],2;; // in1 + 48 = GS
dep r16 = r19,r16,48,16;;
movl r29 = 0xc93fffff00000000;;
dep r29 = r19,r29,4,16;; // r29 = GSD
mov r30 = r0;; // r30 = LDTD, clear NaT
mov r31 = r0;; // r31 = GDTD, clear NaT
dep r17 = r17,r17,16,16;; // CS = SS, (r17 = TSS,LDT,SS,CS)
movl r3 = 0x0930ffff00000000;;
dep r3 = r17,r3,4,16;;
mov ar.csd = r3;; // ar25 = CSD
mov ar.ssd = r3;; // ar26 = SSD
//------------------------------//
// give control to INT function //
//------------------------------//
br.call.sptk b0 = execute_int_function;;
//------------------------------//
// store legacy registers //
//------------------------------//
mov r2 = in1;;
st4 [r2] = r8,4;; // EAX
st4 [r2] = r9,4;; // ECX
st4 [r2] = r10,4;; // EDX
st4 [r2] = r11,4;; // EBX
add r2 = 4,r2;; // ESP (skip)
st4 [r2] = r13,4;; // EBP
st4 [r2] = r14,4;; // ESI
st4 [r2] = r15,4;; // EDI
mov r3 = ar.eflag;;
st4 [r2] = r3,4;; // EFLAGS
add r2 = 4,r2;; // EIP (skip)
add r2 = 2,r2;; // CS (skip)
st2 [r2] = r16,2;; // DS, (r16 = GS,FS,ES,DS)
extr.u r3 = r16,16,16;;
st2 [r2] = r3,2;; // ES
extr.u r3 = r16,32,16;;
st2 [r2] = r3,2;; // FS
extr.u r3 = r16,48,16;;
st2 [r2] = r3,2;; // GS
//------------------------------//
// restore fp registers //
//------------------------------//
mov sp = loc9;; // restore (SP)
int_ip_2x::
mov r2 = ip;;
add r2 = (int_ip_2y - int_ip_2x),r2;;
mov b7 = r2;;
br restore_fp_registers;;
int_ip_2y::
mov r8 = r0;; // return status
mov r9 = r0;; // return value
mov r10 = r0;; // return value
mov r11 = r0;; // return value
mov ar.fpsr = loc8;; // restore efi (FPSR)
mov ar.lc = loc7;; // restore efi (LC)
mov r13 = loc6;; // restore efi (TP)
mov sp = loc5;; // restore efi (SP)
mov pr = loc4;; // restore efi (PR)
mov gp = loc3;; // restore efi (GP)
mov psr.l = loc2;; // restore efi (PSR)
srlz.d;;
srlz.i;;
mov b0 = loc1;; // restore efi (b0)
mov ar.pfs = loc0;;
br.ret.sptk b0;; // return to efi
PROCEDURE_EXIT (EfiIaEntryPoint)
//==============================//
// EXECUTE_INT_FUNCTION //
//==============================//
// switch to virtual address //
//------------------------------//
execute_int_function::
alloc r2 = 0,0,0,0;; // cfm.sof=0
flushrs;;
rsm 0x2000;; // ic(13)=0 for control register programming
srlz.d;;
srlz.i;;
mov r2 = psr;;
dep r2 = -1,r2,34,1;; // set is(34)
dep r2 = -1,r2,44,1;; // set bn(44)
dep r2 = -1,r2,36,1;; // set it(36)
dep r2 = -1,r2,27,1;; // set rt(27)
dep r2 = -1,r2,17,1;; // set dt(17)
dep r2 = 0,r2,3,1;; // reset ac(3)
dep r2 = -1,r2,13,1;; // set ic(13)
mov cr.ipsr = r2;;
mov cr.ifs = r0;; // clear interruption function state register
mov cr.iip = r18;;
rfi;; // go to legacy code execution
//------------------------------//
// back from legacy code //
//------------------------------//
// switch to physical address //
//------------------------------//
sale_ip1y::
rsm 0x6000;; // i(14)=0,ic(13)=0 for control reg programming
srlz.d;;
srlz.i;;
mov r2 = psr;;
dep r2 = -1,r2,44,1;; // set bn(44)
dep r2 = 0,r2,36,1;; // reset it(36)
dep r2 = 0,r2,27,1;; // reset rt(27)
dep r2 = 0,r2,17,1;; // reset dt(17)
dep r2 = -1,r2,13,1;; // set ic(13)
mov cr.ipsr = r2;;
sale_ip2x::
mov r2 = ip;;
add r2 = (sale_ip2y - sale_ip2x),r2;;
mov cr.ifs = r0;; // clear interruption function state register
mov cr.iip = r2;;
rfi;;
sale_ip2y::
br.ret.sptk b0;; // return to SAL
//------------------------------//
// store fp registers //
//------------------------------//
save_fp_registers::
stf.spill [sp]=f2,-16;; stf.spill [sp]=f3,-16;;
stf.spill [sp]=f4,-16;; stf.spill [sp]=f5,-16;; stf.spill [sp]=f6,-16;; stf.spill [sp]=f7,-16;;
stf.spill [sp]=f8,-16;; stf.spill [sp]=f9,-16;; stf.spill [sp]=f10,-16;; stf.spill [sp]=f11,-16;;
stf.spill [sp]=f12,-16;; stf.spill [sp]=f13,-16;; stf.spill [sp]=f14,-16;; stf.spill [sp]=f15,-16;;
stf.spill [sp]=f16,-16;; stf.spill [sp]=f17,-16;; stf.spill [sp]=f18,-16;; stf.spill [sp]=f19,-16;;
stf.spill [sp]=f20,-16;; stf.spill [sp]=f21,-16;; stf.spill [sp]=f22,-16;; stf.spill [sp]=f23,-16;;
stf.spill [sp]=f24,-16;; stf.spill [sp]=f25,-16;; stf.spill [sp]=f26,-16;; stf.spill [sp]=f27,-16;;
stf.spill [sp]=f28,-16;; stf.spill [sp]=f29,-16;; stf.spill [sp]=f30,-16;; stf.spill [sp]=f31,-16;;
stf.spill [sp]=f32,-16;; stf.spill [sp]=f33,-16;; stf.spill [sp]=f34,-16;; stf.spill [sp]=f35,-16;;
stf.spill [sp]=f36,-16;; stf.spill [sp]=f37,-16;; stf.spill [sp]=f38,-16;; stf.spill [sp]=f39,-16;;
stf.spill [sp]=f40,-16;; stf.spill [sp]=f41,-16;; stf.spill [sp]=f42,-16;; stf.spill [sp]=f43,-16;;
stf.spill [sp]=f44,-16;; stf.spill [sp]=f45,-16;; stf.spill [sp]=f46,-16;; stf.spill [sp]=f47,-16;;
stf.spill [sp]=f48,-16;; stf.spill [sp]=f49,-16;; stf.spill [sp]=f50,-16;; stf.spill [sp]=f51,-16;;
stf.spill [sp]=f52,-16;; stf.spill [sp]=f53,-16;; stf.spill [sp]=f54,-16;; stf.spill [sp]=f55,-16;;
stf.spill [sp]=f56,-16;; stf.spill [sp]=f57,-16;; stf.spill [sp]=f58,-16;; stf.spill [sp]=f59,-16;;
stf.spill [sp]=f60,-16;; stf.spill [sp]=f61,-16;; stf.spill [sp]=f62,-16;; stf.spill [sp]=f63,-16;;
stf.spill [sp]=f64,-16;; stf.spill [sp]=f65,-16;; stf.spill [sp]=f66,-16;; stf.spill [sp]=f67,-16;;
stf.spill [sp]=f68,-16;; stf.spill [sp]=f69,-16;; stf.spill [sp]=f70,-16;; stf.spill [sp]=f71,-16;;
stf.spill [sp]=f72,-16;; stf.spill [sp]=f73,-16;; stf.spill [sp]=f74,-16;; stf.spill [sp]=f75,-16;;
stf.spill [sp]=f76,-16;; stf.spill [sp]=f77,-16;; stf.spill [sp]=f78,-16;; stf.spill [sp]=f79,-16;;
stf.spill [sp]=f80,-16;; stf.spill [sp]=f81,-16;; stf.spill [sp]=f82,-16;; stf.spill [sp]=f83,-16;;
stf.spill [sp]=f84,-16;; stf.spill [sp]=f85,-16;; stf.spill [sp]=f86,-16;; stf.spill [sp]=f87,-16;;
stf.spill [sp]=f88,-16;; stf.spill [sp]=f89,-16;; stf.spill [sp]=f90,-16;; stf.spill [sp]=f91,-16;;
stf.spill [sp]=f92,-16;; stf.spill [sp]=f93,-16;; stf.spill [sp]=f94,-16;; stf.spill [sp]=f95,-16;;
stf.spill [sp]=f96,-16;; stf.spill [sp]=f97,-16;; stf.spill [sp]=f98,-16;; stf.spill [sp]=f99,-16;;
stf.spill [sp]=f100,-16;;stf.spill [sp]=f101,-16;;stf.spill [sp]=f102,-16;;stf.spill [sp]=f103,-16;;
stf.spill [sp]=f104,-16;;stf.spill [sp]=f105,-16;;stf.spill [sp]=f106,-16;;stf.spill [sp]=f107,-16;;
stf.spill [sp]=f108,-16;;stf.spill [sp]=f109,-16;;stf.spill [sp]=f110,-16;;stf.spill [sp]=f111,-16;;
stf.spill [sp]=f112,-16;;stf.spill [sp]=f113,-16;;stf.spill [sp]=f114,-16;;stf.spill [sp]=f115,-16;;
stf.spill [sp]=f116,-16;;stf.spill [sp]=f117,-16;;stf.spill [sp]=f118,-16;;stf.spill [sp]=f119,-16;;
stf.spill [sp]=f120,-16;;stf.spill [sp]=f121,-16;;stf.spill [sp]=f122,-16;;stf.spill [sp]=f123,-16;;
stf.spill [sp]=f124,-16;;stf.spill [sp]=f125,-16;;stf.spill [sp]=f126,-16;;stf.spill [sp]=f127,-16;;
invala;;
br b7;;
//------------------------------//
// restore fp registers //
//------------------------------//
restore_fp_registers::
ldf.fill f127=[sp],16;;ldf.fill f126=[sp],16;;ldf.fill f125=[sp],16;;ldf.fill f124=[sp],16;;
ldf.fill f123=[sp],16;;ldf.fill f122=[sp],16;;ldf.fill f121=[sp],16;;ldf.fill f120=[sp],16;;
ldf.fill f119=[sp],16;;ldf.fill f118=[sp],16;;ldf.fill f117=[sp],16;;ldf.fill f116=[sp],16;;
ldf.fill f115=[sp],16;;ldf.fill f114=[sp],16;;ldf.fill f113=[sp],16;;ldf.fill f112=[sp],16;;
ldf.fill f111=[sp],16;;ldf.fill f110=[sp],16;;ldf.fill f109=[sp],16;;ldf.fill f108=[sp],16;;
ldf.fill f107=[sp],16;;ldf.fill f106=[sp],16;;ldf.fill f105=[sp],16;;ldf.fill f104=[sp],16;;
ldf.fill f103=[sp],16;;ldf.fill f102=[sp],16;;ldf.fill f101=[sp],16;;ldf.fill f100=[sp],16;;
ldf.fill f99=[sp],16;; ldf.fill f98=[sp],16;; ldf.fill f97=[sp],16;; ldf.fill f96=[sp],16;;
ldf.fill f95=[sp],16;; ldf.fill f94=[sp],16;; ldf.fill f93=[sp],16;; ldf.fill f92=[sp],16;;
ldf.fill f91=[sp],16;; ldf.fill f90=[sp],16;; ldf.fill f89=[sp],16;; ldf.fill f88=[sp],16;;
ldf.fill f87=[sp],16;; ldf.fill f86=[sp],16;; ldf.fill f85=[sp],16;; ldf.fill f84=[sp],16;;
ldf.fill f83=[sp],16;; ldf.fill f82=[sp],16;; ldf.fill f81=[sp],16;; ldf.fill f80=[sp],16;;
ldf.fill f79=[sp],16;; ldf.fill f78=[sp],16;; ldf.fill f77=[sp],16;; ldf.fill f76=[sp],16;;
ldf.fill f75=[sp],16;; ldf.fill f74=[sp],16;; ldf.fill f73=[sp],16;; ldf.fill f72=[sp],16;;
ldf.fill f71=[sp],16;; ldf.fill f70=[sp],16;; ldf.fill f69=[sp],16;; ldf.fill f68=[sp],16;;
ldf.fill f67=[sp],16;; ldf.fill f66=[sp],16;; ldf.fill f65=[sp],16;; ldf.fill f64=[sp],16;;
ldf.fill f63=[sp],16;; ldf.fill f62=[sp],16;; ldf.fill f61=[sp],16;; ldf.fill f60=[sp],16;;
ldf.fill f59=[sp],16;; ldf.fill f58=[sp],16;; ldf.fill f57=[sp],16;; ldf.fill f56=[sp],16;;
ldf.fill f55=[sp],16;; ldf.fill f54=[sp],16;; ldf.fill f53=[sp],16;; ldf.fill f52=[sp],16;;
ldf.fill f51=[sp],16;; ldf.fill f50=[sp],16;; ldf.fill f49=[sp],16;; ldf.fill f48=[sp],16;;
ldf.fill f47=[sp],16;; ldf.fill f46=[sp],16;; ldf.fill f45=[sp],16;; ldf.fill f44=[sp],16;;
ldf.fill f43=[sp],16;; ldf.fill f42=[sp],16;; ldf.fill f41=[sp],16;; ldf.fill f40=[sp],16;;
ldf.fill f39=[sp],16;; ldf.fill f38=[sp],16;; ldf.fill f37=[sp],16;; ldf.fill f36=[sp],16;;
ldf.fill f35=[sp],16;; ldf.fill f34=[sp],16;; ldf.fill f33=[sp],16;; ldf.fill f32=[sp],16;;
ldf.fill f31=[sp],16;; ldf.fill f30=[sp],16;; ldf.fill f29=[sp],16;; ldf.fill f28=[sp],16;;
ldf.fill f27=[sp],16;; ldf.fill f26=[sp],16;; ldf.fill f25=[sp],16;; ldf.fill f24=[sp],16;;
ldf.fill f23=[sp],16;; ldf.fill f22=[sp],16;; ldf.fill f21=[sp],16;; ldf.fill f20=[sp],16;;
ldf.fill f19=[sp],16;; ldf.fill f18=[sp],16;; ldf.fill f17=[sp],16;; ldf.fill f16=[sp],16;;
ldf.fill f15=[sp],16;; ldf.fill f14=[sp],16;; ldf.fill f13=[sp],16;; ldf.fill f12=[sp],16;;
ldf.fill f11=[sp],16;; ldf.fill f10=[sp],16;; ldf.fill f9=[sp],16;; ldf.fill f8=[sp],16;;
ldf.fill f7=[sp],16;; ldf.fill f6=[sp],16;; ldf.fill f5=[sp],16;; ldf.fill f4=[sp],16;;
ldf.fill f3=[sp],16;; ldf.fill f2=[sp],16;;
invala;;
br b7;;
//-----------------------------------------------------------------------------
//++
// EsalSetSalDataArea
//
// Register physical address of Esal Data Area
//
// On Entry :
// in0 = Reverse Thunk Address
// in1 = IntThunk Address
//
// Return Value:
// r8 = SAL_SUCCESS
//
// As per static calling conventions.
//
//--
//---------------------------------------------------------------------------
PROCEDURE_ENTRY (EsalSetSalDataArea)
NESTED_SETUP (4,8,0,0)
EsalCalcStart1_3::
mov r8 = ip;;
add r8 = (ReverseThunkAddress - EsalCalcStart1_3), r8;;
st8 [r8] = in0;;
EsalCalcStart1_4::
mov r8 = ip;;
add r8 = (IntThunkAddress - EsalCalcStart1_4), r8;;
st8 [r8] = in1;;
mov r8 = r0;;
NESTED_RETURN
PROCEDURE_EXIT (EsalSetSalDataArea)
//-----------------------------------------------------------------------------
//++
// EsagGetReverseThunkAddress
//
// Register physical address of Esal Data Area
//
// On Entry :
// out0 = CodeStart
// out1 = CodeEnd
// out1 = ReverseThunkCode
//
// Return Value:
// r8 = SAL_SUCCESS
//
// As per static calling conventions.
//
//--
//---------------------------------------------------------------------------
PROCEDURE_ENTRY (EsalGetReverseThunkAddress)
NESTED_SETUP (4,8,0,0)
EsalCalcStart1_31::
mov r8 = ip;;
add r8 = (Ia32CodeStart - EsalCalcStart1_31), r8;;
mov r9 = r8;;
EsalCalcStart1_41::
mov r8 = ip;;
add r8 = (Ia32CodeEnd - EsalCalcStart1_41), r8;;
mov r10 = r8;;
EsalCalcStart1_51::
mov r8 = ip;;
add r8 = (ReverseThunkAddress - EsalCalcStart1_51), r8;;
mov r11 = r8;;
mov r8 = r0;;
NESTED_RETURN
PROCEDURE_EXIT (EsalGetReverseThunkAddress)
.align 16
PROCEDURE_ENTRY (InterruptRedirectionTemplate)
data8 0x90CFCD08
data8 0x90CFCD09
data8 0x90CFCD0A
data8 0x90CFCD0B
data8 0x90CFCD0C
data8 0x90CFCD0D
data8 0x90CFCD0E
data8 0x90CFCD0F
PROCEDURE_EXIT (InterruptRedirectionTemplate)
//------------------------------//
// Reverse Thunk Code //
//------------------------------//
Ia32CodeStart::
br.sptk.few Ia32CodeStart;; // IPF CSM integration -Bug (Write This Code)
ReverseThunkCode::
data8 0xb80f66fa // CLI, JMPE xxxx
ReverseThunkAddress::
data8 0 // Return Address
IntThunkAddress::
data8 0 // IntThunk Address
Ia32CodeEnd::