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|
/*
===========================================================================
Copyright (C) 1999-2005 Id Software, Inc.
This file is part of Quake III Arena source code.
Quake III Arena source code is free software; you can redistribute it
and/or modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the License,
or (at your option) any later version.
Quake III Arena source code is distributed in the hope that it will be
useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
===========================================================================
*/
// vm_x86.c -- load time compiler and execution environment for x86
#include "vm_local.h"
#ifdef __FreeBSD__ // rb0101023
#include <sys/types.h>
#endif
#ifndef _WIN32
#include <sys/mman.h> // for PROT_ stuff
#endif
/*
eax scratch
ebx scratch
ecx scratch (required for shifts)
edx scratch (required for divisions)
esi program stack
edi opstack
*/
// TTimo: initialised the statics, this fixes a crash when entering a compiled VM
static byte *buf = NULL;
static byte *jused = NULL;
static int compiledOfs = 0;
static byte *code = NULL;
static int pc = 0;
static int *instructionPointers = NULL;
#define FTOL_PTR
#ifdef _MSC_VER
#if defined( FTOL_PTR )
int _ftol( float );
static int ftolPtr = (int)_ftol;
#endif
void AsmCall( void );
static int asmCallPtr = (int)AsmCall;
#else // _MSC_VER
#if defined( FTOL_PTR )
// bk001213 - BEWARE: does not work! UI menu etc. broken - stack!
// bk001119 - added: int gftol( float x ) { return (int)x; }
int qftol( void ); // bk001213 - label, see unix/ftol.nasm
int qftol027F( void ); // bk001215 - fixed FPU control variants
int qftol037F( void );
int qftol0E7F( void ); // bk010102 - fixed bogus bits (duh)
int qftol0F7F( void );
static int ftolPtr = (int)qftol0F7F;
#endif // FTOL_PTR
void doAsmCall( void );
static int asmCallPtr = (int)doAsmCall;
#endif
static int callMask = 0; // bk001213 - init
static int instruction, pass;
static int lastConst = 0;
static int oc0, oc1, pop0, pop1;
typedef enum
{
LAST_COMMAND_NONE = 0,
LAST_COMMAND_MOV_EDI_EAX,
LAST_COMMAND_SUB_DI_4,
LAST_COMMAND_SUB_DI_8,
} ELastCommand;
static ELastCommand LastCommand;
/*
=================
AsmCall
=================
*/
#ifdef _MSC_VER
__declspec( naked ) void AsmCall( void ) {
int programStack;
int *opStack;
int syscallNum;
vm_t* savedVM;
__asm {
mov eax, dword ptr [edi]
sub edi, 4
or eax,eax
jl systemCall
// calling another vm function
shl eax,2
add eax, dword ptr [instructionPointers]
call dword ptr [eax]
mov eax, dword ptr [edi]
and eax, [callMask]
ret
systemCall:
// convert negative num to system call number
// and store right before the first arg
neg eax
dec eax
push ebp
mov ebp, esp
sub esp, __LOCAL_SIZE
mov dword ptr syscallNum, eax // so C code can get at it
mov dword ptr programStack, esi // so C code can get at it
mov dword ptr opStack, edi
push ecx
push esi // we may call recursively, so the
push edi // statics aren't guaranteed to be around
}
savedVM = currentVM;
// save the stack to allow recursive VM entry
currentVM->programStack = programStack - 4;
*(int *)((byte *)currentVM->dataBase + programStack + 4) = syscallNum;
//VM_LogSyscalls( (int *)((byte *)currentVM->dataBase + programStack + 4) );
*(opStack+1) = currentVM->systemCall( (int *)((byte *)currentVM->dataBase + programStack + 4) );
currentVM = savedVM;
_asm {
pop edi
pop esi
pop ecx
add edi, 4 // we added the return value
mov esp, ebp
pop ebp
ret
}
}
#else //!_MSC_VER
#ifdef __MINGW32__ // _ is prepended to compiled symbols
#define CMANG(sym) "_"#sym
#else
#define CMANG(sym) #sym
#endif
static int callProgramStack;
static int *callOpStack;
static int callSyscallNum;
void callAsmCall(void)
{
vm_t *savedVM;
int *callOpStack2;
savedVM = currentVM;
callOpStack2 = callOpStack;
// save the stack to allow recursive VM entry
currentVM->programStack = callProgramStack - 4;
*(int *)((byte *)currentVM->dataBase + callProgramStack + 4) = callSyscallNum;
//VM_LogSyscalls((int *)((byte *)currentVM->dataBase + callProgramStack + 4) );
*(callOpStack2+1) = currentVM->systemCall( (long *)((byte *)currentVM->dataBase + callProgramStack + 4) );
currentVM = savedVM;
}
// Note the C space function AsmCall is never actually called, and is in fact
// arbitrarily named (though this is not true for the MSC version). When a vm
// makes a system call, control jumps straight to the doAsmCall label.
void AsmCall( void ) {
asm( CMANG(doAsmCall) ": \n\t" \
" movl (%%edi),%%eax \n\t" \
" subl $4,%%edi \n\t" \
" orl %%eax,%%eax \n\t" \
" jl systemCall \n\t" \
" shll $2,%%eax \n\t" \
" addl %3,%%eax \n\t" \
" call *(%%eax) \n\t" \
" movl (%%edi),%%eax \n\t" \
" andl " CMANG(callMask) ", %%eax \n\t" \
" jmp doret \n\t" \
"systemCall: \n\t" \
" negl %%eax \n\t" \
" decl %%eax \n\t" \
" movl %%eax,%0 \n\t" \
" movl %%esi,%1 \n\t" \
" movl %%edi,%2 \n\t" \
" pushl %%ecx \n\t" \
" pushl %%esi \n\t" \
" pushl %%edi \n\t" \
" call " CMANG(callAsmCall) " \n\t" \
" popl %%edi \n\t" \
" popl %%esi \n\t" \
" popl %%ecx \n\t" \
" addl $4,%%edi \n\t" \
"doret: \n\t" \
" ret \n\t" \
: "=rm" (callSyscallNum), "=rm" (callProgramStack), "=rm" (callOpStack) \
: "rm" (instructionPointers) \
: "ax", "di", "si", "cx" \
);
}
#endif
static int Constant4( void ) {
int v;
v = code[pc] | (code[pc+1]<<8) | (code[pc+2]<<16) | (code[pc+3]<<24);
pc += 4;
return v;
}
static int Constant1( void ) {
int v;
v = code[pc];
pc += 1;
return v;
}
static void Emit1( int v )
{
buf[ compiledOfs ] = v;
compiledOfs++;
LastCommand = LAST_COMMAND_NONE;
}
#if 0
static void Emit2( int v ) {
Emit1( v & 255 );
Emit1( ( v >> 8 ) & 255 );
}
#endif
static void Emit4( int v ) {
Emit1( v & 255 );
Emit1( ( v >> 8 ) & 255 );
Emit1( ( v >> 16 ) & 255 );
Emit1( ( v >> 24 ) & 255 );
}
static int Hex( int c ) {
if ( c >= 'a' && c <= 'f' ) {
return 10 + c - 'a';
}
if ( c >= 'A' && c <= 'F' ) {
return 10 + c - 'A';
}
if ( c >= '0' && c <= '9' ) {
return c - '0';
}
Com_Error( ERR_DROP, "Hex: bad char '%c'", c );
return 0;
}
static void EmitString( const char *string ) {
int c1, c2;
int v;
while ( 1 ) {
c1 = string[0];
c2 = string[1];
v = ( Hex( c1 ) << 4 ) | Hex( c2 );
Emit1( v );
if ( !string[2] ) {
break;
}
string += 3;
}
}
static void EmitCommand(ELastCommand command)
{
switch(command)
{
case LAST_COMMAND_MOV_EDI_EAX:
EmitString( "89 07" ); // mov dword ptr [edi], eax
break;
case LAST_COMMAND_SUB_DI_4:
EmitString( "83 EF 04" ); // sub edi, 4
break;
case LAST_COMMAND_SUB_DI_8:
EmitString( "83 EF 08" ); // sub edi, 8
break;
default:
break;
}
LastCommand = command;
}
static void EmitAddEDI4(vm_t *vm) {
if (LastCommand == LAST_COMMAND_SUB_DI_4 && jused[instruction-1] == 0)
{ // sub di,4
compiledOfs -= 3;
vm->instructionPointers[ instruction-1 ] = compiledOfs;
return;
}
if (LastCommand == LAST_COMMAND_SUB_DI_8 && jused[instruction-1] == 0)
{ // sub di,8
compiledOfs -= 3;
vm->instructionPointers[ instruction-1 ] = compiledOfs;
EmitString( "83 EF 04" ); // sub edi,4
return;
}
EmitString( "83 C7 04" ); // add edi,4
}
static void EmitMovEAXEDI(vm_t *vm) {
if (LastCommand == LAST_COMMAND_MOV_EDI_EAX)
{ // mov [edi], eax
compiledOfs -= 2;
vm->instructionPointers[ instruction-1 ] = compiledOfs;
return;
}
if (pop1 == OP_DIVI || pop1 == OP_DIVU || pop1 == OP_MULI || pop1 == OP_MULU ||
pop1 == OP_STORE4 || pop1 == OP_STORE2 || pop1 == OP_STORE1 )
{
return;
}
if (pop1 == OP_CONST && buf[compiledOfs-6] == 0xC7 && buf[compiledOfs-5] == 0x07 )
{ // mov edi, 0x123456
compiledOfs -= 6;
vm->instructionPointers[ instruction-1 ] = compiledOfs;
EmitString( "B8" ); // mov eax, 0x12345678
Emit4( lastConst );
return;
}
EmitString( "8B 07" ); // mov eax, dword ptr [edi]
}
qboolean EmitMovEBXEDI(vm_t *vm, int andit) {
if (LastCommand == LAST_COMMAND_MOV_EDI_EAX)
{ // mov [edi], eax
compiledOfs -= 2;
vm->instructionPointers[ instruction-1 ] = compiledOfs;
EmitString( "8B D8"); // mov bx, eax
return qfalse;
}
if (pop1 == OP_DIVI || pop1 == OP_DIVU || pop1 == OP_MULI || pop1 == OP_MULU ||
pop1 == OP_STORE4 || pop1 == OP_STORE2 || pop1 == OP_STORE1 )
{
EmitString( "8B D8"); // mov bx, eax
return qfalse;
}
if (pop1 == OP_CONST && buf[compiledOfs-6] == 0xC7 && buf[compiledOfs-5] == 0x07 )
{ // mov edi, 0x123456
compiledOfs -= 6;
vm->instructionPointers[ instruction-1 ] = compiledOfs;
EmitString( "BB" ); // mov ebx, 0x12345678
if (andit) {
Emit4( lastConst & andit );
} else {
Emit4( lastConst );
}
return qtrue;
}
EmitString( "8B 1F" ); // mov ebx, dword ptr [edi]
return qfalse;
}
/*
=================
VM_Compile
=================
*/
void VM_Compile( vm_t *vm, vmHeader_t *header ) {
int op;
int maxLength;
int v;
int i;
qboolean opt;
// allocate a very large temp buffer, we will shrink it later
maxLength = header->codeLength * 8;
buf = Z_Malloc( maxLength );
jused = Z_Malloc(header->instructionCount + 2 );
Com_Memset(jused, 0, header->instructionCount+2);
// ensure that the optimisation pass knows about all the jump
// table targets
for( i = 0; i < vm->numJumpTableTargets; i++ ) {
jused[ *(int *)(vm->jumpTableTargets + ( i * sizeof( int ) ) ) ] = 1;
}
for(pass=0;pass<2;pass++) {
oc0 = -23423;
oc1 = -234354;
pop0 = -43435;
pop1 = -545455;
// translate all instructions
pc = 0;
instruction = 0;
code = (byte *)header + header->codeOffset;
compiledOfs = 0;
LastCommand = LAST_COMMAND_NONE;
while ( instruction < header->instructionCount ) {
if ( compiledOfs > maxLength - 16 ) {
Com_Error( ERR_FATAL, "VM_CompileX86: maxLength exceeded" );
}
vm->instructionPointers[ instruction ] = compiledOfs;
instruction++;
if ( pc > header->codeLength ) {
Com_Error( ERR_FATAL, "VM_CompileX86: pc > header->codeLength" );
}
op = code[ pc ];
pc++;
switch ( op ) {
case 0:
break;
case OP_BREAK:
EmitString( "CC" ); // int 3
break;
case OP_ENTER:
EmitString( "81 EE" ); // sub esi, 0x12345678
Emit4( Constant4() );
break;
case OP_CONST:
if (code[pc+4] == OP_LOAD4) {
EmitAddEDI4(vm);
EmitString( "BB" ); // mov ebx, 0x12345678
Emit4( (Constant4()&vm->dataMask) + (int)vm->dataBase);
EmitString( "8B 03" ); // mov eax, dword ptr [ebx]
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
pc++; // OP_LOAD4
instruction += 1;
break;
}
if (code[pc+4] == OP_LOAD2) {
EmitAddEDI4(vm);
EmitString( "BB" ); // mov ebx, 0x12345678
Emit4( (Constant4()&vm->dataMask) + (int)vm->dataBase);
EmitString( "0F B7 03" ); // movzx eax, word ptr [ebx]
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
pc++; // OP_LOAD4
instruction += 1;
break;
}
if (code[pc+4] == OP_LOAD1) {
EmitAddEDI4(vm);
EmitString( "BB" ); // mov ebx, 0x12345678
Emit4( (Constant4()&vm->dataMask) + (int)vm->dataBase);
EmitString( "0F B6 03" ); // movzx eax, byte ptr [ebx]
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
pc++; // OP_LOAD4
instruction += 1;
break;
}
if (code[pc+4] == OP_STORE4) {
opt = EmitMovEBXEDI(vm, (vm->dataMask & ~3));
EmitString( "B8" ); // mov eax, 0x12345678
Emit4( Constant4() );
// if (!opt) {
// EmitString( "81 E3" ); // and ebx, 0x12345678
// Emit4( vm->dataMask & ~3 );
// }
EmitString( "89 83" ); // mov dword ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
pc++; // OP_STORE4
instruction += 1;
break;
}
if (code[pc+4] == OP_STORE2) {
opt = EmitMovEBXEDI(vm, (vm->dataMask & ~1));
EmitString( "B8" ); // mov eax, 0x12345678
Emit4( Constant4() );
// if (!opt) {
// EmitString( "81 E3" ); // and ebx, 0x12345678
// Emit4( vm->dataMask & ~1 );
// }
EmitString( "66 89 83" ); // mov word ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
pc++; // OP_STORE4
instruction += 1;
break;
}
if (code[pc+4] == OP_STORE1) {
opt = EmitMovEBXEDI(vm, vm->dataMask);
EmitString( "B8" ); // mov eax, 0x12345678
Emit4( Constant4() );
// if (!opt) {
// EmitString( "81 E3" ); // and ebx, 0x12345678
// Emit4( vm->dataMask );
// }
EmitString( "88 83" ); // mov byte ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
pc++; // OP_STORE4
instruction += 1;
break;
}
if (code[pc+4] == OP_ADD) {
EmitString( "81 07" ); // add dword ptr [edi], 0x1234567
Emit4( Constant4() );
pc++; // OP_ADD
instruction += 1;
break;
}
if (code[pc+4] == OP_SUB) {
EmitString( "81 2F" ); // sub dword ptr [edi], 0x1234567
Emit4( Constant4() );
pc++; // OP_ADD
instruction += 1;
break;
}
EmitAddEDI4(vm);
EmitString( "C7 07" ); // mov dword ptr [edi], 0x12345678
lastConst = Constant4();
Emit4( lastConst );
if (code[pc] == OP_JUMP) {
jused[lastConst] = 1;
}
break;
case OP_LOCAL:
EmitAddEDI4(vm);
EmitString( "8D 86" ); // lea eax, [0x12345678 + esi]
oc0 = oc1;
oc1 = Constant4();
Emit4( oc1 );
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
break;
case OP_ARG:
EmitMovEAXEDI(vm); // mov eax,dword ptr [edi]
EmitString( "89 86" ); // mov dword ptr [esi+database],eax
// FIXME: range check
Emit4( Constant1() + (int)vm->dataBase );
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_CALL:
EmitString( "C7 86" ); // mov dword ptr [esi+database],0x12345678
Emit4( (int)vm->dataBase );
Emit4( pc );
EmitString( "FF 15" ); // call asmCallPtr
Emit4( (int)&asmCallPtr );
break;
case OP_PUSH:
EmitAddEDI4(vm);
break;
case OP_POP:
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_LEAVE:
v = Constant4();
EmitString( "81 C6" ); // add esi, 0x12345678
Emit4( v );
EmitString( "C3" ); // ret
break;
case OP_LOAD4:
if (code[pc] == OP_CONST && code[pc+5] == OP_ADD && code[pc+6] == OP_STORE4) {
if (oc0 == oc1 && pop0 == OP_LOCAL && pop1 == OP_LOCAL) {
compiledOfs -= 11;
vm->instructionPointers[ instruction-1 ] = compiledOfs;
}
pc++; // OP_CONST
v = Constant4();
EmitMovEBXEDI(vm, vm->dataMask);
if (v == 1 && oc0 == oc1 && pop0 == OP_LOCAL && pop1 == OP_LOCAL) {
EmitString( "FF 83"); // inc dword ptr [ebx + 0x12345678]
Emit4( (int)vm->dataBase );
} else {
EmitString( "8B 83" ); // mov eax, dword ptr [ebx + 0x12345678]
Emit4( (int)vm->dataBase );
EmitString( "05" ); // add eax, const
Emit4( v );
if (oc0 == oc1 && pop0 == OP_LOCAL && pop1 == OP_LOCAL) {
EmitString( "89 83" ); // mov dword ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
} else {
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
EmitString( "8B 1F" ); // mov ebx, dword ptr [edi]
EmitString( "89 83" ); // mov dword ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
}
}
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
pc++; // OP_ADD
pc++; // OP_STORE
instruction += 3;
break;
}
if (code[pc] == OP_CONST && code[pc+5] == OP_SUB && code[pc+6] == OP_STORE4) {
if (oc0 == oc1 && pop0 == OP_LOCAL && pop1 == OP_LOCAL) {
compiledOfs -= 11;
vm->instructionPointers[ instruction-1 ] = compiledOfs;
}
EmitMovEBXEDI(vm, vm->dataMask);
EmitString( "8B 83" ); // mov eax, dword ptr [ebx + 0x12345678]
Emit4( (int)vm->dataBase );
pc++; // OP_CONST
v = Constant4();
if (v == 1 && oc0 == oc1 && pop0 == OP_LOCAL && pop1 == OP_LOCAL) {
EmitString( "FF 8B"); // dec dword ptr [ebx + 0x12345678]
Emit4( (int)vm->dataBase );
} else {
EmitString( "2D" ); // sub eax, const
Emit4( v );
if (oc0 == oc1 && pop0 == OP_LOCAL && pop1 == OP_LOCAL) {
EmitString( "89 83" ); // mov dword ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
} else {
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
EmitString( "8B 1F" ); // mov ebx, dword ptr [edi]
EmitString( "89 83" ); // mov dword ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
}
}
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
pc++; // OP_SUB
pc++; // OP_STORE
instruction += 3;
break;
}
if (buf[compiledOfs-2] == 0x89 && buf[compiledOfs-1] == 0x07) {
compiledOfs -= 2;
vm->instructionPointers[ instruction-1 ] = compiledOfs;
EmitString( "8B 80"); // mov eax, dword ptr [eax + 0x1234567]
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
break;
}
EmitMovEBXEDI(vm, vm->dataMask);
EmitString( "8B 83" ); // mov eax, dword ptr [ebx + 0x12345678]
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
break;
case OP_LOAD2:
EmitMovEBXEDI(vm, vm->dataMask);
EmitString( "0F B7 83" ); // movzx eax, word ptr [ebx + 0x12345678]
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
break;
case OP_LOAD1:
EmitMovEBXEDI(vm, vm->dataMask);
EmitString( "0F B6 83" ); // movzx eax, byte ptr [ebx + 0x12345678]
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
break;
case OP_STORE4:
EmitMovEAXEDI(vm);
EmitString( "8B 5F FC" ); // mov ebx, dword ptr [edi-4]
// if (pop1 != OP_CALL) {
// EmitString( "81 E3" ); // and ebx, 0x12345678
// Emit4( vm->dataMask & ~3 );
// }
EmitString( "89 83" ); // mov dword ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
break;
case OP_STORE2:
EmitMovEAXEDI(vm);
EmitString( "8B 5F FC" ); // mov ebx, dword ptr [edi-4]
// EmitString( "81 E3" ); // and ebx, 0x12345678
// Emit4( vm->dataMask & ~1 );
EmitString( "66 89 83" ); // mov word ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
break;
case OP_STORE1:
EmitMovEAXEDI(vm);
EmitString( "8B 5F FC" ); // mov ebx, dword ptr [edi-4]
// EmitString( "81 E3" ); // and ebx, 0x12345678
// Emit4( vm->dataMask );
EmitString( "88 83" ); // mov byte ptr [ebx+0x12345678], eax
Emit4( (int)vm->dataBase );
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
break;
case OP_EQ:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "75 06" ); // jne +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_NE:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "74 06" ); // je +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_LTI:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "7D 06" ); // jnl +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_LEI:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "7F 06" ); // jnle +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_GTI:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "7E 06" ); // jng +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_GEI:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "7C 06" ); // jnge +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_LTU:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "73 06" ); // jnb +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_LEU:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "77 06" ); // jnbe +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_GTU:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "76 06" ); // jna +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_GEU:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "8B 47 04" ); // mov eax, dword ptr [edi+4]
EmitString( "3B 47 08" ); // cmp eax, dword ptr [edi+8]
EmitString( "72 06" ); // jnae +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_EQF:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "D9 47 04" ); // fld dword ptr [edi+4]
EmitString( "D8 5F 08" ); // fcomp dword ptr [edi+8]
EmitString( "DF E0" ); // fnstsw ax
EmitString( "F6 C4 40" ); // test ah,0x40
EmitString( "74 06" ); // je +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_NEF:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "D9 47 04" ); // fld dword ptr [edi+4]
EmitString( "D8 5F 08" ); // fcomp dword ptr [edi+8]
EmitString( "DF E0" ); // fnstsw ax
EmitString( "F6 C4 40" ); // test ah,0x40
EmitString( "75 06" ); // jne +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_LTF:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "D9 47 04" ); // fld dword ptr [edi+4]
EmitString( "D8 5F 08" ); // fcomp dword ptr [edi+8]
EmitString( "DF E0" ); // fnstsw ax
EmitString( "F6 C4 01" ); // test ah,0x01
EmitString( "74 06" ); // je +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_LEF:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "D9 47 04" ); // fld dword ptr [edi+4]
EmitString( "D8 5F 08" ); // fcomp dword ptr [edi+8]
EmitString( "DF E0" ); // fnstsw ax
EmitString( "F6 C4 41" ); // test ah,0x41
EmitString( "74 06" ); // je +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_GTF:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "D9 47 04" ); // fld dword ptr [edi+4]
EmitString( "D8 5F 08" ); // fcomp dword ptr [edi+8]
EmitString( "DF E0" ); // fnstsw ax
EmitString( "F6 C4 41" ); // test ah,0x41
EmitString( "75 06" ); // jne +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_GEF:
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
EmitString( "D9 47 04" ); // fld dword ptr [edi+4]
EmitString( "D8 5F 08" ); // fcomp dword ptr [edi+8]
EmitString( "DF E0" ); // fnstsw ax
EmitString( "F6 C4 01" ); // test ah,0x01
EmitString( "75 06" ); // jne +6
EmitString( "FF 25" ); // jmp [0x12345678]
v = Constant4();
jused[v] = 1;
Emit4( (int)vm->instructionPointers + v*4 );
break;
case OP_NEGI:
EmitString( "F7 1F" ); // neg dword ptr [edi]
break;
case OP_ADD:
EmitMovEAXEDI(vm); // mov eax, dword ptr [edi]
EmitString( "01 47 FC" ); // add dword ptr [edi-4],eax
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_SUB:
EmitMovEAXEDI(vm); // mov eax, dword ptr [edi]
EmitString( "29 47 FC" ); // sub dword ptr [edi-4],eax
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_DIVI:
EmitString( "8B 47 FC" ); // mov eax,dword ptr [edi-4]
EmitString( "99" ); // cdq
EmitString( "F7 3F" ); // idiv dword ptr [edi]
EmitString( "89 47 FC" ); // mov dword ptr [edi-4],eax
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_DIVU:
EmitString( "8B 47 FC" ); // mov eax,dword ptr [edi-4]
EmitString( "33 D2" ); // xor edx, edx
EmitString( "F7 37" ); // div dword ptr [edi]
EmitString( "89 47 FC" ); // mov dword ptr [edi-4],eax
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_MODI:
EmitString( "8B 47 FC" ); // mov eax,dword ptr [edi-4]
EmitString( "99" ); // cdq
EmitString( "F7 3F" ); // idiv dword ptr [edi]
EmitString( "89 57 FC" ); // mov dword ptr [edi-4],edx
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_MODU:
EmitString( "8B 47 FC" ); // mov eax,dword ptr [edi-4]
EmitString( "33 D2" ); // xor edx, edx
EmitString( "F7 37" ); // div dword ptr [edi]
EmitString( "89 57 FC" ); // mov dword ptr [edi-4],edx
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_MULI:
EmitString( "8B 47 FC" ); // mov eax,dword ptr [edi-4]
EmitString( "F7 2F" ); // imul dword ptr [edi]
EmitString( "89 47 FC" ); // mov dword ptr [edi-4],eax
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_MULU:
EmitString( "8B 47 FC" ); // mov eax,dword ptr [edi-4]
EmitString( "F7 27" ); // mul dword ptr [edi]
EmitString( "89 47 FC" ); // mov dword ptr [edi-4],eax
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_BAND:
EmitMovEAXEDI(vm); // mov eax, dword ptr [edi]
EmitString( "21 47 FC" ); // and dword ptr [edi-4],eax
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_BOR:
EmitMovEAXEDI(vm); // mov eax, dword ptr [edi]
EmitString( "09 47 FC" ); // or dword ptr [edi-4],eax
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_BXOR:
EmitMovEAXEDI(vm); // mov eax, dword ptr [edi]
EmitString( "31 47 FC" ); // xor dword ptr [edi-4],eax
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_BCOM:
EmitString( "F7 17" ); // not dword ptr [edi]
break;
case OP_LSH:
EmitString( "8B 0F" ); // mov ecx, dword ptr [edi]
EmitString( "D3 67 FC" ); // shl dword ptr [edi-4], cl
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_RSHI:
EmitString( "8B 0F" ); // mov ecx, dword ptr [edi]
EmitString( "D3 7F FC" ); // sar dword ptr [edi-4], cl
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_RSHU:
EmitString( "8B 0F" ); // mov ecx, dword ptr [edi]
EmitString( "D3 6F FC" ); // shr dword ptr [edi-4], cl
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_NEGF:
EmitString( "D9 07" ); // fld dword ptr [edi]
EmitString( "D9 E0" ); // fchs
EmitString( "D9 1F" ); // fstp dword ptr [edi]
break;
case OP_ADDF:
EmitString( "D9 47 FC" ); // fld dword ptr [edi-4]
EmitString( "D8 07" ); // fadd dword ptr [edi]
EmitString( "D9 5F FC" ); // fstp dword ptr [edi-4]
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
break;
case OP_SUBF:
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
EmitString( "D9 07" ); // fld dword ptr [edi]
EmitString( "D8 67 04" ); // fsub dword ptr [edi+4]
EmitString( "D9 1F" ); // fstp dword ptr [edi]
break;
case OP_DIVF:
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
EmitString( "D9 07" ); // fld dword ptr [edi]
EmitString( "D8 77 04" ); // fdiv dword ptr [edi+4]
EmitString( "D9 1F" ); // fstp dword ptr [edi]
break;
case OP_MULF:
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
EmitString( "D9 07" ); // fld dword ptr [edi]
EmitString( "D8 4f 04" ); // fmul dword ptr [edi+4]
EmitString( "D9 1F" ); // fstp dword ptr [edi]
break;
case OP_CVIF:
EmitString( "DB 07" ); // fild dword ptr [edi]
EmitString( "D9 1F" ); // fstp dword ptr [edi]
break;
case OP_CVFI:
#ifndef FTOL_PTR // WHENHELLISFROZENOVER // bk001213 - was used in 1.17
// not IEEE complient, but simple and fast
EmitString( "D9 07" ); // fld dword ptr [edi]
EmitString( "DB 1F" ); // fistp dword ptr [edi]
#else // FTOL_PTR
// call the library conversion function
EmitString( "D9 07" ); // fld dword ptr [edi]
EmitString( "FF 15" ); // call ftolPtr
Emit4( (int)&ftolPtr );
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
#endif
break;
case OP_SEX8:
EmitString( "0F BE 07" ); // movsx eax, byte ptr [edi]
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
break;
case OP_SEX16:
EmitString( "0F BF 07" ); // movsx eax, word ptr [edi]
EmitCommand(LAST_COMMAND_MOV_EDI_EAX); // mov dword ptr [edi], eax
break;
case OP_BLOCK_COPY:
// FIXME: range check
EmitString( "56" ); // push esi
EmitString( "57" ); // push edi
EmitString( "8B 37" ); // mov esi,[edi]
EmitString( "8B 7F FC" ); // mov edi,[edi-4]
EmitString( "B9" ); // mov ecx,0x12345678
Emit4( Constant4() >> 2 );
EmitString( "B8" ); // mov eax, datamask
Emit4( vm->dataMask );
EmitString( "BB" ); // mov ebx, database
Emit4( (int)vm->dataBase );
EmitString( "23 F0" ); // and esi, eax
EmitString( "03 F3" ); // add esi, ebx
EmitString( "23 F8" ); // and edi, eax
EmitString( "03 FB" ); // add edi, ebx
EmitString( "F3 A5" ); // rep movsd
EmitString( "5F" ); // pop edi
EmitString( "5E" ); // pop esi
EmitCommand(LAST_COMMAND_SUB_DI_8); // sub edi, 8
break;
case OP_JUMP:
EmitCommand(LAST_COMMAND_SUB_DI_4); // sub edi, 4
EmitString( "8B 47 04" ); // mov eax,dword ptr [edi+4]
// FIXME: range check
EmitString( "FF 24 85" ); // jmp dword ptr [instructionPointers + eax * 4]
Emit4( (int)vm->instructionPointers );
break;
default:
Com_Error( ERR_DROP, "VM_CompileX86: bad opcode %i at offset %i", op, pc );
}
pop0 = pop1;
pop1 = op;
}
}
// copy to an exact size buffer on the hunk
vm->codeLength = compiledOfs;
vm->codeBase = Hunk_Alloc( compiledOfs, h_low );
Com_Memcpy( vm->codeBase, buf, compiledOfs );
Z_Free( buf );
Z_Free( jused );
Com_Printf( "VM file %s compiled to %i bytes of code\n", vm->name, compiledOfs );
// offset all the instruction pointers for the new location
for ( i = 0 ; i < header->instructionCount ; i++ ) {
vm->instructionPointers[i] += (int)vm->codeBase;
}
#if 0 // ndef _WIN32
// Must make the newly generated code executable
{
int r;
unsigned long addr;
int psize = getpagesize();
addr = ((int)vm->codeBase & ~(psize-1)) - psize;
r = mprotect((char*)addr, vm->codeLength + (int)vm->codeBase - addr + psize,
PROT_READ | PROT_WRITE | PROT_EXEC );
if (r < 0)
Com_Error( ERR_FATAL, "mprotect failed to change PROT_EXEC" );
}
#endif
}
/*
==============
VM_CallCompiled
This function is called directly by the generated code
==============
*/
#ifndef DLL_ONLY // bk010215 - for DLL_ONLY dedicated servers/builds w/o VM
int VM_CallCompiled( vm_t *vm, int *args ) {
int stack[1024];
int programCounter;
int programStack;
int stackOnEntry;
byte *image;
void *entryPoint;
void *opStack;
int *oldInstructionPointers;
oldInstructionPointers = instructionPointers;
currentVM = vm;
instructionPointers = vm->instructionPointers;
// interpret the code
vm->currentlyInterpreting = qtrue;
callMask = vm->dataMask;
// we might be called recursively, so this might not be the very top
programStack = vm->programStack;
stackOnEntry = programStack;
// set up the stack frame
image = vm->dataBase;
programCounter = 0;
programStack -= 48;
*(int *)&image[ programStack + 44] = args[9];
*(int *)&image[ programStack + 40] = args[8];
*(int *)&image[ programStack + 36] = args[7];
*(int *)&image[ programStack + 32] = args[6];
*(int *)&image[ programStack + 28] = args[5];
*(int *)&image[ programStack + 24] = args[4];
*(int *)&image[ programStack + 20] = args[3];
*(int *)&image[ programStack + 16] = args[2];
*(int *)&image[ programStack + 12] = args[1];
*(int *)&image[ programStack + 8 ] = args[0];
*(int *)&image[ programStack + 4 ] = 0; // return stack
*(int *)&image[ programStack ] = -1; // will terminate the loop on return
// off we go into generated code...
entryPoint = vm->codeBase;
opStack = &stack;
#ifdef _MSC_VER
__asm {
pushad
mov esi, programStack;
mov edi, opStack
call entryPoint
mov programStack, esi
mov opStack, edi
popad
}
#else
{
static int memProgramStack;
static void *memOpStack;
static void *memEntryPoint;
memProgramStack = programStack;
memOpStack = opStack;
memEntryPoint = entryPoint;
__asm__(" pushal \r\n" \
" movl %0,%%esi \r\n" \
" movl %1,%%edi \r\n" \
" call *%2 \r\n" \
" movl %%esi,%0 \r\n" \
" movl %%edi,%1 \r\n" \
" popal \r\n" \
: "=m" (memProgramStack), "=m" (memOpStack) \
: "m" (memEntryPoint), "m" (memProgramStack), "m" (memOpStack) \
: "si", "di" \
);
programStack = memProgramStack;
opStack = memOpStack;
}
#endif
if ( opStack != &stack[1] ) {
Com_Error( ERR_DROP, "opStack corrupted in compiled code" );
}
if ( programStack != stackOnEntry - 48 ) {
Com_Error( ERR_DROP, "programStack corrupted in compiled code" );
}
vm->programStack = stackOnEntry;
// in case we were recursively called by another vm
instructionPointers = oldInstructionPointers;
return *(int *)opStack;
}
#endif // !DLL_ONLY
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