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Laika/lib/include/core/lvm.h

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#ifndef LAIKA_VM_H
#define LAIKA_VM_H
/* Laika VM:
This is an obfuscation technique where vital code can be executed in a
stack-based VM, inlined into the function. The VM instruction-set is fairly
simple, see the OP_* enum for avaliable opcodes and their expected arguments.
The VM is turing-complete, however the instruction-set has been curated to
fit this specific use case.
*/
#include "core/lerror.h"
#include "laika.h"
#include <inttypes.h>
#define LAIKA_VM_STACKSIZE 64
#define LAIKA_VM_CONSTSIZE 32
struct sLaikaV_vm_val
{
union
{
uint8_t i;
uint8_t *ptr;
};
};
struct sLaikaV_vm
{
struct sLaikaV_vm_val stack[LAIKA_VM_STACKSIZE];
struct sLaikaV_vm_val constList[LAIKA_VM_CONSTSIZE];
uint8_t code[LAIKA_VM_CODESIZE];
int pc;
};
#define LAIKA_MAKE_VM(_consts, _code) \
{ \
.constList = _consts, .code = _code, .pc = 0, .stack = { 0 } \
}
/* constants */
#define LAIKA_MAKE_VM_INT(_i) \
{ \
.i = _i \
}
#define LAIKA_MAKE_VM_PTR(_ptr) \
{ \
.ptr = _ptr \
}
/* instructions */
#define LAIKA_MAKE_VM_IA(opcode, a) opcode, a
#define LAIKA_MAKE_VM_IAB(opcode, a, b) opcode, a, b
#define LAIKA_MAKE_VM_IABC(opcode, a, b, c) opcode, a, b, c
enum
{
OP_EXIT,
OP_LOADCONST, /* stk_indx[uint8_t] = const_indx[uint8_t] */
OP_PUSHLIT, /* stk_indx[uint8_t].i = uint8_t */
OP_READ, /* stk_indx[uint8_t].i = *(int8_t*)stk_indx[uint8_t] */
OP_WRITE, /* *(uint8_t*)stk_indx[uint8_t].ptr = stk_indx[uint8_t].i */
OP_INCPTR, /* stk_indx[uint8_t].ptr++ */
OP_DECPTR, /* stk_indx[uint8_t].ptr-- */
/* arithmetic */
OP_ADD, /* stk_indx[uint8_t] = stk_indx[uint8_t] + stk_indx[uint8_t] */
OP_SUB, /* stk_indx[uint8_t] = stk_indx[uint8_t] - stk_indx[uint8_t] */
OP_MUL, /* stk_indx[uint8_t] = stk_indx[uint8_t] * stk_indx[uint8_t] */
OP_DIV, /* stk_indx[uint8_t] = stk_indx[uint8_t] / stk_indx[uint8_t] */
OP_AND, /* stk_indx[uint8_t] = stk_indx[uint8_t] & stk_indx[uint8_t] */
OP_OR, /* stk_indx[uint8_t] = stk_indx[uint8_t] | stk_indx[uint8_t] */
OP_XOR, /* stk_indx[uint8_t] = stk_indx[uint8_t] ^ stk_indx[uint8_t] */
/* control-flow */
OP_TESTJMP, /* if stk_indx[uint8_t] != 0, pc += [int8_t] */
/* misc. */
#ifdef DEBUG
OP_DEBUG
#endif
};
LAIKA_FORCEINLINE void laikaV_execute(struct sLaikaV_vm *vm)
{
#define READBYTE (vm->code[vm->pc++])
#define BINOP(x) \
{ \
uint8_t a = READBYTE; \
uint8_t b = READBYTE; \
uint8_t c = READBYTE; \
vm->stack[a].i = vm->stack[b].i x vm->stack[c].i; \
break; \
}
while (vm->code[vm->pc]) {
switch (vm->code[vm->pc++]) {
case OP_LOADCONST: {
uint8_t indx = READBYTE;
uint8_t constIndx = READBYTE;
vm->stack[indx] = vm->constList[constIndx];
break;
}
case OP_PUSHLIT: {
uint8_t indx = READBYTE;
uint8_t lit = READBYTE;
vm->stack[indx].i = lit;
break;
}
case OP_READ: {
uint8_t indx = READBYTE;
uint8_t ptr = READBYTE;
vm->stack[indx].i = *vm->stack[ptr].ptr;
break;
}
case OP_WRITE: {
uint8_t ptr = READBYTE;
uint8_t indx = READBYTE;
*vm->stack[ptr].ptr = vm->stack[indx].i;
break;
}
case OP_INCPTR: {
uint8_t ptr = READBYTE;
vm->stack[ptr].ptr++;
break;
}
case OP_DECPTR: {
uint8_t ptr = READBYTE;
vm->stack[ptr].ptr--;
break;
}
case OP_ADD:
BINOP(+);
case OP_SUB:
BINOP(-);
case OP_MUL:
BINOP(*);
case OP_DIV:
BINOP(/);
case OP_AND:
BINOP(&);
case OP_OR:
BINOP(|);
case OP_XOR:
BINOP(^);
case OP_TESTJMP: {
uint8_t indx = READBYTE;
int8_t jmp = READBYTE;
/* if stack indx is true, jump by jmp (signed 8-bit int) */
if (vm->stack[indx].i)
vm->pc += jmp;
break;
}
#ifdef DEBUG
case OP_DEBUG: {
int i;
/* print stack info */
for (i = 0; i < LAIKA_VM_STACKSIZE; i++)
printf("[%03d] - 0x%02x\n", i, vm->stack[i].i);
break;
}
#endif
default:
LAIKA_ERROR("laikaV_execute: unknown opcode [0x%02x]! pc: %d\n", vm->code[vm->pc],
vm->pc);
}
}
#undef READBYTE
#undef BINOP
}
#endif
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