/*
* decode_modrm_reg
*
* Decodes reg field of mod/rm byte
*
*/
static inline void
decode_modrm_reg(struct ud *u,
struct ud_operand *operand,
unsigned int type,
unsigned int size)
{
uint8_t reg = (REX_R(u->pfx_rex) << 3) | MODRM_REG(modrm(u));
decode_reg(u, operand, type, reg, size);
}
/*
* decode_modrm_reg
*
* Decodes reg field of mod/rm byte
*
*/
static void
decode_modrm_reg(struct ud *u,
struct ud_operand *operand,
unsigned int type,
unsigned int size)
{
uint8_t reg = (REX_R(u->pfx_rex) << 3) | MODRM_REG(modrm(u));
operand->type = UD_OP_REG;
operand->size = resolve_operand_size(u, size);
if (type == T_GPR) {
operand->base = decode_gpr(u, operand->size, reg);
} else {
operand->base = resolve_reg(u, type, reg);
}
}
/*
* decode_modrm_rm
*
* Decodes rm field of mod/rm byte
*
*/
static void
decode_modrm_rm(struct ud *u,
struct ud_operand *op,
unsigned char type,
unsigned int size)
{
unsigned char mod, rm, reg;
/* get mod, r/m and reg fields */
mod = MODRM_MOD(modrm(u));
rm = (REX_B(u->pfx_rex) << 3) | MODRM_RM(modrm(u));
reg = (REX_R(u->pfx_rex) << 3) | MODRM_REG(modrm(u));
op->size = resolve_operand_size(u, size);
/*
* If mod is 11b, then the modrm.rm specifies a register.
*
*/
if (mod == 3) {
op->type = UD_OP_REG;
if (type == T_GPR) {
op->base = decode_gpr(u, op->size, rm);
} else {
op->base = resolve_reg(u, type, (REX_B(u->pfx_rex) << 3) | (rm & 7));
}
return;
}
/*
* !11 => Memory Address
*/
op->type = UD_OP_MEM;
if (u->adr_mode == 64) {
op->base = UD_R_RAX + rm;
if (mod == 1) {
op->offset = 8;
} else if (mod == 2) {
op->offset = 32;
} else if (mod == 0 && (rm & 7) == 5) {
op->base = UD_R_RIP;
op->offset = 32;
} else {
op->offset = 0;
}
/*
* Scale-Index-Base (SIB)
*/
if ((rm & 7) == 4) {
inp_next(u);
op->scale = (1 << SIB_S(inp_curr(u))) & ~1;
op->index = UD_R_RAX + (SIB_I(inp_curr(u)) | (REX_X(u->pfx_rex) << 3));
op->base = UD_R_RAX + (SIB_B(inp_curr(u)) | (REX_B(u->pfx_rex) << 3));
/* special conditions for base reference */
if (op->index == UD_R_RSP) {
op->index = UD_NONE;
op->scale = UD_NONE;
}
if (op->base == UD_R_RBP || op->base == UD_R_R13) {
if (mod == 0) {
op->base = UD_NONE;
}
if (mod == 1) {
op->offset = 8;
} else {
op->offset = 32;
}
}
}
} else if (u->adr_mode == 32) {
op->base = UD_R_EAX + rm;
if (mod == 1) {
op->offset = 8;
} else if (mod == 2) {
op->offset = 32;
} else if (mod == 0 && rm == 5) {
op->base = UD_NONE;
op->offset = 32;
} else {
op->offset = 0;
}
/* Scale-Index-Base (SIB) */
if ((rm & 7) == 4) {
inp_next(u);
op->scale = (1 << SIB_S(inp_curr(u))) & ~1;
op->index = UD_R_EAX + (SIB_I(inp_curr(u)) | (REX_X(u->pfx_rex) << 3));
op->base = UD_R_EAX + (SIB_B(inp_curr(u)) | (REX_B(u->pfx_rex) << 3));
if (op->index == UD_R_ESP) {
op->index = UD_NONE;
op->scale = UD_NONE;
}
/* special condition for base reference */
if (op->base == UD_R_EBP) {
if (mod == 0) {
op->base = UD_NONE;
}
if (mod == 1) {
op->offset = 8;
} else {
op->offset = 32;
}
}
}
} else {
const unsigned int bases[] = { UD_R_BX, UD_R_BX, UD_R_BP, UD_R_BP,
UD_R_SI, UD_R_DI, UD_R_BP, UD_R_BX };
const unsigned int indices[] = { UD_R_SI, UD_R_DI, UD_R_SI, UD_R_DI,
UD_NONE, UD_NONE, UD_NONE, UD_NONE };
op->base = bases[rm & 7];
op->index = indices[rm & 7];
if (mod == 0 && rm == 6) {
op->offset= 16;
op->base = UD_NONE;
} else if (mod == 1) {
op->offset = 8;
} else if (mod == 2) {
op->offset = 16;
}
}
/*
* extract offset, if any
*/
switch (op->offset) {
case 8 : op->lval.ubyte = inp_uint8(u); break;
case 16: op->lval.uword = inp_uint16(u); break;
case 32: op->lval.udword = inp_uint32(u); break;
case 64: op->lval.uqword = inp_uint64(u); break;
default: break;
}
}
/* -----------------------------------------------------------------------------
* decode_modrm() - Decodes ModRM Byte
* -----------------------------------------------------------------------------
*/
static void
decode_modrm(struct ud* u, struct ud_operand *op, unsigned int s,
unsigned char rm_type, struct ud_operand *opreg,
unsigned int reg_size, unsigned char reg_type)
{
unsigned char mod, rm, reg;
inp_next(u);
/* get mod, r/m and reg fields */
mod = MODRM_MOD(inp_curr(u));
rm = (REX_B(u->pfx_rex) << 3) | MODRM_RM(inp_curr(u));
reg = (REX_R(u->pfx_rex) << 3) | MODRM_REG(inp_curr(u));
op->size = (uint8_t) resolve_operand_size(u, s);
/* if mod is 11b, then the UD_R_m specifies a gpr/mmx/sse/control/debug */
if (mod == 3) {
op->type = UD_OP_REG;
if (rm_type == T_GPR)
op->base = decode_gpr(u, op->size, rm);
else op->base = resolve_reg(u, rm_type, (REX_B(u->pfx_rex) << 3) | (rm&7));
}
/* else its memory addressing */
else {
op->type = UD_OP_MEM;
/* 64bit addressing */
if (u->adr_mode == 64) {
op->base = UD_R_RAX + rm;
/* get offset type */
if (mod == 1)
op->offset = 8;
else if (mod == 2)
op->offset = 32;
else if (mod == 0 && (rm & 7) == 5) {
op->base = UD_R_RIP;
op->offset = 32;
} else op->offset = 0;
/* Scale-Index-Base (SIB) */
if ((rm & 7) == 4) {
inp_next(u);
op->scale = (1 << SIB_S(inp_curr(u))) & ~1;
op->index = UD_R_RAX + (SIB_I(inp_curr(u)) | (REX_X(u->pfx_rex) << 3));
op->base = UD_R_RAX + (SIB_B(inp_curr(u)) | (REX_B(u->pfx_rex) << 3));
/* special conditions for base reference */
if (op->index == UD_R_RSP) {
op->index = UD_NONE;
op->scale = UD_NONE;
}
if (op->base == UD_R_RBP || op->base == UD_R_R13) {
if (mod == 0)
op->base = UD_NONE;
if (mod == 1)
op->offset = 8;
else op->offset = 32;
}
}
}
/* 32-Bit addressing mode */
else if (u->adr_mode == 32) {
/* get base */
op->base = UD_R_EAX + rm;
/* get offset type */
if (mod == 1)
op->offset = 8;
else if (mod == 2)
op->offset = 32;
else if (mod == 0 && rm == 5) {
op->base = UD_NONE;
op->offset = 32;
} else op->offset = 0;
/* Scale-Index-Base (SIB) */
if ((rm & 7) == 4) {
inp_next(u);
op->scale = (1 << SIB_S(inp_curr(u))) & ~1;
op->index = UD_R_EAX + (SIB_I(inp_curr(u)) | (REX_X(u->pfx_rex) << 3));
op->base = UD_R_EAX + (SIB_B(inp_curr(u)) | (REX_B(u->pfx_rex) << 3));
if (op->index == UD_R_ESP) {
op->index = UD_NONE;
op->scale = UD_NONE;
}
/* special condition for base reference */
if (op->base == UD_R_EBP) {
if (mod == 0)
op->base = UD_NONE;
if (mod == 1)
op->offset = 8;
else op->offset = 32;
}
}
}
/* 16bit addressing mode */
else {
switch (rm) {
case 0: op->base = UD_R_BX; op->index = UD_R_SI; break;
case 1: op->base = UD_R_BX; op->index = UD_R_DI; break;
case 2: op->base = UD_R_BP; op->index = UD_R_SI; break;
case 3: op->base = UD_R_BP; op->index = UD_R_DI; break;
case 4: op->base = UD_R_SI; break;
case 5: op->base = UD_R_DI; break;
case 6: op->base = UD_R_BP; break;
case 7: op->base = UD_R_BX; break;
}
if (mod == 0 && rm == 6) {
op->offset= 16;
op->base = UD_NONE;
}
else if (mod == 1)
op->offset = 8;
else if (mod == 2)
op->offset = 16;
}
}
/* extract offset, if any */
switch(op->offset) {
case 8 : op->lval.ubyte = inp_uint8(u); break;
case 16: op->lval.uword = inp_uint16(u); break;
case 32: op->lval.udword = inp_uint32(u); break;
default: break;
}
/* resolve register encoded in reg field */
if (opreg) {
opreg->type = UD_OP_REG;
opreg->size = (uint8_t)resolve_operand_size(u, reg_size);
if (reg_type == T_GPR)
opreg->base = decode_gpr(u, opreg->size, reg);
else opreg->base = resolve_reg(u, reg_type, reg);
}
}
