mspdebug/util/dis.c

1015 lines
24 KiB
C

/* MSPDebug - debugging tool for the eZ430
* Copyright (C) 2009, 2010 Daniel Beer
*
* This program 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.
*
* This program 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 this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <ctype.h>
#include "dis.h"
#include "util.h"
#define ALL_ONES 0xfffff
#define EXTENSION_BIT 0x20000
/**********************************************************************/
/* Disassembler
*/
static int decode_00xx(const uint8_t *code, address_t len,
struct msp430_instruction *insn)
{
uint16_t op = code[0] | (code[1] << 8);
int subtype = (op >> 4) & 0xf;
int have_arg = 0;
address_t arg = 0;
/* Parameters common to most cases */
insn->op = MSP430_OP_MOVA;
insn->itype = MSP430_ITYPE_DOUBLE;
insn->dsize = MSP430_DSIZE_AWORD;
insn->dst_mode = MSP430_AMODE_REGISTER;
insn->dst_reg = op & 0xf;
insn->src_mode = MSP430_AMODE_REGISTER;
insn->src_reg = (op >> 8) & 0xf;
if (len >= 4) {
have_arg = 1;
arg = code[2] | (code[3] << 8);
}
switch (subtype) {
case 0:
insn->src_mode = MSP430_AMODE_INDIRECT;
return 2;
case 1:
insn->src_mode = MSP430_AMODE_INDIRECT_INC;
return 2;
case 2:
if (!have_arg)
return -1;
insn->src_mode = MSP430_AMODE_ABSOLUTE;
insn->src_addr = ((op & 0xf00) << 8) | arg;
return 4;
case 3:
if (!have_arg)
return -1;
insn->src_mode = MSP430_AMODE_INDEXED;
insn->src_addr = arg;
return 4;
case 4:
case 5:
/* RxxM */
insn->itype = MSP430_ITYPE_DOUBLE;
insn->op = op & 0xf3e0;
insn->dst_mode = MSP430_AMODE_REGISTER;
insn->dst_reg = op & 0xf;
insn->src_mode = MSP430_AMODE_IMMEDIATE;
insn->src_addr = (op >> 10) & 3;
insn->dsize = (op & 0x0010) ?
MSP430_DSIZE_WORD : MSP430_DSIZE_AWORD;
return 2;
case 6:
if (!have_arg)
return -1;
insn->dst_mode = MSP430_AMODE_ABSOLUTE;
insn->dst_addr = ((op & 0xf) << 16) | arg;
return 4;
case 7:
if (!have_arg)
return -1;
insn->dst_mode = MSP430_AMODE_INDEXED;
insn->dst_addr = arg;
return 4;
case 8:
if (!have_arg)
return -1;
insn->src_mode = MSP430_AMODE_IMMEDIATE;
insn->src_addr = ((op & 0xf00) << 8) | arg;
return 4;
case 9:
if (!have_arg)
return -1;
insn->op = MSP430_OP_CMPA;
insn->src_mode = MSP430_AMODE_IMMEDIATE;
insn->src_addr = ((op & 0xf00) << 8) | arg;
return 4;
case 10:
if (!have_arg)
return -1;
insn->op = MSP430_OP_ADDA;
insn->src_mode = MSP430_AMODE_IMMEDIATE;
insn->src_addr = ((op & 0xf00) << 8) | arg;
return 4;
case 11:
if (!have_arg)
return -1;
insn->op = MSP430_OP_SUBA;
insn->src_mode = MSP430_AMODE_IMMEDIATE;
insn->src_addr = ((op & 0xf00) << 8) | arg;
return 4;
case 12:
return 2;
case 13:
insn->op = MSP430_OP_CMPA;
return 2;
case 14:
insn->op = MSP430_OP_ADDA;
return 2;
case 15:
insn->op = MSP430_OP_SUBA;
return 2;
}
return -1;
}
static int decode_13xx(const uint8_t *code, address_t len,
struct msp430_instruction *insn)
{
uint16_t op = code[0] | (code[1] << 8);
int subtype = (op >> 4) & 0xf;
insn->itype = MSP430_ITYPE_SINGLE;
insn->op = MSP430_OP_CALLA;
switch (subtype) {
case 0:
insn->itype = MSP430_ITYPE_NOARG;
insn->op = MSP430_OP_RETI;
return 2;
case 4:
insn->dst_mode = MSP430_AMODE_REGISTER;
insn->dst_reg = op & 0xf;
return 2;
case 5:
insn->dst_mode = MSP430_AMODE_INDEXED;
insn->dst_reg = op & 0xf;
break;
case 6:
insn->dst_mode = MSP430_AMODE_INDIRECT;
insn->dst_reg = op & 0xf;
return 2;
case 7:
insn->dst_mode = MSP430_AMODE_INDIRECT_INC;
insn->dst_reg = op & 0xf;
return 2;
case 8:
insn->dst_mode = MSP430_AMODE_ABSOLUTE;
insn->dst_addr = (address_t)(op & 0xf) << 16;
break;
case 9:
insn->dst_mode = MSP430_AMODE_SYMBOLIC;
insn->dst_addr = (address_t)(op & 0xf) << 16;
break;
case 11:
insn->dst_mode = MSP430_AMODE_IMMEDIATE;
insn->dst_addr = (address_t)(op & 0xf) << 16;
break;
default:
return -1;
}
if (len < 4)
return -1;
insn->dst_addr |= code[2];
insn->dst_addr |= code[3] << 8;
return 4;
}
static int decode_14xx(const uint8_t *code,
struct msp430_instruction *insn)
{
uint16_t op = (code[1] << 8) | code[0];
/* PUSHM/POPM */
insn->itype = MSP430_ITYPE_DOUBLE;
insn->op = op & 0xfe00;
insn->dst_mode = MSP430_AMODE_REGISTER;
insn->dst_reg = op & 0xf;
insn->src_mode = MSP430_AMODE_IMMEDIATE;
insn->src_addr = (op >> 4) & 0xf;
insn->dsize = (op & 0x0100) ?
MSP430_DSIZE_WORD : MSP430_DSIZE_AWORD;
return 2;
}
/* Decode a single-operand instruction.
*
* Returns the number of bytes consumed in decoding, or -1 if the a
* valid single-operand instruction could not be found.
*/
static int decode_single(const uint8_t *code, address_t offset,
address_t size, struct msp430_instruction *insn)
{
uint16_t op = (code[1] << 8) | code[0];
int need_arg = 0;
insn->itype = MSP430_ITYPE_SINGLE;
insn->op = op & 0xff80;
insn->dsize = (op & 0x0400) ? MSP430_DSIZE_BYTE : MSP430_DSIZE_WORD;
insn->dst_mode = (op >> 4) & 0x3;
insn->dst_reg = op & 0xf;
switch (insn->dst_mode) {
case MSP430_AMODE_REGISTER: break;
case MSP430_AMODE_INDEXED:
need_arg = 1;
if (insn->dst_reg == MSP430_REG_PC) {
insn->dst_addr = offset + 2;
insn->dst_mode = MSP430_AMODE_SYMBOLIC;
} else if (insn->dst_reg == MSP430_REG_SR)
insn->dst_mode = MSP430_AMODE_ABSOLUTE;
break;
case MSP430_AMODE_INDIRECT: break;
case MSP430_AMODE_INDIRECT_INC:
if (insn->dst_reg == MSP430_REG_PC) {
insn->dst_mode = MSP430_AMODE_IMMEDIATE;
need_arg = 1;
}
break;
default: break;
}
if (need_arg) {
if (size < 4)
return -1;
insn->dst_addr += (code[3] << 8) | code[2];
return 4;
}
return 2;
}
/* Decode a double-operand instruction.
*
* Returns the number of bytes consumed or -1 if a valid instruction
* could not be found.
*/
static int decode_double(const uint8_t *code, address_t offset,
address_t size, struct msp430_instruction *insn)
{
uint16_t op = (code[1] << 8) | code[0];
int need_src = 0;
int need_dst = 0;
int ret = 2;
insn->itype = MSP430_ITYPE_DOUBLE;
insn->op = op & 0xf000;
insn->dsize = (op & 0x0040) ? MSP430_DSIZE_BYTE : MSP430_DSIZE_WORD;
insn->src_mode = (op >> 4) & 0x3;
insn->src_reg = (op >> 8) & 0xf;
insn->dst_mode = (op >> 7) & 0x1;
insn->dst_reg = op & 0xf;
switch (insn->dst_mode) {
case MSP430_AMODE_REGISTER: break;
case MSP430_AMODE_INDEXED:
need_dst = 1;
if (insn->dst_reg == MSP430_REG_PC) {
insn->dst_mode = MSP430_AMODE_SYMBOLIC;
insn->dst_addr = offset + 2;
} else if (insn->dst_reg == MSP430_REG_SR)
insn->dst_mode = MSP430_AMODE_ABSOLUTE;
break;
default: break;
}
switch (insn->src_mode) {
case MSP430_AMODE_REGISTER: break;
case MSP430_AMODE_INDEXED:
need_src = 1;
if (insn->src_reg == MSP430_REG_PC) {
insn->src_mode = MSP430_AMODE_SYMBOLIC;
insn->dst_addr = offset + 2;
} else if (insn->src_reg == MSP430_REG_SR)
insn->src_mode = MSP430_AMODE_ABSOLUTE;
else if (insn->src_reg == MSP430_REG_R3)
need_src = 0;
break;
case MSP430_AMODE_INDIRECT: break;
case MSP430_AMODE_INDIRECT_INC:
if (insn->src_reg == MSP430_REG_PC) {
insn->src_mode = MSP430_AMODE_IMMEDIATE;
need_src = 1;
}
break;
default: break;
}
offset += 2;
code += 2;
size -= 2;
if (need_src) {
if (size < 2)
return -1;
insn->src_addr += (code[1] << 8) | code[0];
offset += 2;
code += 2;
size -= 2;
ret += 2;
}
if (need_dst) {
if (size < 2)
return -1;
insn->dst_addr += (code[1] << 8) | code[0];
ret += 2;
}
return ret;
}
/* Decode a jump instruction.
*
* All jump instructions are one word in length, so this function
* always returns 2 (to indicate the consumption of 2 bytes).
*/
static int decode_jump(const uint8_t *code, address_t offset,
struct msp430_instruction *insn)
{
uint16_t op = (code[1] << 8) | code[0];
int tgtrel = op & 0x3ff;
if (tgtrel & 0x200)
tgtrel -= 0x400;
insn->op = op & 0xfc00;
insn->itype = MSP430_ITYPE_JUMP;
insn->dst_addr = offset + 2 + tgtrel * 2;
insn->dst_mode = MSP430_AMODE_SYMBOLIC;
insn->dst_reg = MSP430_REG_PC;
return 2;
}
static void remap_cgen(msp430_amode_t *mode,
address_t *addr,
msp430_reg_t *reg)
{
if (*reg == MSP430_REG_SR) {
if (*mode == MSP430_AMODE_INDIRECT) {
*mode = MSP430_AMODE_IMMEDIATE;
*addr = 4;
} else if (*mode == MSP430_AMODE_INDIRECT_INC) {
*mode = MSP430_AMODE_IMMEDIATE;
*addr = 8;
}
} else if (*reg == MSP430_REG_R3) {
if (*mode == MSP430_AMODE_REGISTER)
*addr = 0;
else if (*mode == MSP430_AMODE_INDEXED)
*addr = 1;
else if (*mode == MSP430_AMODE_INDIRECT)
*addr = 2;
else if (*mode == MSP430_AMODE_INDIRECT_INC)
*addr = ALL_ONES;
*mode = MSP430_AMODE_IMMEDIATE;
}
}
/* Take a decoded instruction and replace certain addressing modes of
* the constant generator registers with their corresponding immediate
* values.
*/
static void find_cgens(struct msp430_instruction *insn)
{
if (insn->itype == MSP430_ITYPE_DOUBLE)
remap_cgen(&insn->src_mode, &insn->src_addr,
&insn->src_reg);
else if (insn->itype == MSP430_ITYPE_SINGLE)
remap_cgen(&insn->dst_mode, &insn->dst_addr,
&insn->dst_reg);
}
/* Recognise special cases of real instructions and translate them to
* emulated instructions.
*/
static void find_emulated_ops(struct msp430_instruction *insn)
{
switch (insn->op) {
case MSP430_OP_ADD:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE) {
if (insn->src_addr == 1) {
insn->op = MSP430_OP_INC;
insn->itype = MSP430_ITYPE_SINGLE;
} else if (insn->src_addr == 2) {
insn->op = MSP430_OP_INCD;
insn->itype = MSP430_ITYPE_SINGLE;
}
} else if (insn->dst_mode == insn->src_mode &&
insn->dst_reg == insn->src_reg &&
insn->dst_addr == insn->src_addr) {
insn->op = MSP430_OP_RLA;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_ADDA:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
insn->src_addr == 2) {
insn->op = MSP430_OP_INCDA;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_ADDX:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE) {
if (insn->src_addr == 1) {
insn->op = MSP430_OP_INCX;
insn->itype = MSP430_ITYPE_SINGLE;
} else if (insn->src_addr == 2) {
insn->op = MSP430_OP_INCDX;
insn->itype = MSP430_ITYPE_SINGLE;
}
} else if (insn->dst_mode == insn->src_mode &&
insn->dst_reg == insn->src_reg &&
insn->dst_addr == insn->src_addr) {
insn->op = MSP430_OP_RLAX;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_ADDC:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
insn->op = MSP430_OP_ADC;
insn->itype = MSP430_ITYPE_SINGLE;
} else if (insn->dst_mode == insn->src_mode &&
insn->dst_reg == insn->src_reg &&
insn->dst_addr == insn->src_addr) {
insn->op = MSP430_OP_RLC;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_ADDCX:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
insn->op = MSP430_OP_ADCX;
insn->itype = MSP430_ITYPE_SINGLE;
} else if (insn->dst_mode == insn->src_mode &&
insn->dst_reg == insn->src_reg &&
insn->dst_addr == insn->src_addr) {
insn->op = MSP430_OP_RLCX;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_BIC:
if (insn->dst_mode == MSP430_AMODE_REGISTER &&
insn->dst_reg == MSP430_REG_SR &&
insn->src_mode == MSP430_AMODE_IMMEDIATE) {
if (insn->src_addr == 1) {
insn->op = MSP430_OP_CLRC;
insn->itype = MSP430_ITYPE_NOARG;
} else if (insn->src_addr == 4) {
insn->op = MSP430_OP_CLRN;
insn->itype = MSP430_ITYPE_NOARG;
} else if (insn->src_addr == 2) {
insn->op = MSP430_OP_CLRZ;
insn->itype = MSP430_ITYPE_NOARG;
} else if (insn->src_addr == 8) {
insn->op = MSP430_OP_DINT;
insn->itype = MSP430_ITYPE_NOARG;
}
}
break;
case MSP430_OP_BIS:
if (insn->dst_mode == MSP430_AMODE_REGISTER &&
insn->dst_reg == MSP430_REG_SR &&
insn->src_mode == MSP430_AMODE_IMMEDIATE) {
if (insn->src_addr == 1) {
insn->op = MSP430_OP_SETC;
insn->itype = MSP430_ITYPE_NOARG;
} else if (insn->src_addr == 4) {
insn->op = MSP430_OP_SETN;
insn->itype = MSP430_ITYPE_NOARG;
} else if (insn->src_addr == 2) {
insn->op = MSP430_OP_SETZ;
insn->itype = MSP430_ITYPE_NOARG;
} else if (insn->src_addr == 8) {
insn->op = MSP430_OP_EINT;
insn->itype = MSP430_ITYPE_NOARG;
}
}
break;
case MSP430_OP_CMP:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
insn->op = MSP430_OP_TST;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_CMPA:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
insn->op = MSP430_OP_TSTA;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_CMPX:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
insn->op = MSP430_OP_TSTX;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_DADD:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
insn->op = MSP430_OP_DADC;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_DADDX:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
insn->op = MSP430_OP_DADCX;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_MOV:
if (insn->src_mode == MSP430_AMODE_INDIRECT_INC &&
insn->src_reg == MSP430_REG_SP) {
if (insn->dst_mode == MSP430_AMODE_REGISTER &&
insn->dst_reg == MSP430_REG_PC) {
insn->op = MSP430_OP_RET;
insn->itype = MSP430_ITYPE_NOARG;
} else {
insn->op = MSP430_OP_POP;
insn->itype = MSP430_ITYPE_SINGLE;
}
} else if (insn->dst_mode == MSP430_AMODE_REGISTER &&
insn->dst_reg == MSP430_REG_PC) {
insn->op = MSP430_OP_BR;
insn->itype = MSP430_ITYPE_SINGLE;
insn->dst_mode = insn->src_mode;
insn->dst_reg = insn->src_reg;
insn->dst_addr = insn->src_addr;
} else if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
if (insn->dst_mode == MSP430_AMODE_REGISTER &&
insn->dst_reg == MSP430_REG_R3) {
insn->op = MSP430_OP_NOP;
insn->itype = MSP430_ITYPE_NOARG;
} else {
insn->op = MSP430_OP_CLR;
insn->itype = MSP430_ITYPE_SINGLE;
}
}
break;
case MSP430_OP_MOVA:
if (insn->src_mode == MSP430_AMODE_INDIRECT_INC &&
insn->src_reg == MSP430_REG_SP) {
if (insn->dst_mode == MSP430_AMODE_REGISTER &&
insn->dst_reg == MSP430_REG_PC) {
insn->op = MSP430_OP_RETA;
insn->itype = MSP430_ITYPE_NOARG;
} else {
insn->op = MSP430_OP_POPX;
insn->itype = MSP430_ITYPE_SINGLE;
}
} else if (insn->dst_mode == MSP430_AMODE_REGISTER &&
insn->dst_reg == MSP430_REG_PC) {
insn->op = MSP430_OP_BRA;
insn->itype = MSP430_ITYPE_SINGLE;
insn->dst_mode = insn->src_mode;
insn->dst_reg = insn->src_reg;
insn->dst_addr = insn->src_addr;
} else if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
if (insn->dst_mode == MSP430_AMODE_REGISTER &&
insn->dst_reg == MSP430_REG_R3) {
insn->op = MSP430_OP_NOP;
insn->itype = MSP430_ITYPE_NOARG;
} else {
insn->op = MSP430_OP_CLRX;
insn->itype = MSP430_ITYPE_SINGLE;
}
}
break;
case MSP430_OP_SUB:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE) {
if (insn->src_addr == 1) {
insn->op = MSP430_OP_DEC;
insn->itype = MSP430_ITYPE_SINGLE;
} else if (insn->src_addr == 2) {
insn->op = MSP430_OP_DECD;
insn->itype = MSP430_ITYPE_SINGLE;
}
}
break;
case MSP430_OP_SUBA:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
insn->src_addr == 2) {
insn->op = MSP430_OP_DECDA;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_SUBX:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE) {
if (insn->src_addr == 1) {
insn->op = MSP430_OP_DECX;
insn->itype = MSP430_ITYPE_SINGLE;
} else if (insn->src_addr == 2) {
insn->op = MSP430_OP_DECDX;
insn->itype = MSP430_ITYPE_SINGLE;
}
}
break;
case MSP430_OP_SUBC:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
insn->op = MSP430_OP_SBC;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_SUBCX:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
!insn->src_addr) {
insn->op = MSP430_OP_SECX;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_XOR:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
insn->src_addr == ALL_ONES) {
insn->op = MSP430_OP_INV;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
case MSP430_OP_XORX:
if (insn->src_mode == MSP430_AMODE_IMMEDIATE &&
insn->src_addr == ALL_ONES) {
insn->op = MSP430_OP_INVX;
insn->itype = MSP430_ITYPE_SINGLE;
}
break;
default: break;
}
}
/* Decode a single instruction.
*
* Returns the number of bytes consumed, or -1 if an error occured.
*
* The caller needs to pass a pointer to the bytes to be decoded, the
* virtual offset of those bytes, and the maximum number available. If
* successful, the decoded instruction is written into the structure
* pointed to by insn.
*/
int dis_decode(const uint8_t *code, address_t offset, address_t len,
struct msp430_instruction *insn)
{
uint16_t op;
uint16_t ex_word = 0;
int ret;
address_t ds_mask = ALL_ONES;
memset(insn, 0, sizeof(*insn));
insn->offset = offset;
/* Perform decoding */
if (len < 2)
return -1;
op = (code[1] << 8) | code[0];
if ((op & 0xf800) == 0x1800) {
ex_word = op;
code += 2;
offset += 2;
len -= 2;
if (len < 2)
return -1;
op = (code[1] << 8) | code[0];
if ((op & 0xf000) >= 0x4000)
ret = decode_double(code, offset, len, insn);
else if ((op & 0xf000) == 0x1000 && (op & 0xfc00) < 0x1280)
ret = decode_single(code, offset, len, insn);
else
return -1;
insn->op |= EXTENSION_BIT;
ret += 2;
if (insn->dst_mode == MSP430_AMODE_REGISTER &&
(insn->itype == MSP430_ITYPE_SINGLE ||
insn->src_mode == MSP430_AMODE_REGISTER)) {
if ((ex_word >> 8) & 1) {
if (insn->op != MSP430_OP_RRCX)
return -1;
insn->op = MSP430_OP_RRUX;
}
insn->rep_register = (ex_word >> 7) & 1;
insn->rep_index = ex_word & 0xf;
} else {
insn->dst_addr |= (ex_word & 0xf) << 16;
insn->src_addr |= ((ex_word >> 6) & 0xf) << 16;
}
if (!(ex_word & 0x40))
insn->dsize |= 2;
} else {
if ((op & 0xf000) == 0x0000)
ret = decode_00xx(code, len, insn);
else if ((op & 0xfc00) == 0x1400)
ret = decode_14xx(code, insn);
else if ((op & 0xff00) == 0x1300)
ret = decode_13xx(code, len, insn);
else if ((op & 0xf000) == 0x1000)
ret = decode_single(code, offset, len, insn);
else if ((op & 0xf000) >= 0x2000 && (op & 0xf000) < 0x4000)
ret = decode_jump(code, offset, insn);
else if ((op & 0xf000) >= 0x4000)
ret = decode_double(code, offset, len, insn);
else
return -1;
}
/* Interpret "emulated" instructions, constant generation, and
* trim data sizes.
*/
find_cgens(insn);
find_emulated_ops(insn);
if (insn->dsize == MSP430_DSIZE_BYTE)
ds_mask = 0xff;
else if (insn->dsize == MSP430_DSIZE_WORD)
ds_mask = 0xffff;
if (insn->src_mode == MSP430_AMODE_IMMEDIATE)
insn->src_addr &= ds_mask;
if (insn->dst_mode == MSP430_AMODE_IMMEDIATE)
insn->dst_addr &= ds_mask;
insn->len = ret;
return ret;
}
static const struct {
msp430_op_t op;
const char *mnemonic;
} opcode_names[] = {
/* Single operand */
{MSP430_OP_RRC, "RRC"},
{MSP430_OP_SWPB, "SWPB"},
{MSP430_OP_RRA, "RRA"},
{MSP430_OP_SXT, "SXT"},
{MSP430_OP_PUSH, "PUSH"},
{MSP430_OP_CALL, "CALL"},
{MSP430_OP_RETI, "RETI"},
/* Jump */
{MSP430_OP_JNZ, "JNZ"},
{MSP430_OP_JZ, "JZ"},
{MSP430_OP_JNC, "JNC"},
{MSP430_OP_JC, "JC"},
{MSP430_OP_JN, "JN"},
{MSP430_OP_JL, "JL"},
{MSP430_OP_JGE, "JGE"},
{MSP430_OP_JMP, "JMP"},
/* Double operand */
{MSP430_OP_MOV, "MOV"},
{MSP430_OP_ADD, "ADD"},
{MSP430_OP_ADDC, "ADDC"},
{MSP430_OP_SUBC, "SUBC"},
{MSP430_OP_SUB, "SUB"},
{MSP430_OP_CMP, "CMP"},
{MSP430_OP_DADD, "DADD"},
{MSP430_OP_BIT, "BIT"},
{MSP430_OP_BIC, "BIC"},
{MSP430_OP_BIS, "BIS"},
{MSP430_OP_XOR, "XOR"},
{MSP430_OP_AND, "AND"},
/* Emulated instructions */
{MSP430_OP_ADC, "ADC"},
{MSP430_OP_BR, "BR"},
{MSP430_OP_CLR, "CLR"},
{MSP430_OP_CLRC, "CLRC"},
{MSP430_OP_CLRN, "CLRN"},
{MSP430_OP_CLRZ, "CLRZ"},
{MSP430_OP_DADC, "DADC"},
{MSP430_OP_DEC, "DEC"},
{MSP430_OP_DECD, "DECD"},
{MSP430_OP_DINT, "DINT"},
{MSP430_OP_EINT, "EINT"},
{MSP430_OP_INC, "INC"},
{MSP430_OP_INCD, "INCD"},
{MSP430_OP_INV, "INV"},
{MSP430_OP_NOP, "NOP"},
{MSP430_OP_POP, "POP"},
{MSP430_OP_RET, "RET"},
{MSP430_OP_RLA, "RLA"},
{MSP430_OP_RLC, "RLC"},
{MSP430_OP_SBC, "SBC"},
{MSP430_OP_SETC, "SETC"},
{MSP430_OP_SETN, "SETN"},
{MSP430_OP_SETZ, "SETZ"},
{MSP430_OP_TST, "TST"},
/* MSP430X double operand (extension word) */
{MSP430_OP_MOVX, "MOVX"},
{MSP430_OP_ADDX, "ADDX"},
{MSP430_OP_ADDCX, "ADDCX"},
{MSP430_OP_SUBCX, "SUBCX"},
{MSP430_OP_SUBX, "SUBX"},
{MSP430_OP_CMPX, "CMPX"},
{MSP430_OP_DADDX, "DADDX"},
{MSP430_OP_BITX, "BITX"},
{MSP430_OP_BICX, "BICX"},
{MSP430_OP_BISX, "BISX"},
{MSP430_OP_XORX, "XORX"},
{MSP430_OP_ANDX, "ANDX"},
/* MSP430X single operand (extension word) */
{MSP430_OP_RRCX, "RRCX"},
{MSP430_OP_RRUX, "RRUX"},
{MSP430_OP_SWPBX, "SWPBX"},
{MSP430_OP_RRAX, "RRAX"},
{MSP430_OP_SXTX, "SXTX"},
{MSP430_OP_PUSHX, "PUSHX"},
/* MSP430X group 13xx */
{MSP430_OP_CALLA, "CALLA"},
/* MSP430X group 14xx */
{MSP430_OP_PUSHM, "PUSHM"},
{MSP430_OP_POPM, "POPM"},
/* MSP430X address instructions */
{MSP430_OP_MOVA, "MOVA"},
{MSP430_OP_CMPA, "CMPA"},
{MSP430_OP_SUBA, "SUBA"},
{MSP430_OP_ADDA, "ADDA"},
/* MSP430X group 00xx, non-address */
{MSP430_OP_RRCM, "RRCM"},
{MSP430_OP_RRAM, "RRAM"},
{MSP430_OP_RLAM, "RLAM"},
{MSP430_OP_RRUM, "RRUM"},
/* MSP430X emulated instructions */
{MSP430_OP_ADCX, "ADCX"},
{MSP430_OP_BRA, "BRA"},
{MSP430_OP_RETA, "RETA"},
{MSP430_OP_CLRX, "CLRX"},
{MSP430_OP_DADCX, "DADCX"},
{MSP430_OP_DECX, "DECX"},
{MSP430_OP_DECDA, "DECDA"},
{MSP430_OP_DECDX, "DECDX"},
{MSP430_OP_INCX, "INCX"},
{MSP430_OP_INCDA, "INCDA"},
{MSP430_OP_INVX, "INVX"},
{MSP430_OP_RLAX, "RLAX"},
{MSP430_OP_RLCX, "RLCX"},
{MSP430_OP_SECX, "SECX"},
{MSP430_OP_TSTA, "TSTA"},
{MSP430_OP_TSTX, "TSTX"},
{MSP430_OP_POPX, "POPX"},
{MSP430_OP_INCDX, "INCDX"}
};
/* Return the mnemonic for an operation, if possible. */
const char *dis_opcode_name(msp430_op_t op)
{
int i;
for (i = 0; i < ARRAY_LEN(opcode_names); i++)
if (op == opcode_names[i].op)
return opcode_names[i].mnemonic;
return NULL;
}
int dis_opcode_from_name(const char *name)
{
int i;
for (i = 0; i < ARRAY_LEN(opcode_names); i++)
if (!strcasecmp(name, opcode_names[i].mnemonic))
return opcode_names[i].op;
return -1;
}
static const char *const msp430_reg_names[] = {
"PC", "SP", "SR", "R3",
"R4", "R5", "R6", "R7",
"R8", "R9", "R10", "R11",
"R12", "R13", "R14", "R15"
};
int dis_reg_from_name(const char *name)
{
int i;
if (!strcasecmp(name, "pc"))
return 0;
if (!strcasecmp(name, "sp"))
return 1;
if (!strcasecmp(name, "sr"))
return 2;
if (toupper(*name) == 'R')
name++;
for (i = 0; name[i]; i++)
if (!isdigit(name[i]))
return -1;
i = atoi(name);
if (i < 0 || i > 15)
return -1;
return i;
}
const char *dis_reg_name(msp430_reg_t reg)
{
if (reg <= 15)
return msp430_reg_names[reg];
return NULL;
}