darling-gdb/opcodes/msp430-dis.c
Nick Clifton 77d66e7b30 Improve the MSP430 disassembler's handling of memory read errors.
PR target/20150
	* msp430-dis.c (msp430dis_read_two_bytes): New function.
	(msp430dis_opcode_unsigned): New function.
	(msp430dis_opcode_signed): New function.
	(msp430_singleoperand): Use the new opcode reading functions.
	Only disassenmble bytes if they were successfully read.
	(msp430_doubleoperand): Likewise.
	(msp430_branchinstr): Likewise.
	(msp430x_callx_instr): Likewise.
	(print_insn_msp430): Check that it is safe to read bytes before
	attempting disassembly.  Use the new opcode reading functions.
2016-05-27 13:49:58 +01:00

1357 lines
29 KiB
C

/* Disassemble MSP430 instructions.
Copyright (C) 2002-2016 Free Software Foundation, Inc.
Contributed by Dmitry Diky <diwil@mail.ru>
This file is part of the GNU opcodes library.
This library 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 3, or (at your option)
any later version.
It 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 Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
#include "sysdep.h"
#include <stdio.h>
#include <ctype.h>
#include <sys/types.h>
#include <errno.h>
#include "dis-asm.h"
#include "opintl.h"
#include "libiberty.h"
#define DASM_SECTION
#include "opcode/msp430.h"
#undef DASM_SECTION
#define PS(x) (0xffff & (x))
static bfd_boolean
msp430dis_read_two_bytes (bfd_vma addr,
disassemble_info * info,
bfd_byte * buffer,
char * comm)
{
int status;
status = info->read_memory_func (addr, buffer, 2, info);
if (status == 0)
return TRUE;
/* PR 20150: A status of EIO means that there were no more bytes left
to read in the current section. This can happen when disassembling
interrupt vectors for example. Avoid cluttering the output with
unhelpful error messages in this case. */
if (status == EIO)
{
if (comm)
sprintf (comm, _("Warning: disassembly unreliable - not enough bytes available"));
}
else
{
info->memory_error_func (status, addr, info);
if (comm)
sprintf (comm, _("Error: read from memory failed"));
}
return FALSE;
}
static bfd_boolean
msp430dis_opcode_unsigned (bfd_vma addr,
disassemble_info * info,
unsigned short * return_val,
char * comm)
{
bfd_byte buffer[2];
if (msp430dis_read_two_bytes (addr, info, buffer, comm))
{
* return_val = bfd_getl16 (buffer);
return TRUE;
}
else
{
* return_val = 0;
return FALSE;
}
}
static bfd_boolean
msp430dis_opcode_signed (bfd_vma addr,
disassemble_info * info,
signed int * return_val,
char * comm)
{
bfd_byte buffer[2];
if (msp430dis_read_two_bytes (addr, info, buffer, comm))
{
int status;
status = bfd_getl_signed_16 (buffer);
if (status & 0x8000)
status |= -1U << 16;
* return_val = status;
return TRUE;
}
else
{
* return_val = 0;
return FALSE;
}
}
static int
msp430_nooperands (struct msp430_opcode_s *opcode,
bfd_vma addr ATTRIBUTE_UNUSED,
unsigned short insn ATTRIBUTE_UNUSED,
char *comm,
int *cycles)
{
/* Pop with constant. */
if (insn == 0x43b2)
return 0;
if (insn == opcode->bin_opcode)
return 2;
if (opcode->fmt == 0)
{
if ((insn & 0x0f00) != 0x0300 || (insn & 0x0f00) != 0x0200)
return 0;
strcpy (comm, "emulated...");
*cycles = 1;
}
else
{
strcpy (comm, "return from interupt");
*cycles = 5;
}
return 2;
}
static int
print_as2_reg_name (int regno, char * op1, char * comm1,
int c2, int c3, int cd)
{
switch (regno)
{
case 2:
sprintf (op1, "#4");
sprintf (comm1, "r2 As==10");
return c2;
case 3:
sprintf (op1, "#2");
sprintf (comm1, "r3 As==10");
return c3;
default:
/* Indexed register mode @Rn. */
sprintf (op1, "@r%d", regno);
return cd;
}
}
static int
print_as3_reg_name (int regno, char * op1, char * comm1,
int c2, int c3, int cd)
{
switch (regno)
{
case 2:
sprintf (op1, "#8");
sprintf (comm1, "r2 As==11");
return c2;
case 3:
sprintf (op1, "#-1");
sprintf (comm1, "r3 As==11");
return c3;
default:
/* Post incremented @Rn+. */
sprintf (op1, "@r%d+", regno);
return cd;
}
}
static int
msp430_singleoperand (disassemble_info *info,
struct msp430_opcode_s *opcode,
bfd_vma addr,
unsigned short insn,
char *op,
char *comm,
unsigned short extension_word,
int *cycles)
{
int regs = 0, regd = 0;
int ad = 0, as = 0;
int where = 0;
int cmd_len = 2;
int dst = 0;
int fmt;
int extended_dst = extension_word & 0xf;
regd = insn & 0x0f;
regs = (insn & 0x0f00) >> 8;
as = (insn & 0x0030) >> 4;
ad = (insn & 0x0080) >> 7;
if (opcode->fmt < 0)
fmt = (- opcode->fmt) - 1;
else
fmt = opcode->fmt;
switch (fmt)
{
case 0: /* Emulated work with dst register. */
if (regs != 2 && regs != 3 && regs != 1)
return 0;
/* Check if not clr insn. */
if (opcode->bin_opcode == 0x4300 && (ad || as))
return 0;
/* Check if really inc, incd insns. */
if ((opcode->bin_opcode & 0xff00) == 0x5300 && as == 3)
return 0;
if (ad == 0)
{
*cycles = 1;
/* Register. */
if (regd == 0)
{
*cycles += 1;
sprintf (op, "r0");
}
else if (regd == 1)
sprintf (op, "r1");
else if (regd == 2)
sprintf (op, "r2");
else
sprintf (op, "r%d", regd);
}
else /* ad == 1 msp430dis_opcode. */
{
if (regd == 0)
{
/* PC relative. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm))
{
cmd_len += 2;
*cycles = 4;
sprintf (op, "0x%04x", dst);
sprintf (comm, "PC rel. abs addr 0x%04x",
PS ((short) (addr + 2) + dst));
if (extended_dst)
{
dst |= extended_dst << 16;
sprintf (op, "0x%05x", dst);
sprintf (comm, "PC rel. abs addr 0x%05lx",
(long)((addr + 2 + dst) & 0xfffff));
}
}
}
else if (regd == 2)
{
/* Absolute. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm))
{
cmd_len += 2;
*cycles = 4;
sprintf (op, "&0x%04x", PS (dst));
if (extended_dst)
{
dst |= extended_dst << 16;
sprintf (op, "&0x%05x", dst & 0xfffff);
}
}
}
else
{
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm))
{
cmd_len += 2;
*cycles = 4;
if (extended_dst)
{
dst |= extended_dst << 16;
if (dst & 0x80000)
dst |= -1U << 20;
}
sprintf (op, "%d(r%d)", dst, regd);
}
}
}
break;
case 2: /* rrc, push, call, swpb, rra, sxt, push, call, reti etc... */
if (as == 0)
{
if (regd == 3)
{
/* Constsnts. */
sprintf (op, "#0");
sprintf (comm, "r3 As==00");
}
else
{
/* Register. */
sprintf (op, "r%d", regd);
}
*cycles = 1;
}
else if (as == 2)
{
* cycles = print_as2_reg_name (regd, op, comm, 1, 1, 3);
}
else if (as == 3)
{
if (regd == 0)
{
*cycles = 3;
/* absolute. @pc+ */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm))
{
cmd_len += 2;
sprintf (op, "#%d", dst);
if (dst > 9 || dst < 0)
sprintf (comm, "#0x%04x", PS (dst));
if (extended_dst)
{
dst |= extended_dst << 16;
if (dst & 0x80000)
dst |= -1U << 20;
sprintf (op, "#%d", dst);
if (dst > 9 || dst < 0)
sprintf (comm, "#0x%05x", dst);
}
}
}
else
* cycles = print_as3_reg_name (regd, op, comm, 1, 1, 3);
}
else if (as == 1)
{
*cycles = 4;
if (regd == 0)
{
/* PC relative. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm))
{
cmd_len += 2;
sprintf (op, "0x%04x", PS (dst));
sprintf (comm, "PC rel. 0x%04x",
PS ((short) addr + 2 + dst));
if (extended_dst)
{
dst |= extended_dst << 16;
sprintf (op, "0x%05x", dst & 0xffff);
sprintf (comm, "PC rel. 0x%05lx",
(long)((addr + 2 + dst) & 0xfffff));
}
}
}
else if (regd == 2)
{
/* Absolute. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm))
{
cmd_len += 2;
sprintf (op, "&0x%04x", PS (dst));
if (extended_dst)
{
dst |= extended_dst << 16;
sprintf (op, "&0x%05x", dst & 0xfffff);
}
}
}
else if (regd == 3)
{
*cycles = 1;
sprintf (op, "#1");
sprintf (comm, "r3 As==01");
}
else
{
/* Indexed. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm))
{
cmd_len += 2;
if (extended_dst)
{
dst |= extended_dst << 16;
if (dst & 0x80000)
dst |= -1U << 20;
}
sprintf (op, "%d(r%d)", dst, regd);
if (dst > 9 || dst < 0)
sprintf (comm, "%05x", dst);
}
}
}
break;
case 3: /* Jumps. */
where = insn & 0x03ff;
if (where & 0x200)
where |= ~0x03ff;
if (where > 512 || where < -511)
return 0;
where *= 2;
sprintf (op, "$%+-8d", where + 2);
sprintf (comm, "abs 0x%lx", (long) (addr + 2 + where));
*cycles = 2;
return 2;
break;
default:
cmd_len = 0;
}
return cmd_len;
}
static int
msp430_doubleoperand (disassemble_info *info,
struct msp430_opcode_s *opcode,
bfd_vma addr,
unsigned short insn,
char *op1,
char *op2,
char *comm1,
char *comm2,
unsigned short extension_word,
int *cycles)
{
int regs = 0, regd = 0;
int ad = 0, as = 0;
int cmd_len = 2;
int dst = 0;
int fmt;
int extended_dst = extension_word & 0xf;
int extended_src = (extension_word >> 7) & 0xf;
regd = insn & 0x0f;
regs = (insn & 0x0f00) >> 8;
as = (insn & 0x0030) >> 4;
ad = (insn & 0x0080) >> 7;
if (opcode->fmt < 0)
fmt = (- opcode->fmt) - 1;
else
fmt = opcode->fmt;
if (fmt == 0)
{
/* Special case: rla and rlc are the only 2 emulated instructions that
fall into two operand instructions. */
/* With dst, there are only:
Rm Register,
x(Rm) Indexed,
0xXXXX Relative,
&0xXXXX Absolute
emulated_ins dst
basic_ins dst, dst. */
if (regd != regs || as != ad)
return 0; /* May be 'data' section. */
if (ad == 0)
{
/* Register mode. */
if (regd == 3)
{
strcpy (comm1, _("Warning: illegal as emulation instr"));
return -1;
}
sprintf (op1, "r%d", regd);
*cycles = 1;
}
else /* ad == 1 */
{
if (regd == 0)
{
/* PC relative, Symbolic. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
cmd_len += 4;
*cycles = 6;
sprintf (op1, "0x%04x", PS (dst));
sprintf (comm1, "PC rel. 0x%04x",
PS ((short) addr + 2 + dst));
if (extension_word)
{
dst |= extended_dst << 16;
if (dst & 0x80000)
dst |= -1U << 20;
sprintf (op1, "0x%05x", dst & 0xfffff);
sprintf (comm1, "PC rel. 0x%05lx",
(long)((addr + 2 + dst) & 0xfffff));
}
}
}
else if (regd == 2)
{
/* Absolute. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
int src;
/* If the 'src' field is not the same as the dst
then this is not an rla instruction. */
if (msp430dis_opcode_signed (addr + 4, info, &src, comm2))
{
if (src != dst)
return 0;
}
cmd_len += 4;
*cycles = 6;
sprintf (op1, "&0x%04x", PS (dst));
if (extension_word)
{
dst |= extended_dst << 16;
sprintf (op1, "&0x%05x", dst & 0xfffff);
}
}
}
else
{
/* Indexed. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
if (extension_word)
{
dst |= extended_dst << 16;
if (dst & 0x80000)
dst |= -1U << 20;
}
cmd_len += 4;
*cycles = 6;
sprintf (op1, "%d(r%d)", dst, regd);
if (dst > 9 || dst < -9)
sprintf (comm1, "#0x%05x", dst);
}
}
}
*op2 = 0;
*comm2 = 0;
return cmd_len;
}
/* Two operands exactly. */
if (ad == 0 && regd == 3)
{
/* R2/R3 are illegal as dest: may be data section. */
strcpy (comm1, _("Warning: illegal as 2-op instr"));
return -1;
}
/* Source. */
if (as == 0)
{
*cycles = 1;
if (regs == 3)
{
/* Constants. */
sprintf (op1, "#0");
sprintf (comm1, "r3 As==00");
}
else
{
/* Register. */
sprintf (op1, "r%d", regs);
}
}
else if (as == 2)
{
* cycles = print_as2_reg_name (regs, op1, comm1, 1, 1, regs == 0 ? 3 : 2);
}
else if (as == 3)
{
if (regs == 0)
{
*cycles = 3;
/* Absolute. @pc+. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
cmd_len += 2;
sprintf (op1, "#%d", dst);
if (dst > 9 || dst < 0)
sprintf (comm1, "#0x%04x", PS (dst));
if (extension_word)
{
dst &= 0xffff;
dst |= extended_src << 16;
if (dst & 0x80000)
dst |= -1U << 20;
sprintf (op1, "#%d", dst);
if (dst > 9 || dst < 0)
sprintf (comm1, "0x%05x", dst & 0xfffff);
}
}
}
else
* cycles = print_as3_reg_name (regs, op1, comm1, 1, 1, 2);
}
else if (as == 1)
{
if (regs == 0)
{
*cycles = 4;
/* PC relative. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
cmd_len += 2;
sprintf (op1, "0x%04x", PS (dst));
sprintf (comm1, "PC rel. 0x%04x",
PS ((short) addr + 2 + dst));
if (extension_word)
{
dst &= 0xffff;
dst |= extended_src << 16;
if (dst & 0x80000)
dst |= -1U << 20;
sprintf (op1, "0x%05x", dst & 0xfffff);
sprintf (comm1, "PC rel. 0x%05lx",
(long) ((addr + 2 + dst) & 0xfffff));
}
}
}
else if (regs == 2)
{
*cycles = 2;
/* Absolute. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
cmd_len += 2;
sprintf (op1, "&0x%04x", PS (dst));
sprintf (comm1, "0x%04x", PS (dst));
if (extension_word)
{
dst &= 0xffff;
dst |= extended_src << 16;
sprintf (op1, "&0x%05x", dst & 0xfffff);
* comm1 = 0;
}
}
}
else if (regs == 3)
{
*cycles = 1;
sprintf (op1, "#1");
sprintf (comm1, "r3 As==01");
}
else
{
*cycles = 3;
/* Indexed. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
cmd_len += 2;
if (extension_word)
{
dst &= 0xffff;
dst |= extended_src << 16;
if (dst & 0x80000)
dst |= -1U << 20;
}
sprintf (op1, "%d(r%d)", dst, regs);
if (dst > 9 || dst < -9)
sprintf (comm1, "0x%05x", dst);
}
}
}
/* Destination. Special care needed on addr + XXXX. */
if (ad == 0)
{
/* Register. */
if (regd == 0)
{
*cycles += 1;
sprintf (op2, "r0");
}
else if (regd == 1)
sprintf (op2, "r1");
else if (regd == 2)
sprintf (op2, "r2");
else
sprintf (op2, "r%d", regd);
}
else /* ad == 1. */
{
* cycles += 3;
if (regd == 0)
{
/* PC relative. */
*cycles += 1;
if (msp430dis_opcode_signed (addr + cmd_len, info, &dst, comm2))
{
sprintf (op2, "0x%04x", PS (dst));
sprintf (comm2, "PC rel. 0x%04x",
PS ((short) addr + cmd_len + dst));
if (extension_word)
{
dst |= extended_dst << 16;
if (dst & 0x80000)
dst |= -1U << 20;
sprintf (op2, "0x%05x", dst & 0xfffff);
sprintf (comm2, "PC rel. 0x%05lx",
(long)((addr + cmd_len + dst) & 0xfffff));
}
}
cmd_len += 2;
}
else if (regd == 2)
{
/* Absolute. */
if (msp430dis_opcode_signed (addr + cmd_len, info, &dst, comm2))
{
cmd_len += 2;
sprintf (op2, "&0x%04x", PS (dst));
if (extension_word)
{
dst |= extended_dst << 16;
sprintf (op2, "&0x%05x", dst & 0xfffff);
}
}
}
else
{
if (msp430dis_opcode_signed (addr + cmd_len, info, &dst, comm2))
{
cmd_len += 2;
if (dst > 9 || dst < 0)
sprintf (comm2, "0x%04x", PS (dst));
if (extension_word)
{
dst |= extended_dst << 16;
if (dst & 0x80000)
dst |= -1U << 20;
if (dst > 9 || dst < 0)
sprintf (comm2, "0x%05x", dst & 0xfffff);
}
sprintf (op2, "%d(r%d)", dst, regd);
}
}
}
return cmd_len;
}
static int
msp430_branchinstr (disassemble_info *info,
struct msp430_opcode_s *opcode ATTRIBUTE_UNUSED,
bfd_vma addr ATTRIBUTE_UNUSED,
unsigned short insn,
char *op1,
char *comm1,
int *cycles)
{
int regs = 0, regd = 0;
int as = 0;
int cmd_len = 2;
int dst = 0;
unsigned short udst = 0;
regd = insn & 0x0f;
regs = (insn & 0x0f00) >> 8;
as = (insn & 0x0030) >> 4;
if (regd != 0) /* Destination register is not a PC. */
return 0;
/* dst is a source register. */
if (as == 0)
{
/* Constants. */
if (regs == 3)
{
*cycles = 1;
sprintf (op1, "#0");
sprintf (comm1, "r3 As==00");
}
else
{
/* Register. */
*cycles = 1;
sprintf (op1, "r%d", regs);
}
}
else if (as == 2)
{
* cycles = print_as2_reg_name (regs, op1, comm1, 2, 1, 2);
}
else if (as == 3)
{
if (regs == 0)
{
/* Absolute. @pc+ */
*cycles = 3;
if (msp430dis_opcode_unsigned (addr + 2, info, &udst, comm1))
{
cmd_len += 2;
sprintf (op1, "#0x%04x", PS (udst));
}
}
else
* cycles = print_as3_reg_name (regs, op1, comm1, 1, 1, 2);
}
else if (as == 1)
{
* cycles = 3;
if (regs == 0)
{
/* PC relative. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
cmd_len += 2;
(*cycles)++;
sprintf (op1, "0x%04x", PS (dst));
sprintf (comm1, "PC rel. 0x%04x",
PS ((short) addr + 2 + dst));
}
}
else if (regs == 2)
{
/* Absolute. */
if (msp430dis_opcode_unsigned (addr + 2, info, &udst, comm1))
{
cmd_len += 2;
sprintf (op1, "&0x%04x", PS (udst));
}
}
else if (regs == 3)
{
(*cycles)--;
sprintf (op1, "#1");
sprintf (comm1, "r3 As==01");
}
else
{
/* Indexed. */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
cmd_len += 2;
sprintf (op1, "%d(r%d)", dst, regs);
}
}
}
return cmd_len;
}
static int
msp430x_calla_instr (disassemble_info * info,
bfd_vma addr,
unsigned short insn,
char * op1,
char * comm1,
int * cycles)
{
unsigned int ureg = insn & 0xf;
int reg = insn & 0xf;
int am = (insn & 0xf0) >> 4;
int cmd_len = 2;
unsigned short udst = 0;
int dst = 0;
switch (am)
{
case 4: /* CALLA Rdst */
*cycles = 1;
sprintf (op1, "r%d", reg);
break;
case 5: /* CALLA x(Rdst) */
*cycles = 3;
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
cmd_len += 2;
sprintf (op1, "%d(r%d)", dst, reg);
if (reg == 0)
sprintf (comm1, "PC rel. 0x%05lx", (long) (addr + 2 + dst));
else
sprintf (comm1, "0x%05x", dst);
}
break;
case 6: /* CALLA @Rdst */
*cycles = 2;
sprintf (op1, "@r%d", reg);
break;
case 7: /* CALLA @Rdst+ */
*cycles = 2;
sprintf (op1, "@r%d+", reg);
break;
case 8: /* CALLA &abs20 */
if (msp430dis_opcode_unsigned (addr + 2, info, &udst, comm1))
{
cmd_len += 2;
*cycles = 4;
sprintf (op1, "&%d", (ureg << 16) + udst);
sprintf (comm1, "0x%05x", (ureg << 16) + udst);
}
break;
case 9: /* CALLA pcrel-sym */
if (msp430dis_opcode_signed (addr + 2, info, &dst, comm1))
{
cmd_len += 2;
*cycles = 4;
sprintf (op1, "%d(PC)", (reg << 16) + dst);
sprintf (comm1, "PC rel. 0x%05lx",
(long) (addr + 2 + dst + (reg << 16)));
}
break;
case 11: /* CALLA #imm20 */
if (msp430dis_opcode_unsigned (addr + 2, info, &udst, comm1))
{
cmd_len += 2;
*cycles = 4;
sprintf (op1, "#%d", (ureg << 16) + udst);
sprintf (comm1, "0x%05x", (ureg << 16) + udst);
}
break;
default:
strcpy (comm1, _("Warning: unrecognised CALLA addressing mode"));
return -1;
}
return cmd_len;
}
int
print_insn_msp430 (bfd_vma addr, disassemble_info *info)
{
void *stream = info->stream;
fprintf_ftype prin = info->fprintf_func;
struct msp430_opcode_s *opcode;
char op1[32], op2[32], comm1[64], comm2[64];
int cmd_len = 0;
unsigned short insn;
int cycles = 0;
char *bc = "";
unsigned short extension_word = 0;
unsigned short bits;
if (! msp430dis_opcode_unsigned (addr, info, &insn, NULL))
{
prin (stream, ".word 0xffff; ????");
return 2;
}
if (((int) addr & 0xffff) > 0xffdf)
{
(*prin) (stream, "interrupt service routine at 0x%04x", 0xffff & insn);
return 2;
}
*comm1 = 0;
*comm2 = 0;
/* Check for an extension word. */
if ((insn & 0xf800) == 0x1800)
{
extension_word = insn;
addr += 2;
if (! msp430dis_opcode_unsigned (addr, info, &insn, NULL))
{
prin (stream, ".word 0x%04x, 0xffff; ????",
extension_word);
return 4;
}
}
for (opcode = msp430_opcodes; opcode->name; opcode++)
{
if ((insn & opcode->bin_mask) == opcode->bin_opcode
&& opcode->bin_opcode != 0x9300)
{
*op1 = 0;
*op2 = 0;
*comm1 = 0;
*comm2 = 0;
/* r0 as destination. Ad should be zero. */
if (opcode->insn_opnumb == 3
&& (insn & 0x000f) == 0
&& (insn & 0x0080) == 0)
{
cmd_len +=
msp430_branchinstr (info, opcode, addr, insn, op1, comm1,
&cycles);
if (cmd_len)
break;
}
switch (opcode->insn_opnumb)
{
int n;
int reg;
case 4:
cmd_len += msp430x_calla_instr (info, addr, insn,
op1, comm1, & cycles);
break;
case 5: /* PUSHM/POPM */
n = (insn & 0xf0) >> 4;
reg = (insn & 0xf);
sprintf (op1, "#%d", n + 1);
if (opcode->bin_opcode == 0x1400)
/* PUSHM */
sprintf (op2, "r%d", reg);
else
/* POPM */
sprintf (op2, "r%d", reg + n);
if (insn & 0x100)
sprintf (comm1, "16-bit words");
else
{
sprintf (comm1, "20-bit words");
bc =".a";
}
cycles = 2; /*FIXME*/
cmd_len = 2;
break;
case 6: /* RRAM, RRCM, RRUM, RLAM. */
n = ((insn >> 10) & 0x3) + 1;
reg = (insn & 0xf);
if ((insn & 0x10) == 0)
bc =".a";
sprintf (op1, "#%d", n);
sprintf (op2, "r%d", reg);
cycles = 2; /*FIXME*/
cmd_len = 2;
break;
case 8: /* ADDA, CMPA, SUBA. */
reg = (insn & 0xf);
n = (insn >> 8) & 0xf;
if (insn & 0x40)
{
sprintf (op1, "r%d", n);
cmd_len = 2;
}
else
{
n <<= 16;
if (msp430dis_opcode_unsigned (addr + 2, info, &bits, comm1))
{
n |= bits;
sprintf (op1, "#%d", n);
if (n > 9 || n < 0)
sprintf (comm1, "0x%05x", n);
}
cmd_len = 4;
}
sprintf (op2, "r%d", reg);
cycles = 2; /*FIXME*/
break;
case 9: /* MOVA */
reg = (insn & 0xf);
n = (insn >> 8) & 0xf;
switch ((insn >> 4) & 0xf)
{
case 0: /* MOVA @Rsrc, Rdst */
cmd_len = 2;
sprintf (op1, "@r%d", n);
if (strcmp (opcode->name, "bra") != 0)
sprintf (op2, "r%d", reg);
break;
case 1: /* MOVA @Rsrc+, Rdst */
cmd_len = 2;
if (strcmp (opcode->name, "reta") != 0)
{
sprintf (op1, "@r%d+", n);
if (strcmp (opcode->name, "bra") != 0)
sprintf (op2, "r%d", reg);
}
break;
case 2: /* MOVA &abs20, Rdst */
cmd_len = 4;
n <<= 16;
if (msp430dis_opcode_unsigned (addr + 2, info, &bits, comm1))
{
n |= bits;
sprintf (op1, "&%d", n);
if (n > 9 || n < 0)
sprintf (comm1, "0x%05x", n);
if (strcmp (opcode->name, "bra") != 0)
sprintf (op2, "r%d", reg);
}
break;
case 3: /* MOVA x(Rsrc), Rdst */
cmd_len = 4;
if (strcmp (opcode->name, "bra") != 0)
sprintf (op2, "r%d", reg);
reg = n;
if (msp430dis_opcode_signed (addr + 2, info, &n, comm1))
{
sprintf (op1, "%d(r%d)", n, reg);
if (n > 9 || n < 0)
{
if (reg == 0)
sprintf (comm1, "PC rel. 0x%05lx",
(long) (addr + 2 + n));
else
sprintf (comm1, "0x%05x", n);
}
}
break;
case 6: /* MOVA Rsrc, &abs20 */
cmd_len = 4;
reg <<= 16;
if (msp430dis_opcode_unsigned (addr + 2, info, &bits, comm2))
{
reg |= bits;
sprintf (op1, "r%d", n);
sprintf (op2, "&%d", reg);
if (reg > 9 || reg < 0)
sprintf (comm2, "0x%05x", reg);
}
break;
case 7: /* MOVA Rsrc, x(Rdst) */
cmd_len = 4;
sprintf (op1, "r%d", n);
if (msp430dis_opcode_signed (addr + 2, info, &n, comm2))
{
sprintf (op2, "%d(r%d)", n, reg);
if (n > 9 || n < 0)
{
if (reg == 0)
sprintf (comm2, "PC rel. 0x%05lx",
(long) (addr + 2 + n));
else
sprintf (comm2, "0x%05x", n);
}
}
break;
case 8: /* MOVA #imm20, Rdst */
cmd_len = 4;
n <<= 16;
if (msp430dis_opcode_unsigned (addr + 2, info, &bits, comm1))
{
n |= bits;
if (n & 0x80000)
n |= -1U << 20;
sprintf (op1, "#%d", n);
if (n > 9 || n < 0)
sprintf (comm1, "0x%05x", n);
if (strcmp (opcode->name, "bra") != 0)
sprintf (op2, "r%d", reg);
}
break;
case 12: /* MOVA Rsrc, Rdst */
cmd_len = 2;
sprintf (op1, "r%d", n);
if (strcmp (opcode->name, "bra") != 0)
sprintf (op2, "r%d", reg);
break;
default:
break;
}
cycles = 2; /* FIXME */
break;
}
if (cmd_len)
break;
switch (opcode->insn_opnumb)
{
case 0:
cmd_len += msp430_nooperands (opcode, addr, insn, comm1, &cycles);
break;
case 2:
cmd_len +=
msp430_doubleoperand (info, opcode, addr, insn, op1, op2,
comm1, comm2,
extension_word,
&cycles);
if (insn & BYTE_OPERATION)
{
if (extension_word != 0 && ((extension_word & BYTE_OPERATION) == 0))
bc = ".a";
else
bc = ".b";
}
else if (extension_word)
{
if (extension_word & BYTE_OPERATION)
bc = ".w";
else
{
bc = ".?";
sprintf (comm2, _("Warning: reserved use of A/L and B/W bits detected"));
}
}
break;
case 1:
cmd_len +=
msp430_singleoperand (info, opcode, addr, insn, op1, comm1,
extension_word,
&cycles);
if (extension_word
&& (strcmp (opcode->name, "swpb") == 0
|| strcmp (opcode->name, "sxt") == 0))
{
if (insn & BYTE_OPERATION)
{
bc = ".?";
sprintf (comm2, _("Warning: reserved use of A/L and B/W bits detected"));
}
else if (extension_word & BYTE_OPERATION)
bc = ".w";
else
bc = ".a";
}
else if (insn & BYTE_OPERATION && opcode->fmt != 3)
{
if (extension_word != 0 && ((extension_word & BYTE_OPERATION) == 0))
bc = ".a";
else
bc = ".b";
}
else if (extension_word)
{
if (extension_word & (1 << 6))
bc = ".w";
else
{
bc = ".?";
sprintf (comm2, _("Warning: reserved use of A/L and B/W bits detected"));
}
}
break;
default:
break;
}
}
if (cmd_len)
break;
}
if (cmd_len < 1)
{
/* Unknown opcode, or invalid combination of operands. */
if (extension_word)
{
prin (stream, ".word 0x%04x, 0x%04x; ????", extension_word, PS (insn));
if (*comm1)
prin (stream, "\t %s", comm1);
return 4;
}
(*prin) (stream, ".word 0x%04x; ????", PS (insn));
return 2;
}
/* Display the repeat count (if set) for extended register mode. */
if (cmd_len == 2 && ((extension_word & 0xf) != 0))
{
if (extension_word & (1 << 7))
prin (stream, "rpt r%d { ", extension_word & 0xf);
else
prin (stream, "rpt #%d { ", (extension_word & 0xf) + 1);
}
/* Special case: RRC with an extension word and the ZC bit set is actually RRU. */
if (extension_word
&& (extension_word & IGNORE_CARRY_BIT)
&& strcmp (opcode->name, "rrc") == 0)
(*prin) (stream, "rrux%s", bc);
else if (extension_word && opcode->name[strlen (opcode->name) - 1] != 'x')
(*prin) (stream, "%sx%s", opcode->name, bc);
else
(*prin) (stream, "%s%s", opcode->name, bc);
if (*op1)
(*prin) (stream, "\t%s", op1);
if (*op2)
(*prin) (stream, ",");
if (strlen (op1) < 7)
(*prin) (stream, "\t");
if (!strlen (op1))
(*prin) (stream, "\t");
if (*op2)
(*prin) (stream, "%s", op2);
if (strlen (op2) < 8)
(*prin) (stream, "\t");
if (*comm1 || *comm2)
(*prin) (stream, ";");
else if (cycles)
{
if (*op2)
(*prin) (stream, ";");
else
{
if (strlen (op1) < 7)
(*prin) (stream, ";");
else
(*prin) (stream, "\t;");
}
}
if (*comm1)
(*prin) (stream, "%s", comm1);
if (*comm1 && *comm2)
(*prin) (stream, ",");
if (*comm2)
(*prin) (stream, " %s", comm2);
if (extension_word)
cmd_len += 2;
return cmd_len;
}