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[/] [openrisc/] [trunk/] [gnu-stable/] [gdb-7.2/] [opcodes/] [microblaze-dis.c] - Rev 841

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/* Disassemble Xilinx microblaze instructions.
 
   Copyright 2009 Free Software Foundation, Inc.
 
   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 file; see the file COPYING.  If not, write to the
   Free Software Foundation, 51 Franklin Street - Fifth Floor, Boston,
   MA 02110-1301, USA.  */
 
 
#include "sysdep.h"
#define STATIC_TABLE
#define DEFINE_TABLE
 
#include "dis-asm.h"
#include <strings.h>
#include "microblaze-opc.h"
#include "microblaze-dis.h"
 
#define get_field_rd(instr)        get_field (instr, RD_MASK, RD_LOW)
#define get_field_r1(instr)        get_field (instr, RA_MASK, RA_LOW)
#define get_field_r2(instr)        get_field (instr, RB_MASK, RB_LOW)
#define get_int_field_imm(instr)   ((instr & IMM_MASK) >> IMM_LOW)
#define get_int_field_r1(instr)    ((instr & RA_MASK) >> RA_LOW)
 
 
 
static char *
get_field (long instr, long mask, unsigned short low)
{
  char tmpstr[25];
 
  sprintf (tmpstr, "%s%d", register_prefix, (int)((instr & mask) >> low));
  return (strdup (tmpstr));
}
 
static char *
get_field_imm (long instr)
{
  char tmpstr[25];
 
  sprintf (tmpstr, "%d", (short)((instr & IMM_MASK) >> IMM_LOW));
  return (strdup (tmpstr));
}
 
static char *
get_field_imm5 (long instr)
{
  char tmpstr[25];
 
  sprintf (tmpstr, "%d", (short)((instr & IMM5_MASK) >> IMM_LOW));
  return (strdup (tmpstr));
}
 
static char *
get_field_rfsl (long instr)
{
  char tmpstr[25];
 
  sprintf (tmpstr, "%s%d", fsl_register_prefix,
	   (short)((instr & RFSL_MASK) >> IMM_LOW));
  return (strdup (tmpstr));
}
 
static char *
get_field_imm15 (long instr)
{
  char tmpstr[25];
 
  sprintf (tmpstr, "%d", (short)((instr & IMM15_MASK) >> IMM_LOW));
  return (strdup (tmpstr));
}
 
static char *
get_field_special (long instr, struct op_code_struct * op)
{
  char tmpstr[25];
  char spr[6];
 
  switch ((((instr & IMM_MASK) >> IMM_LOW) ^ op->immval_mask))
    {
    case REG_MSR_MASK :
      strcpy (spr, "msr");
      break;
    case REG_PC_MASK :
      strcpy (spr, "pc");
      break;
    case REG_EAR_MASK :
      strcpy (spr, "ear");
      break;
    case REG_ESR_MASK :
      strcpy (spr, "esr");
      break;
    case REG_FSR_MASK :
      strcpy (spr, "fsr");
      break;
    case REG_BTR_MASK :
      strcpy (spr, "btr");
      break;
    case REG_EDR_MASK :
      strcpy (spr, "edr");
      break;
    case REG_PID_MASK :
      strcpy (spr, "pid");
      break;
    case REG_ZPR_MASK :
      strcpy (spr, "zpr");
      break;
    case REG_TLBX_MASK :
      strcpy (spr, "tlbx");
      break;
    case REG_TLBLO_MASK :
      strcpy (spr, "tlblo");
      break;
    case REG_TLBHI_MASK :
      strcpy (spr, "tlbhi");
      break;
    case REG_TLBSX_MASK :
      strcpy (spr, "tlbsx");
      break;
    default :
      if (((((instr & IMM_MASK) >> IMM_LOW) ^ op->immval_mask) & 0xE000)
          == REG_PVR_MASK)
        {
	  sprintf (tmpstr, "%spvr%d", register_prefix,
		   (unsigned short)(((instr & IMM_MASK) >> IMM_LOW)
                                    ^ op->immval_mask) ^ REG_PVR_MASK);
	  return (strdup (tmpstr));
        }
      else
        strcpy (spr, "pc");
      break;
    }
 
   sprintf (tmpstr, "%s%s", register_prefix, spr);
   return (strdup (tmpstr));
}
 
static unsigned long
read_insn_microblaze (bfd_vma memaddr,
		      struct disassemble_info *info,
		      struct op_code_struct **opr)
{
  unsigned char       ibytes[4];
  int                 status;
  struct op_code_struct * op;
  unsigned long inst;
 
  status = info->read_memory_func (memaddr, ibytes, 4, info);
 
  if (status != 0)
    {
      info->memory_error_func (status, memaddr, info);
      return 0;
    }
 
  if (info->endian == BFD_ENDIAN_BIG)
    inst = (ibytes[0] << 24) | (ibytes[1] << 16) | (ibytes[2] << 8) | ibytes[3];
  else if (info->endian == BFD_ENDIAN_LITTLE)
    inst = (ibytes[3] << 24) | (ibytes[2] << 16) | (ibytes[1] << 8) | ibytes[0];
  else
    abort ();
 
  /* Just a linear search of the table.  */
  for (op = opcodes; op->name != 0; op ++)
    if (op->bit_sequence == (inst & op->opcode_mask))
      break;
 
  *opr = op;
  return inst;
}
 
 
int
print_insn_microblaze (bfd_vma memaddr, struct disassemble_info * info)
{
  fprintf_ftype       print_func = info->fprintf_func;
  void *              stream = info->stream;
  unsigned long       inst, prev_inst;
  struct op_code_struct * op, *pop;
  int                 immval = 0;
  bfd_boolean         immfound = FALSE;
  static bfd_vma      prev_insn_addr = -1; /* Init the prev insn addr.  */
  static int          prev_insn_vma = -1;  /* Init the prev insn vma.  */
  int                 curr_insn_vma = info->buffer_vma;
 
  info->bytes_per_chunk = 4;
 
  inst = read_insn_microblaze (memaddr, info, &op);
  if (inst == 0)
    return -1;
 
  if (prev_insn_vma == curr_insn_vma)
    {
      if (memaddr-(info->bytes_per_chunk) == prev_insn_addr)
        {
          prev_inst = read_insn_microblaze (prev_insn_addr, info, &pop);
	  if (prev_inst == 0)
	    return -1;
	  if (pop->instr == imm)
	    {
	      immval = (get_int_field_imm (prev_inst) << 16) & 0xffff0000;
	      immfound = TRUE;
	    }
	  else
	    {
	      immval = 0;
	      immfound = FALSE;
	    }
	}
    }
 
  /* Make curr insn as prev insn.  */
  prev_insn_addr = memaddr;
  prev_insn_vma = curr_insn_vma;
 
  if (op->name == NULL)
    print_func (stream, ".short 0x%04x", inst);
  else
    {
      print_func (stream, "%s", op->name);
 
      switch (op->inst_type)
	{
        case INST_TYPE_RD_R1_R2:
          print_func (stream, "\t%s, %s, %s", get_field_rd (inst),
		   get_field_r1(inst), get_field_r2 (inst));
          break;
        case INST_TYPE_RD_R1_IMM:
	  print_func (stream, "\t%s, %s, %s", get_field_rd (inst),
		   get_field_r1(inst), get_field_imm (inst));
	  if (info->print_address_func && get_int_field_r1 (inst) == 0
	      && info->symbol_at_address_func)
	    {
	      if (immfound)
	        immval |= (get_int_field_imm (inst) & 0x0000ffff);
	      else
		{
	          immval = get_int_field_imm (inst);
	          if (immval & 0x8000)
		    immval |= 0xFFFF0000;
	        }
	      if (immval > 0 && info->symbol_at_address_func (immval, info))
		{
	          print_func (stream, "\t// ");
	          info->print_address_func (immval, info);
	        }
	    }
	  break;
	case INST_TYPE_RD_R1_IMM5:
	  print_func (stream, "\t%s, %s, %s", get_field_rd (inst),
	           get_field_r1(inst), get_field_imm5 (inst));
	  break;
	case INST_TYPE_RD_RFSL:
	  print_func (stream, "\t%s, %s", get_field_rd (inst), get_field_rfsl (inst));
	  break;
	case INST_TYPE_R1_RFSL:
	  print_func (stream, "\t%s, %s", get_field_r1 (inst), get_field_rfsl (inst));
	  break;
	case INST_TYPE_RD_SPECIAL:
	  print_func (stream, "\t%s, %s", get_field_rd (inst),
		   get_field_special (inst, op));
	  break;
	case INST_TYPE_SPECIAL_R1:
	  print_func (stream, "\t%s, %s", get_field_special (inst, op),
		   get_field_r1(inst));
	  break;
	case INST_TYPE_RD_R1:
	  print_func (stream, "\t%s, %s", get_field_rd (inst), get_field_r1 (inst));
	  break;
	case INST_TYPE_R1_R2:
	  print_func (stream, "\t%s, %s", get_field_r1 (inst), get_field_r2 (inst));
	  break;
	case INST_TYPE_R1_IMM:
	  print_func (stream, "\t%s, %s", get_field_r1 (inst), get_field_imm (inst));
	  /* The non-pc relative instructions are returns, which shouldn't
	     have a label printed.  */
	  if (info->print_address_func && op->inst_offset_type == INST_PC_OFFSET
	      && info->symbol_at_address_func)
	    {
	      if (immfound)
	        immval |= (get_int_field_imm (inst) & 0x0000ffff);
	      else
		{
	          immval = get_int_field_imm (inst);
	          if (immval & 0x8000)
		    immval |= 0xFFFF0000;
	        }
	      immval += memaddr;
	      if (immval > 0 && info->symbol_at_address_func (immval, info))
		{
	          print_func (stream, "\t// ");
	          info->print_address_func (immval, info);
	        }
	      else
		{
	          print_func (stream, "\t\t// ");
	          print_func (stream, "%x", immval);
	        }
	    }
	  break;
        case INST_TYPE_RD_IMM:
	  print_func (stream, "\t%s, %s", get_field_rd (inst), get_field_imm (inst));
	  if (info->print_address_func && info->symbol_at_address_func)
	    {
	    if (immfound)
	      immval |= (get_int_field_imm (inst) & 0x0000ffff);
	    else
	      {
	        immval = get_int_field_imm (inst);
	        if (immval & 0x8000)
		  immval |= 0xFFFF0000;
	      }
	    if (op->inst_offset_type == INST_PC_OFFSET)
	      immval += (int) memaddr;
	    if (info->symbol_at_address_func (immval, info))
	      {
	        print_func (stream, "\t// ");
	        info->print_address_func (immval, info);
	      }
	    }
	  break;
        case INST_TYPE_IMM:
	  print_func (stream, "\t%s", get_field_imm (inst));
	  if (info->print_address_func && info->symbol_at_address_func
	      && op->instr != imm)
	    {
	      if (immfound)
	        immval |= (get_int_field_imm (inst) & 0x0000ffff);
	      else
		{
	          immval = get_int_field_imm (inst);
	          if (immval & 0x8000)
		    immval |= 0xFFFF0000;
	        }
	      if (op->inst_offset_type == INST_PC_OFFSET)
	        immval += (int) memaddr;
	      if (immval > 0 && info->symbol_at_address_func (immval, info))
		{
	          print_func (stream, "\t// ");
	          info->print_address_func (immval, info);
	        }
	      else if (op->inst_offset_type == INST_PC_OFFSET)
		{
	          print_func (stream, "\t\t// ");
	          print_func (stream, "%x", immval);
	        }
	    }
	  break;
        case INST_TYPE_RD_R2:
	  print_func (stream, "\t%s, %s", get_field_rd (inst), get_field_r2 (inst));
	  break;
	case INST_TYPE_R2:
	  print_func (stream, "\t%s", get_field_r2 (inst));
	  break;
	case INST_TYPE_R1:
	  print_func (stream, "\t%s", get_field_r1 (inst));
	  break;
	case INST_TYPE_RD_R1_SPECIAL:
	  print_func (stream, "\t%s, %s", get_field_rd (inst), get_field_r2 (inst));
	  break;
	case INST_TYPE_RD_IMM15:
	  print_func (stream, "\t%s, %s", get_field_rd (inst), get_field_imm15 (inst));
	  break;
	/* For tuqula instruction */
	case INST_TYPE_RD:
	  print_func (stream, "\t%s", get_field_rd (inst));
	  break;
	case INST_TYPE_RFSL:
	  print_func (stream, "\t%s", get_field_rfsl (inst));
	  break;
	default:
	  /* If the disassembler lags the instruction set.  */
	  print_func (stream, "\tundecoded operands, inst is 0x%04x", inst);
	  break;
	}
    }
 
  /* Say how many bytes we consumed.  */
  return 4;
}
 
enum microblaze_instr
get_insn_microblaze (long inst,
  		     bfd_boolean *isunsignedimm,
  		     enum microblaze_instr_type *insn_type,
  		     short *delay_slots)
{
  struct op_code_struct * op;
  *isunsignedimm = FALSE;
 
  /* Just a linear search of the table.  */
  for (op = opcodes; op->name != 0; op ++)
    if (op->bit_sequence == (inst & op->opcode_mask))
      break;
 
  if (op->name == 0)
    return invalid_inst;
  else
    {
      *isunsignedimm = (op->inst_type == INST_TYPE_RD_R1_UNSIGNED_IMM);
      *insn_type = op->instr_type;
      *delay_slots = op->delay_slots;
      return op->instr;
    }
}
 
enum microblaze_instr
microblaze_decode_insn (long insn, int *rd, int *ra, int *rb, int *immed)
{
  enum microblaze_instr op;
  bfd_boolean t1;
  enum microblaze_instr_type t2;
  short t3;
 
  op = get_insn_microblaze (insn, &t1, &t2, &t3);
  *rd = (insn & RD_MASK) >> RD_LOW;
  *ra = (insn & RA_MASK) >> RA_LOW;
  *rb = (insn & RB_MASK) >> RB_LOW;
  t3 = (insn & IMM_MASK) >> IMM_LOW;
  *immed = (int) t3;
  return (op);
}
 
unsigned long
microblaze_get_target_address (long inst, bfd_boolean immfound, int immval,
			       long pcval, long r1val, long r2val,
			       bfd_boolean *targetvalid,
			       bfd_boolean *unconditionalbranch)
{
  struct op_code_struct * op;
  long targetaddr = 0;
 
  *unconditionalbranch = FALSE;
  /* Just a linear search of the table.  */
  for (op = opcodes; op->name != 0; op ++)
    if (op->bit_sequence == (inst & op->opcode_mask))
      break;
 
  if (op->name == 0)
    {
      *targetvalid = FALSE;
    }
  else if (op->instr_type == branch_inst)
    {
      switch (op->inst_type)
	{
        case INST_TYPE_R2:
          *unconditionalbranch = TRUE;
        /* Fall through.  */
        case INST_TYPE_RD_R2:
        case INST_TYPE_R1_R2:
          targetaddr = r2val;
          *targetvalid = TRUE;
          if (op->inst_offset_type == INST_PC_OFFSET)
	    targetaddr += pcval;
          break;
        case INST_TYPE_IMM:
          *unconditionalbranch = TRUE;
        /* Fall through.  */
        case INST_TYPE_RD_IMM:
        case INST_TYPE_R1_IMM:
          if (immfound)
	    {
	      targetaddr = (immval << 16) & 0xffff0000;
	      targetaddr |= (get_int_field_imm (inst) & 0x0000ffff);
	    }
	  else
	    {
	      targetaddr = get_int_field_imm (inst);
	      if (targetaddr & 0x8000)
	        targetaddr |= 0xFFFF0000;
            }
          if (op->inst_offset_type == INST_PC_OFFSET)
	    targetaddr += pcval;
          *targetvalid = TRUE;
          break;
	default:
	  *targetvalid = FALSE;
	  break;
        }
    }
  else if (op->instr_type == return_inst)
    {
      if (immfound)
	{
	  targetaddr = (immval << 16) & 0xffff0000;
	  targetaddr |= (get_int_field_imm (inst) & 0x0000ffff);
	}
      else
	{
	  targetaddr = get_int_field_imm (inst);
	  if (targetaddr & 0x8000)
	    targetaddr |= 0xFFFF0000;
	}
      targetaddr += r1val;
      *targetvalid = TRUE;
    }
  else
    *targetvalid = FALSE;
  return targetaddr;
}
 

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