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|
/* Print m68k instructions for GDB, the GNU debugger.
Copyright (C) 1986, 1987, 1989 Free Software Foundation, Inc.
This file is part of GDB.
GDB 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 1, or (at your option)
any later version.
GDB 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 GDB; see the file COPYING. If not, write to
the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
#include <stdio.h>
#include <setjmp.h>
#include <signal.h>
#include "defs.h"
#include "param.h"
#include "symtab.h"
#include "opcode.h"
/* 68k instructions are never longer than this many bytes. */
#define MAXLEN 22
/* Number of elements in the opcode table. */
#define NOPCODES (sizeof m68k_opcodes / sizeof m68k_opcodes[0])
extern char *reg_names[];
char *fpcr_names[] = { "", "fpiar", "fpsr", "fpiar/fpsr", "fpcr",
"fpiar/fpcr", "fpsr/fpcr", "fpiar-fpcr"};
static unsigned char *print_insn_arg ();
static unsigned char *print_indexed ();
static void print_base ();
static int fetch_arg ();
#define NEXTBYTE(p) (p += 2, ((char *)p)[-1])
#define NEXTWORD(p) \
(p += 2, ((((char *)p)[-2]) << 8) + p[-1])
#define NEXTLONG(p) \
(p += 4, (((((p[-4] << 8) + p[-3]) << 8) + p[-2]) << 8) + p[-1])
#define NEXTSINGLE(p) \
(p += 4, *((float *)(p - 4)))
#define NEXTDOUBLE(p) \
(p += 8, *((double *)(p - 8)))
#define NEXTEXTEND(p) \
(p += 12, 0.0) /* Need a function to convert from extended to double
precision... */
#define NEXTPACKED(p) \
(p += 12, 0.0) /* Need a function to convert from packed to double
precision. Actually, it's easier to print a
packed number than a double anyway, so maybe
there should be a special case to handle this... */
/* Print the m68k instruction at address MEMADDR in debugged memory,
on STREAM. Returns length of the instruction, in bytes. */
int
print_insn (memaddr, stream)
CORE_ADDR memaddr;
FILE *stream;
{
unsigned char buffer[MAXLEN];
register int i;
register unsigned char *p;
register char *d;
register int bestmask;
int best;
read_memory (memaddr, buffer, MAXLEN);
bestmask = 0;
best = -1;
for (i = 0; i < NOPCODES; i++)
{
register unsigned int opcode = m68k_opcodes[i].opcode;
register unsigned int match = m68k_opcodes[i].match;
if (((0xff & buffer[0] & (match >> 24)) == (0xff & (opcode >> 24)))
&& ((0xff & buffer[1] & (match >> 16)) == (0xff & (opcode >> 16)))
&& ((0xff & buffer[2] & (match >> 8)) == (0xff & (opcode >> 8)))
&& ((0xff & buffer[3] & match) == (0xff & opcode)))
{
/* Don't use for printout the variants of divul and divsl
that have the same register number in two places.
The more general variants will match instead. */
for (d = m68k_opcodes[i].args; *d; d += 2)
if (d[1] == 'D')
break;
/* Don't use for printout the variants of most floating
point coprocessor instructions which use the same
register number in two places, as above. */
if (*d == 0)
for (d = m68k_opcodes[i].args; *d; d += 2)
if (d[1] == 't')
break;
if (*d == 0 && match > bestmask)
{
best = i;
bestmask = match;
}
}
}
/* Handle undefined instructions. */
if (best < 0)
{
fprintf_filtered (stream, "0%o", (buffer[0] << 8) + buffer[1]);
return 2;
}
fprintf_filtered (stream, "%s", m68k_opcodes[best].name);
/* Point at first word of argument data,
and at descriptor for first argument. */
p = buffer + 2;
/* Why do this this way? -MelloN */
for (d = m68k_opcodes[best].args; *d; d += 2)
{
if (d[0] == '#')
{
if (d[1] == 'l' && p - buffer < 6)
p = buffer + 6;
else if (p - buffer < 4 && d[1] != 'C' && d[1] != '8' )
p = buffer + 4;
}
if (d[1] >= '1' && d[1] <= '3' && p - buffer < 4)
p = buffer + 4;
if (d[1] >= '4' && d[1] <= '6' && p - buffer < 6)
p = buffer + 6;
if ((d[0] == 'L' || d[0] == 'l') && d[1] == 'w' && p - buffer < 4)
p = buffer + 4;
}
d = m68k_opcodes[best].args;
if (*d)
fputs_filtered (" ", stream);
while (*d)
{
p = print_insn_arg (d, buffer, p, memaddr + p - buffer, stream);
d += 2;
if (*d && *(d - 2) != 'I' && *d != 'k')
fputs_filtered (",", stream);
}
return p - buffer;
}
static unsigned char *
print_insn_arg (d, buffer, p, addr, stream)
char *d;
unsigned char *buffer;
register unsigned char *p;
CORE_ADDR addr; /* PC for this arg to be relative to */
FILE *stream;
{
register int val;
register int place = d[1];
int regno;
register char *regname;
register unsigned char *p1;
register double flval;
int flt_p;
switch (*d)
{
case 'C':
fprintf_filtered (stream, "ccr");
break;
case 'S':
fprintf_filtered (stream, "sr");
break;
case 'U':
fprintf_filtered (stream, "usp");
break;
case 'J':
{
static struct { char *name; int value; } names[]
= {{"sfc", 0x000}, {"dfc", 0x001}, {"cacr", 0x002},
{"usp", 0x800}, {"vbr", 0x801}, {"caar", 0x802},
{"msp", 0x803}, {"isp", 0x804}};
val = fetch_arg (buffer, place, 12);
for (regno = sizeof names / sizeof names[0] - 1; regno >= 0; regno--)
if (names[regno].value == val)
{
fprintf_filtered (stream, names[regno].name);
break;
}
if (regno < 0)
fprintf_filtered (stream, "%d", val);
}
break;
case 'Q':
val = fetch_arg (buffer, place, 3);
if (val == 0) val = 8;
fprintf_filtered (stream, "#%d", val);
break;
case 'M':
val = fetch_arg (buffer, place, 8);
if (val & 0x80)
val = val - 0x100;
fprintf_filtered (stream, "#%d", val);
break;
case 'T':
val = fetch_arg (buffer, place, 4);
fprintf_filtered (stream, "#%d", val);
break;
case 'D':
fprintf_filtered (stream, "%s", reg_names[fetch_arg (buffer, place, 3)]);
break;
case 'A':
fprintf_filtered (stream, "%s",
reg_names[fetch_arg (buffer, place, 3) + 010]);
break;
case 'R':
fprintf_filtered (stream, "%s", reg_names[fetch_arg (buffer, place, 4)]);
break;
case 'F':
fprintf_filtered (stream, "fp%d", fetch_arg (buffer, place, 3));
break;
case 'O':
val = fetch_arg (buffer, place, 6);
if (val & 0x20)
fprintf_filtered (stream, "%s", reg_names [val & 7]);
else
fprintf_filtered (stream, "%d", val);
break;
case '+':
fprintf_filtered (stream, "%s@+",
reg_names[fetch_arg (buffer, place, 3) + 8]);
break;
case '-':
fprintf_filtered (stream, "%s@-",
reg_names[fetch_arg (buffer, place, 3) + 8]);
break;
case 'k':
if (place == 'k')
fprintf_filtered (stream, "{%s}", reg_names[fetch_arg (buffer, place, 3)]);
else if (place == 'C')
{
val = fetch_arg (buffer, place, 7);
if ( val > 63 ) /* This is a signed constant. */
val -= 128;
fprintf_filtered (stream, "{#%d}", val);
}
else
error ("Invalid arg format in opcode table: \"%c%c\".",
*d, place);
break;
case '#':
case '^':
p1 = buffer + (*d == '#' ? 2 : 4);
if (place == 's')
val = fetch_arg (buffer, place, 4);
else if (place == 'C')
val = fetch_arg (buffer, place, 7);
else if (place == '8')
val = fetch_arg (buffer, place, 3);
else if (place == '3')
val = fetch_arg (buffer, place, 8);
else if (place == 'b')
val = NEXTBYTE (p1);
else if (place == 'w')
val = NEXTWORD (p1);
else if (place == 'l')
val = NEXTLONG (p1);
else
error ("Invalid arg format in opcode table: \"%c%c\".",
*d, place);
fprintf_filtered (stream, "#%d", val);
break;
case 'B':
if (place == 'b')
val = NEXTBYTE (p);
else if (place == 'w')
val = NEXTWORD (p);
else if (place == 'l')
val = NEXTLONG (p);
else if (place == 'g')
{
val = ((char *)buffer)[1];
if (val == 0)
val = NEXTWORD (p);
else if (val == -1)
val = NEXTLONG (p);
}
else if (place == 'c')
{
if (buffer[1] & 0x40) /* If bit six is one, long offset */
val = NEXTLONG (p);
else
val = NEXTWORD (p);
}
else
error ("Invalid arg format in opcode table: \"%c%c\".",
*d, place);
print_address (addr + val, stream);
break;
case 'd':
val = NEXTWORD (p);
fprintf_filtered (stream, "%s@(%d)",
reg_names[fetch_arg (buffer, place, 3)], val);
break;
case 's':
fprintf_filtered (stream, "%s",
fpcr_names[fetch_arg (buffer, place, 3)]);
break;
case 'I':
val = fetch_arg (buffer, 'd', 3); /* Get coprocessor ID... */
if (val != 1) /* Unusual coprocessor ID? */
fprintf_filtered (stream, "(cpid=%d) ", val);
if (place == 'i')
p += 2; /* Skip coprocessor extended operands */
break;
case '*':
case '~':
case '%':
case ';':
case '@':
case '!':
case '$':
case '?':
case '/':
case '&':
if (place == 'd')
{
val = fetch_arg (buffer, 'x', 6);
val = ((val & 7) << 3) + ((val >> 3) & 7);
}
else
val = fetch_arg (buffer, 's', 6);
/* Get register number assuming address register. */
regno = (val & 7) + 8;
regname = reg_names[regno];
switch (val >> 3)
{
case 0:
fprintf_filtered (stream, "%s", reg_names[val]);
break;
case 1:
fprintf_filtered (stream, "%s", regname);
break;
case 2:
fprintf_filtered (stream, "%s@", regname);
break;
case 3:
fprintf_filtered (stream, "%s@+", regname);
break;
case 4:
fprintf_filtered (stream, "%s@-", regname);
break;
case 5:
val = NEXTWORD (p);
fprintf_filtered (stream, "%s@(%d)", regname, val);
break;
case 6:
p = print_indexed (regno, p, addr, stream);
break;
case 7:
switch (val & 7)
{
case 0:
val = NEXTWORD (p);
fprintf_filtered (stream, "@#");
print_address (val, stream);
break;
case 1:
val = NEXTLONG (p);
fprintf_filtered (stream, "@#");
print_address (val, stream);
break;
case 2:
val = NEXTWORD (p);
print_address (addr + val, stream);
break;
case 3:
p = print_indexed (-1, p, addr, stream);
break;
case 4:
flt_p = 1; /* Assume it's a float... */
switch( place )
{
case 'b':
val = NEXTBYTE (p);
flt_p = 0;
break;
case 'w':
val = NEXTWORD (p);
flt_p = 0;
break;
case 'l':
val = NEXTLONG (p);
flt_p = 0;
break;
case 'f':
flval = NEXTSINGLE(p);
break;
case 'F':
flval = NEXTDOUBLE(p);
break;
case 'x':
flval = NEXTEXTEND(p);
break;
case 'p':
flval = NEXTPACKED(p);
break;
default:
error ("Invalid arg format in opcode table: \"%c%c\".",
*d, place);
}
if ( flt_p ) /* Print a float? */
fprintf_filtered (stream, "#%g", flval);
else
fprintf_filtered (stream, "#%d", val);
break;
default:
fprintf_filtered (stream, "<invalid address mode 0%o>", val);
}
}
break;
case 'L':
case 'l':
if (place == 'w')
{
char doneany;
p1 = buffer + 2;
val = NEXTWORD (p1);
/* Move the pointer ahead if this point is farther ahead
than the last. */
p = p1 > p ? p1 : p;
if (val == 0)
{
fputs_filtered ("#0", stream);
break;
}
if (*d == 'l')
{
register int newval = 0;
for (regno = 0; regno < 16; ++regno)
if (val & (0x8000 >> regno))
newval |= 1 << regno;
val = newval;
}
val &= 0xffff;
doneany = 0;
for (regno = 0; regno < 16; ++regno)
if (val & (1 << regno))
{
int first_regno;
if (doneany)
fputs_filtered ("/", stream);
doneany = 1;
fprintf_filtered (stream, "%s", reg_names[regno]);
first_regno = regno;
while (val & (1 << (regno + 1)))
++regno;
if (regno > first_regno)
fprintf_filtered (stream, "-%s", reg_names[regno]);
}
}
else if (place == '3')
{
/* `fmovem' insn. */
char doneany;
val = fetch_arg (buffer, place, 8);
if (val == 0)
{
fputs_filtered ("#0", stream);
break;
}
if (*d == 'l')
{
register int newval = 0;
for (regno = 0; regno < 8; ++regno)
if (val & (0x80 >> regno))
newval |= 1 << regno;
val = newval;
}
val &= 0xff;
doneany = 0;
for (regno = 0; regno < 8; ++regno)
if (val & (1 << regno))
{
int first_regno;
if (doneany)
fputs_filtered ("/", stream);
doneany = 1;
fprintf_filtered (stream, "fp%d", regno);
first_regno = regno;
while (val & (1 << (regno + 1)))
++regno;
if (regno > first_regno)
fprintf_filtered (stream, "-fp%d", regno);
}
}
else
abort ();
break;
default:
error ("Invalid arg format in opcode table: \"%c\".", *d);
}
return (unsigned char *) p;
}
/* Fetch BITS bits from a position in the instruction specified by CODE.
CODE is a "place to put an argument", or 'x' for a destination
that is a general address (mode and register).
BUFFER contains the instruction. */
static int
fetch_arg (buffer, code, bits)
unsigned char *buffer;
char code;
int bits;
{
register int val;
switch (code)
{
case 's':
val = buffer[1];
break;
case 'd': /* Destination, for register or quick. */
val = (buffer[0] << 8) + buffer[1];
val >>= 9;
break;
case 'x': /* Destination, for general arg */
val = (buffer[0] << 8) + buffer[1];
val >>= 6;
break;
case 'k':
val = (buffer[3] >> 4);
break;
case 'C':
val = buffer[3];
break;
case '1':
val = (buffer[2] << 8) + buffer[3];
val >>= 12;
break;
case '2':
val = (buffer[2] << 8) + buffer[3];
val >>= 6;
break;
case '3':
case 'j':
val = (buffer[2] << 8) + buffer[3];
break;
case '4':
val = (buffer[4] << 8) + buffer[5];
val >>= 12;
break;
case '5':
val = (buffer[4] << 8) + buffer[5];
val >>= 6;
break;
case '6':
val = (buffer[4] << 8) + buffer[5];
break;
case '7':
val = (buffer[2] << 8) + buffer[3];
val >>= 7;
break;
case '8':
val = (buffer[2] << 8) + buffer[3];
val >>= 10;
break;
default:
abort ();
}
switch (bits)
{
case 3:
return val & 7;
case 4:
return val & 017;
case 5:
return val & 037;
case 6:
return val & 077;
case 7:
return val & 0177;
case 8:
return val & 0377;
case 12:
return val & 07777;
default:
abort ();
}
}
/* Print an indexed argument. The base register is BASEREG (-1 for pc).
P points to extension word, in buffer.
ADDR is the nominal core address of that extension word. */
static unsigned char *
print_indexed (basereg, p, addr, stream)
int basereg;
unsigned char *p;
FILE *stream;
CORE_ADDR addr;
{
register int word;
static char *scales[] = {"", "*2", "*4", "*8"};
register int base_disp;
register int outer_disp;
char buf[40];
word = NEXTWORD (p);
/* Generate the text for the index register.
Where this will be output is not yet determined. */
sprintf (buf, "[%s.%c%s]",
reg_names[(word >> 12) & 0xf],
(word & 0x800) ? 'l' : 'w',
scales[(word >> 9) & 3]);
/* Handle the 68000 style of indexing. */
if ((word & 0x100) == 0)
{
print_base (basereg,
((word & 0x80) ? word | 0xff00 : word & 0xff)
+ ((basereg == -1) ? addr : 0),
stream);
fputs_filtered (buf, stream);
return p;
}
/* Handle the generalized kind. */
/* First, compute the displacement to add to the base register. */
if (word & 0200)
basereg = -2;
if (word & 0100)
buf[0] = 0;
base_disp = 0;
switch ((word >> 4) & 3)
{
case 2:
base_disp = NEXTWORD (p);
break;
case 3:
base_disp = NEXTLONG (p);
}
if (basereg == -1)
base_disp += addr;
/* Handle single-level case (not indirect) */
if ((word & 7) == 0)
{
print_base (basereg, base_disp, stream);
fputs_filtered (buf, stream);
return p;
}
/* Two level. Compute displacement to add after indirection. */
outer_disp = 0;
switch (word & 3)
{
case 2:
outer_disp = NEXTWORD (p);
break;
case 3:
outer_disp = NEXTLONG (p);
}
fprintf_filtered (stream, "%d(", outer_disp);
print_base (basereg, base_disp, stream);
/* If postindexed, print the closeparen before the index. */
if (word & 4)
fprintf_filtered (stream, ")%s", buf);
/* If preindexed, print the closeparen after the index. */
else
fprintf_filtered (stream, "%s)", buf);
return p;
}
/* Print a base register REGNO and displacement DISP, on STREAM.
REGNO = -1 for pc, -2 for none (suppressed). */
static void
print_base (regno, disp, stream)
int regno;
int disp;
FILE *stream;
{
if (regno == -2)
fprintf_filtered (stream, "%d", disp);
else if (regno == -1)
fprintf_filtered (stream, "0x%x", disp);
else
fprintf_filtered (stream, "%d(%s)", disp, reg_names[regno]);
}
static int have_fpu = 1;
/* This is not part of insn printing, but it is machine-specific,
so this is a convenient place to put it.
Convert a 68881 extended float to a double.
FROM is the address of the extended float.
Store the double in *TO. */
convert_from_68881 (from, to)
char *from;
double *to;
{
if (!have_fpu)
{
*to = 0.0;
return;
}
#ifdef HPUX_ASM
asm ("mov.l 8(%a6),%a0");
asm ("mov.l 12(%a6),%a1");
asm ("fmove.x (%a0),%fp0");
asm ("fmove.d %fp0,(%a1)");
#else /* not HPUX_ASM */
#if 0
asm ("movl a6@(8),a0");
asm ("movl a6@(12),a1");
asm ("fmovex a0@,fp0");
asm ("fmoved fp0,a1@");
#else
/* Hand-assemble those insns since some assemblers lose
and some have different syntax. */
asm (".word 020156");
asm (".word 8");
asm (".word 021156");
asm (".word 12");
asm (".long 0xf2104800");
asm (".long 0xf2117400");
#endif
#endif /* not HPUX_ASM */
}
/* The converse: convert the double *FROM to an extended float
and store where TO points. */
convert_to_68881 (from, to)
double *from;
char *to;
{
if (!have_fpu)
return;
#ifdef HPUX_ASM
asm ("mov.l 8(%a6),%a0");
asm ("mov.l 12(%a6),%a1");
asm ("fmove.d (%a0),%fp0");
asm ("fmove.x %fp0,(%a1)");
#else /* not HPUX_ASM */
#if 0
asm ("movl a6@(8),a0");
asm ("movl a6@(12),a1");
asm ("fmoved a0@,fp0");
asm ("fmovex fp0,a1@");
#else
/* Hand-assemble those insns since some assemblers lose. */
asm (".word 020156");
asm (".word 8");
asm (".word 021156");
asm (".word 12");
asm (".long 0xf2105400");
asm (".long 0xf2116800");
#endif
#endif /* not HPUX_ASM */
}
static jmp_buf fpu_check;
void
sigemt()
{
have_fpu = 0;
longjmp (fpu_check, 1);
}
void
_initialize_pinsn()
{
/* Want to figure out if we've got a coprocessor. The idea is to catch the
signal that gets delivered if no coprocessor is around (SIGEMT) then
execute a coprocessor instruction and see what happens. have_fpu is set
to zero if the EMT signal arrives. Else it is left at 1. */
/* If this turns out not to be portable to all 68k machines, we'll
have to move it to the dep files. */
void (*emthandler) ();
emthandler = (void (*) ()) signal (SIGEMT, sigemt);
if (!setjmp (fpu_check))
{
#if defined(HPUX_ASM)
asm (" long 0xf2000600"); /* fmovel fp0, d0 */
#else
asm(".long 0xf2000600"); /* fmovel fp0, d0 */
#endif
}
signal(SIGEMT, emthandler);
}
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