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[/] [or1k/] [trunk/] [insight/] [opcodes/] [h8300-dis.c] - Rev 1771
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/* Disassemble h8300 instructions. Copyright 1993, 1994, 1996, 1998, 2000 Free Software Foundation, Inc. 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #define DEFINE_TABLE #include "sysdep.h" #define h8_opcodes h8ops #include "opcode/h8300.h" #include "dis-asm.h" #include "opintl.h" /* Run through the opcodes and sort them into order to make them easy to disassemble. */ static void bfd_h8_disassemble_init () { unsigned int i; struct h8_opcode *p; for (p = h8_opcodes; p->name; p++) { int n1 = 0; int n2 = 0; if ((int) p->data.nib[0] < 16) n1 = (int) p->data.nib[0]; else n1 = 0; if ((int) p->data.nib[1] < 16) n2 = (int) p->data.nib[1]; else n2 = 0; /* Just make sure there are an even number of nibbles in it, and that the count is the same as the length. */ for (i = 0; p->data.nib[i] != E; i++) ; if (i & 1) abort (); p->length = i / 2; } } unsigned int bfd_h8_disassemble (addr, info, mode) bfd_vma addr; disassemble_info *info; int mode; { /* Find the first entry in the table for this opcode. */ static CONST char *regnames[] = { "r0h", "r1h", "r2h", "r3h", "r4h", "r5h", "r6h", "r7h", "r0l", "r1l", "r2l", "r3l", "r4l", "r5l", "r6l", "r7l" }; static CONST char *wregnames[] = { "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "e0", "e1", "e2", "e3", "e4", "e5", "e6", "e7" }; static CONST char *lregnames[] = { "er0", "er1", "er2", "er3", "er4", "er5", "er6", "er7", "er0", "er1", "er2", "er3", "er4", "er5", "er6", "er7" }; int rs = 0; int rd = 0; int rdisp = 0; int abs = 0; int bit = 0; int plen = 0; static boolean init = 0; struct h8_opcode *q; char CONST **pregnames = mode != 0 ? lregnames : wregnames; int status; int l; unsigned char data[20]; void *stream = info->stream; fprintf_ftype fprintf = info->fprintf_func; if (!init) { bfd_h8_disassemble_init (); init = 1; } status = info->read_memory_func (addr, data, 2, info); if (status != 0) { info->memory_error_func (status, addr, info); return -1; } for (l = 2; status == 0 && l < 10; l += 2) status = info->read_memory_func (addr + l, data + l, 2, info); /* Find the exact opcode/arg combo. */ for (q = h8_opcodes; q->name; q++) { op_type *nib = q->data.nib; unsigned int len = 0; while (1) { op_type looking_for = *nib; int thisnib = data[len >> 1]; thisnib = (len & 1) ? (thisnib & 0xf) : ((thisnib >> 4) & 0xf); if (looking_for < 16 && looking_for >= 0) { if (looking_for != thisnib) goto fail; } else { if ((int) looking_for & (int) B31) { if (!(((int) thisnib & 0x8) != 0)) goto fail; looking_for = (op_type) ((int) looking_for & ~(int) B31); } if ((int) looking_for & (int) B30) { if (!(((int) thisnib & 0x8) == 0)) goto fail; looking_for = (op_type) ((int) looking_for & ~(int) B30); } if (looking_for & DBIT) { /* Exclude adds/subs by looking at bit 0 and 2, and make sure the operand size, either w or l, matches by looking at bit 1. */ if ((looking_for & 7) != (thisnib & 7)) goto fail; abs = (thisnib & 0x8) ? 2 : 1; } else if (looking_for & (REG | IND | INC | DEC)) { if (looking_for & SRC) rs = thisnib; else rd = thisnib; } else if (looking_for & L_16) { abs = (data[len >> 1]) * 256 + data[(len + 2) >> 1]; plen = 16; } else if (looking_for & ABSJMP) { abs = (data[1] << 16) | (data[2] << 8) | (data[3]); } else if (looking_for & MEMIND) { abs = data[1]; } else if (looking_for & L_32) { int i = len >> 1; abs = (data[i] << 24) | (data[i + 1] << 16) | (data[i + 2] << 8) | (data[i + 3]); plen = 32; } else if (looking_for & L_24) { int i = len >> 1; abs = (data[i] << 16) | (data[i + 1] << 8) | (data[i + 2]); plen = 24; } else if (looking_for & IGNORE) { ; } else if (looking_for & DISPREG) { rdisp = thisnib; } else if (looking_for & KBIT) { switch (thisnib) { case 9: abs = 4; break; case 8: abs = 2; break; case 0: abs = 1; break; default: goto fail; } } else if (looking_for & L_8) { plen = 8; abs = data[len >> 1]; } else if (looking_for & L_3) { bit = thisnib & 0x7; } else if (looking_for & L_2) { plen = 2; abs = thisnib & 0x3; } else if (looking_for & MACREG) { abs = (thisnib == 3); } else if (looking_for == E) { int i; for (i = 0; i < q->length; i++) fprintf (stream, "%02x ", data[i]); for (; i < 6; i++) fprintf (stream, " "); fprintf (stream, "%s\t", q->name); /* Gross. Disgusting. */ if (strcmp (q->name, "ldm.l") == 0) { int count, high; count = (data[1] >> 4) & 0x3; high = data[3] & 0x7; fprintf (stream, "@sp+,er%d-er%d", high - count, high); return q->length; } if (strcmp (q->name, "stm.l") == 0) { int count, low; count = (data[1] >> 4) & 0x3; low = data[3] & 0x7; fprintf (stream, "er%d-er%d,@-sp", low, low + count); return q->length; } /* Fill in the args. */ { op_type *args = q->args.nib; int hadone = 0; while (*args != E) { int x = *args; if (hadone) fprintf (stream, ","); if (x & L_3) { fprintf (stream, "#0x%x", (unsigned) bit); } else if (x & (IMM | KBIT | DBIT)) { /* Bletch. For shal #2,er0 and friends. */ if (*(args + 1) & SRC_IN_DST) abs = 2; fprintf (stream, "#0x%x", (unsigned) abs); } else if (x & REG) { int rn = (x & DST) ? rd : rs; switch (x & SIZE) { case L_8: fprintf (stream, "%s", regnames[rn]); break; case L_16: fprintf (stream, "%s", wregnames[rn]); break; case L_P: case L_32: fprintf (stream, "%s", lregnames[rn]); break; } } else if (x & MACREG) { fprintf (stream, "mac%c", abs ? 'l' : 'h'); } else if (x & INC) { fprintf (stream, "@%s+", pregnames[rs]); } else if (x & DEC) { fprintf (stream, "@-%s", pregnames[rd]); } else if (x & IND) { int rn = (x & DST) ? rd : rs; fprintf (stream, "@%s", pregnames[rn]); } else if (x & ABS8MEM) { fprintf (stream, "@0x%x:8", (unsigned) abs); } else if (x & (ABS | ABSJMP)) { fprintf (stream, "@0x%x:%d", (unsigned) abs, plen); } else if (x & MEMIND) { fprintf (stream, "@@%d (%x)", abs, abs); } else if (x & PCREL) { if (x & L_16) { abs += 2; fprintf (stream, ".%s%d (%x)", (short) abs > 0 ? "+" : "", (short) abs, addr + (short) abs + 2); } else { fprintf (stream, ".%s%d (%x)", (char) abs > 0 ? "+" : "", (char) abs, addr + (char) abs + 2); } } else if (x & DISP) { fprintf (stream, "@(0x%x:%d,%s)", abs, plen, pregnames[rdisp]); } else if (x & CCR) { fprintf (stream, "ccr"); } else if (x & EXR) { fprintf (stream, "exr"); } else /* xgettext:c-format */ fprintf (stream, _("Hmmmm %x"), x); hadone = 1; args++; } } return q->length; } else /* xgettext:c-format */ fprintf (stream, _("Don't understand %x \n"), looking_for); } len++; nib++; } fail: ; } /* Fell off the end. */ fprintf (stream, "%02x %02x .word\tH'%x,H'%x", data[0], data[1], data[0], data[1]); return 2; } int print_insn_h8300 (addr, info) bfd_vma addr; disassemble_info *info; { return bfd_h8_disassemble (addr, info, 0); } int print_insn_h8300h (addr, info) bfd_vma addr; disassemble_info *info; { return bfd_h8_disassemble (addr, info, 1); } int print_insn_h8300s (addr, info) bfd_vma addr; disassemble_info *info; { return bfd_h8_disassemble (addr, info, 2); }
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