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* nm.c (main): Ignore '-X32_64' as an option.
[binutils.git] / opcodes / tic54x-dis.c
blobe2c0b208dd3e6dee7f58ff6687854238e2f72f8e
1 /* Disassembly routines for TMS320C54X architecture
2 Copyright (C) 1999,2000 Free Software Foundation, Inc.
3 Contributed by Timothy Wall (twall@cygnus.com)
4
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU General Public License as published by
7 the Free Software Foundation; either version 2 of the License, or
8 (at your option) any later version.
9
10 This program is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 GNU General Public License for more details.
14
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
18 02111-1307, USA. */
19
20 #include <errno.h>
21 #include <math.h>
22 #include <stdlib.h>
23 #include "sysdep.h"
24 #include "dis-asm.h"
25 #include "opcode/tic54x.h"
26 #include "coff/tic54x.h"
27
28 typedef struct _instruction {
29 int parallel;
30 template *tm;
31 partemplate *ptm;
32 } instruction;
33
34 static int get_insn_size PARAMS ((unsigned short, instruction *));
35 static int get_instruction PARAMS ((disassemble_info *, bfd_vma,
36 unsigned short, instruction *));
37 static int print_instruction PARAMS ((disassemble_info *, bfd_vma,
38 unsigned short, char *,
39 enum optype [], int, int));
40 static int print_parallel_instruction PARAMS ((disassemble_info *, bfd_vma,
41 unsigned short, partemplate *,
42 int));
43 static int sprint_dual_address (disassemble_info *,char [],
44 unsigned short);
45 static int sprint_indirect_address (disassemble_info *,char [],
46 unsigned short);
47 static int sprint_direct_address (disassemble_info *,char [],
48 unsigned short);
49 static int sprint_mmr (disassemble_info *,char [],int);
50 static int sprint_condition (disassemble_info *,char *,unsigned short);
51 static int sprint_cc2 (disassemble_info *,char *,unsigned short);
52
53 int
54 print_insn_tic54x(memaddr, info)
55 bfd_vma memaddr;
56 disassemble_info *info;
57 {
58 bfd_byte opbuf[2];
59 unsigned short opcode;
60 int status, size;
61 instruction insn;
62
63 status = (*info->read_memory_func) (memaddr, opbuf, 2, info);
64 if (status != 0)
65 {
66 (*info->memory_error_func)(status, memaddr, info);
67 return -1;
68 }
69
70 opcode = bfd_getl16(opbuf);
71 if (!get_instruction (info, memaddr, opcode, &insn))
72 return -1;
73
74 size = get_insn_size (opcode, &insn);
75 info->bytes_per_line = 2;
76 info->bytes_per_chunk = 2;
77 info->octets_per_byte = 2;
78 info->display_endian = BFD_ENDIAN_LITTLE;
79
80 if (insn.parallel)
81 {
82 if (!print_parallel_instruction (info, memaddr, opcode, insn.ptm, size))
83 return -1;
84 }
85 else
86 {
87 if (!print_instruction (info, memaddr, opcode,
88 (char *)insn.tm->name,
89 insn.tm->operand_types,
90 size, (insn.tm->flags & FL_EXT)))
91 return -1;
92 }
93
94 return size*2;
95 }
96
97 static int
98 has_lkaddr(opcode, tm)
99 unsigned short opcode;
100 template *tm;
101 {
102 return IS_LKADDR(opcode) &&
103 (OPTYPE(tm->operand_types[0]) == OP_Smem ||
104 OPTYPE(tm->operand_types[1]) == OP_Smem ||
105 OPTYPE(tm->operand_types[2]) == OP_Smem ||
106 OPTYPE(tm->operand_types[1]) == OP_Sind);
107 }
108
109 /* always returns 1 (whether an insn template was found) since we provide an
110 "unknown instruction" template */
111 static int
112 get_instruction (info, addr, opcode, insn)
113 disassemble_info *info;
114 bfd_vma addr;
115 unsigned short opcode;
116 instruction *insn;
117 {
118 template * tm;
119 partemplate * ptm;
120
121 insn->parallel = 0;
122 for (tm = (template *)tic54x_optab; tm->name; tm++)
123 {
124 if (tm->opcode == (opcode & tm->mask))
125 {
126 /* a few opcodes span two words */
127 if (tm->flags & FL_EXT)
128 {
129 /* if lk addressing is used, the second half of the opcode gets
130 pushed one word later */
131 bfd_byte opbuf[2];
132 bfd_vma addr2 = addr + 1 + has_lkaddr(opcode, tm);
133 int status = (*info->read_memory_func)(addr2, opbuf, 2, info);
134 if (status == 0)
135 {
136 unsigned short opcode2 = bfd_getl16(opbuf);
137 if (tm->opcode2 == (opcode2 & tm->mask2))
138 {
139 insn->tm = tm;
140 return 1;
141 }
142 }
143 }
144 else
145 {
146 insn->tm = tm;
147 return 1;
148 }
149 }
150 }
151 for (ptm = (partemplate *)tic54x_paroptab; ptm->name; ptm++)
152 {
153 if (ptm->opcode == (opcode & ptm->mask))
154 {
155 insn->parallel = 1;
156 insn->ptm = ptm;
157 return 1;
158 }
159 }
160
161 insn->tm = (template *)&tic54x_unknown_opcode;
162 return 1;
163 }
164
165 static int
166 get_insn_size (opcode, insn)
167 unsigned short opcode;
168 instruction *insn;
169 {
170 int size;
171
172 if (insn->parallel)
173 {
174 /* only non-parallel instructions support lk addressing */
175 size = insn->ptm->words;
176 }
177 else
178 {
179 size = insn->tm->words + has_lkaddr(opcode, insn->tm);
180 }
181
182 return size;
183 }
184
185 int
186 print_instruction (info, memaddr, opcode, tm_name, tm_operands, size, ext)
187 disassemble_info *info;
188 bfd_vma memaddr;
189 unsigned short opcode;
190 char *tm_name;
191 enum optype tm_operands[];
192 int size;
193 int ext;
194 {
195 static int n;
196 /* string storage for multiple operands */
197 char operand[4][64] = { {0},{0},{0},{0}, };
198 bfd_byte buf[2];
199 unsigned long opcode2, lkaddr;
200 enum optype src = OP_None;
201 enum optype dst = OP_None;
202 int i, shift;
203 char *comma = "";
204
205 info->fprintf_func (info->stream, "%-7s", tm_name);
206
207 if (size > 1)
208 {
209 int status = (*info->read_memory_func) (memaddr+1, buf, 2, info);
210 if (status != 0)
211 return 0;
212 lkaddr = opcode2 = bfd_getl16(buf);
213 if (size > 2)
214 {
215 status = (*info->read_memory_func) (memaddr+2, buf, 2, info);
216 if (status != 0)
217 return 0;
218 opcode2 = bfd_getl16(buf);
219 }
220 }
221
222 for (i=0;i < MAX_OPERANDS && OPTYPE(tm_operands[i]) != OP_None;i++)
223 {
224 char *next_comma = ",";
225 int optional = (tm_operands[i] & OPT) != 0;
226
227 switch (OPTYPE(tm_operands[i]))
228 {
229 case OP_Xmem:
230 sprint_dual_address (info, operand[i], XMEM(opcode));
231 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
232 break;
233 case OP_Ymem:
234 sprint_dual_address (info, operand[i], YMEM(opcode));
235 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
236 break;
237 case OP_Smem:
238 case OP_Sind:
239 case OP_Lmem:
240 info->fprintf_func (info->stream, "%s", comma);
241 if (INDIRECT(opcode))
242 {
243 if (MOD(opcode) >= 12)
244 {
245 bfd_vma addr = lkaddr;
246 int arf = ARF(opcode);
247 int mod = MOD(opcode);
248 if (mod == 15)
249 info->fprintf_func (info->stream, "*(");
250 else
251 info->fprintf_func (info->stream, "*%sar%d(",
252 (mod == 13 || mod == 14 ? "+" : ""),
253 arf);
254 (*(info->print_address_func))((bfd_vma)addr, info);
255 info->fprintf_func (info->stream, ")%s",
256 mod == 14 ? "%" : "");
257 }
258 else
259 {
260 sprint_indirect_address (info, operand[i], opcode);
261 info->fprintf_func (info->stream, "%s", operand[i]);
262 }
263 }
264 else
265 {
266 /* FIXME -- use labels (print_address_func) */
267 /* in order to do this, we need to guess what DP is */
268 sprint_direct_address (info, operand[i], opcode);
269 info->fprintf_func (info->stream, "%s", operand[i]);
270 }
271 break;
272 case OP_dmad:
273 info->fprintf_func (info->stream, "%s", comma);
274 (*(info->print_address_func))((bfd_vma)opcode2, info);
275 break;
276 case OP_xpmad:
277 /* upper 7 bits of address are in the opcode */
278 opcode2 += ((unsigned long)opcode & 0x7F) << 16;
279 /* fall through */
280 case OP_pmad:
281 info->fprintf_func (info->stream, "%s", comma);
282 (*(info->print_address_func))((bfd_vma)opcode2, info);
283 break;
284 case OP_MMRX:
285 sprint_mmr (info, operand[i], MMRX(opcode));
286 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
287 break;
288 case OP_MMRY:
289 sprint_mmr (info, operand[i], MMRY(opcode));
290 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
291 break;
292 case OP_MMR:
293 sprint_mmr (info, operand[i], MMR(opcode));
294 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
295 break;
296 case OP_PA:
297 sprintf (operand[i], "pa%d", (unsigned)opcode2);
298 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
299 break;
300 case OP_SRC:
301 src = SRC(ext ? opcode2 : opcode) ? OP_B : OP_A;
302 sprintf (operand[i], (src == OP_B) ? "b" : "a");
303 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
304 break;
305 case OP_SRC1:
306 src = SRC1(ext ? opcode2 : opcode) ? OP_B : OP_A;
307 sprintf (operand[i], (src == OP_B) ? "b" : "a");
308 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
309 break;
310 case OP_RND:
311 dst = DST(opcode) ? OP_B : OP_A;
312 sprintf (operand[i], (dst == OP_B) ? "a" : "b");
313 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
314 break;
315 case OP_DST:
316 dst = DST(ext ? opcode2 : opcode) ? OP_B : OP_A;
317 if (!optional || dst != src)
318 {
319 sprintf (operand[i], (dst == OP_B) ? "b" : "a");
320 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
321 }
322 else
323 next_comma = comma;
324 break;
325 case OP_B:
326 sprintf (operand[i], "b");
327 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
328 break;
329 case OP_A:
330 sprintf (operand[i], "a");
331 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
332 break;
333 case OP_ARX:
334 sprintf (operand[i],"ar%d", (int)ARX(opcode));
335 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
336 break;
337 case OP_SHIFT:
338 shift = SHIFT(ext ? opcode2 : opcode);
339 if (!optional || shift != 0)
340 {
341 sprintf (operand[i],"%d", shift);
342 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
343 }
344 else
345 next_comma = comma;
346 break;
347 case OP_SHFT:
348 shift = SHFT(opcode);
349 if (!optional || shift != 0)
350 {
351 sprintf (operand[i],"%d", (unsigned)shift);
352 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
353 }
354 else
355 next_comma = comma;
356 break;
357 case OP_lk:
358 sprintf (operand[i],"#%d", (int)(short)opcode2);
359 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
360 break;
361 case OP_T:
362 sprintf (operand[i], "t");
363 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
364 break;
365 case OP_TS:
366 sprintf (operand[i], "ts");
367 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
368 break;
369 case OP_k8:
370 sprintf (operand[i], "%d", (int)((signed char)(opcode & 0xFF)));
371 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
372 break;
373 case OP_16:
374 sprintf (operand[i], "16");
375 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
376 break;
377 case OP_ASM:
378 sprintf (operand[i], "asm");
379 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
380 break;
381 case OP_BITC:
382 sprintf (operand[i], "%d", (int)(opcode & 0xF));
383 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
384 break;
385 case OP_CC:
386 /* put all CC operands in the same operand */
387 sprint_condition (info, operand[i], opcode);
388 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
389 i = MAX_OPERANDS;
390 break;
391 case OP_CC2:
392 sprint_cc2 (info, operand[i], opcode);
393 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
394 break;
395 case OP_CC3:
396 {
397 const char *code[] = { "eq", "lt", "gt", "neq" };
398 sprintf (operand[i], code[CC3(opcode)]);
399 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
400 break;
401 }
402 case OP_123:
403 {
404 int code = (opcode>>8) & 0x3;
405 sprintf (operand[i], "%d", (code == 0) ? 1 : (code == 2) ? 2 : 3);
406 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
407 break;
408 }
409 case OP_k5:
410 sprintf (operand[i], "#%d",
411 (int)(((signed char)opcode & 0x1F) << 3)>>3);
412 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
413 break;
414 case OP_k8u:
415 sprintf (operand[i], "#%d", (unsigned)(opcode & 0xFF));
416 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
417 break;
418 case OP_k3:
419 sprintf (operand[i], "#%d", (int)(opcode & 0x7));
420 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
421 break;
422 case OP_lku:
423 sprintf (operand[i], "#%d", (unsigned)opcode2);
424 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
425 break;
426 case OP_N:
427 n = (opcode >> 9) & 0x1;
428 sprintf (operand[i], "st%d", n);
429 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
430 break;
431 case OP_SBIT:
432 {
433 const char *status0[] = {
434 "0", "1", "2", "3", "4", "5", "6", "7", "8",
435 "ovb", "ova", "c", "tc", "13", "14", "15"
436 };
437 const char *status1[] = {
438 "0", "1", "2", "3", "4",
439 "cmpt", "frct", "c16", "sxm", "ovm", "10",
440 "intm", "hm", "xf", "cpl", "braf"
441 };
442 sprintf (operand[i], "%s",
443 n ? status1[SBIT(opcode)] : status0[SBIT(opcode)]);
444 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
445 break;
446 }
447 case OP_12:
448 sprintf (operand[i], "%d", (int)((opcode >> 9)&1) + 1);
449 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
450 break;
451 case OP_TRN:
452 sprintf (operand[i], "trn");
453 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
454 break;
455 case OP_DP:
456 sprintf (operand[i], "dp");
457 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
458 break;
459 case OP_k9:
460 /* FIXME-- this is DP, print the original address? */
461 sprintf (operand[i], "#%d", (int)(opcode & 0x1FF));
462 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
463 break;
464 case OP_ARP:
465 sprintf (operand[i], "arp");
466 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
467 break;
468 case OP_031:
469 sprintf (operand[i], "%d", (int)(opcode & 0x1F));
470 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
471 break;
472 default:
473 sprintf (operand[i], "??? (0x%x)", tm_operands[i]);
474 info->fprintf_func (info->stream, "%s%s", comma, operand[i]);
475 break;
476 }
477 comma = next_comma;
478 }
479 return 1;
480 }
481
482 static int
483 print_parallel_instruction (info, memaddr, opcode, ptm, size)
484 disassemble_info *info;
485 bfd_vma memaddr;
486 unsigned short opcode;
487 partemplate *ptm;
488 int size;
489 {
490 print_instruction (info, memaddr, opcode,
491 ptm->name, ptm->operand_types, size, 0);
492 info->fprintf_func (info->stream, " || ");
493 return print_instruction (info, memaddr, opcode,
494 ptm->parname, ptm->paroperand_types, size, 0);
495 }
496
497 static int
498 sprint_dual_address (info, buf, code)
499 disassemble_info *info;
500 char buf[];
501 unsigned short code;
502 {
503 const char *formats[] = {
504 "*ar%d",
505 "*ar%d-",
506 "*ar%d+",
507 "*ar%d+0%%",
508 };
509 return sprintf (buf, formats[XMOD(code)], XARX(code));
510 }
511
512 static int
513 sprint_indirect_address (info, buf, opcode)
514 disassemble_info *info;
515 char buf[];
516 unsigned short opcode;
517 {
518 const char *formats[] = {
519 "*ar%d",
520 "*ar%d-",
521 "*ar%d+",
522 "*+ar%d",
523 "*ar%d-0B",
524 "*ar%d-0",
525 "*ar%d+0",
526 "*ar%d+0B",
527 "*ar%d-%%",
528 "*ar%d-0%%",
529 "*ar%d+%%",
530 "*ar%d+0%%",
531 };
532 return sprintf (buf, formats[MOD(opcode)], ARF(opcode));
533 }
534
535 static int
536 sprint_direct_address (info, buf, opcode)
537 disassemble_info *info;
538 char buf[];
539 unsigned short opcode;
540 {
541 /* FIXME -- look up relocation if available */
542 return sprintf (buf, "0x??%02x", (int)(opcode & 0x7F));
543 }
544
545 static int
546 sprint_mmr (info, buf, mmr)
547 disassemble_info *info;
548 char buf[];
549 int mmr;
550 {
551 symbol *reg = (symbol *)mmregs;
552 while (reg->name != NULL)
553 {
554 if (mmr == reg->value)
555 {
556 sprintf (buf, "%s", (reg+1)->name);
557 return 1;
558 }
559 ++reg;
560 }
561 sprintf (buf, "MMR(%d)", mmr); // FIXME -- different targets
562 return 0;
563 }
564
565 static int
566 sprint_cc2 (info, buf, opcode)
567 disassemble_info *info;
568 char *buf;
569 unsigned short opcode;
570 {
571 const char *cc2[] = {
572 "??", "??", "ageq", "alt", "aneq", "aeq", "agt", "aleq",
573 "??", "??", "bgeq", "blt", "bneq", "beq", "bgt", "bleq",
574 };
575 return sprintf (buf, "%s", cc2[opcode & 0xF]);
576 }
577
578 static int
579 sprint_condition (info, buf, opcode)
580 disassemble_info *info;
581 char *buf;
582 unsigned short opcode;
583 {
584 char *start = buf;
585 const char *cmp[] = {
586 "??", "??", "geq", "lt", "neq", "eq", "gt", "leq"
587 };
588 if (opcode & 0x40)
589 {
590 char acc = (opcode & 0x8) ? 'b' : 'a';
591 if (opcode & 0x7)
592 buf += sprintf (buf, "%c%s%s", acc, cmp[(opcode&0x7)],
593 (opcode&0x20) ? ", " : "");
594 if (opcode & 0x20)
595 buf += sprintf (buf, "%c%s", acc, (opcode&0x10) ? "ov" : "nov");
596 }
597 else if (opcode & 0x3F)
598 {
599 if (opcode & 0x30)
600 buf += sprintf (buf, "%s%s",
601 ((opcode & 0x30) == 0x30) ? "tc" : "ntc",
602 (opcode & 0x0F) ? ", " : "");
603 if (opcode & 0x0C)
604 buf += sprintf (buf, "%s%s",
605 ((opcode & 0x0C) == 0x0C) ? "c" : "nc",
606 (opcode & 0x03) ? ", " : "");
607 if (opcode & 0x03)
608 buf += sprintf (buf, "%s",
609 ((opcode & 0x03) == 0x03) ? "bio" : "nbio");
610 }
611 else
612 buf += sprintf (buf, "unc");
613
614 return buf - start;
615 }
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