Bug 23142, SIGSEGV in is_strip_section
[deliverable/binutils-gdb.git] / opcodes / aarch64-gen.c
1 /* aarch64-gen.c -- Generate tables and routines for opcode lookup and
2 instruction encoding and decoding.
3 Copyright (C) 2012-2018 Free Software Foundation, Inc.
4 Contributed by ARM Ltd.
5
6 This file is part of the GNU opcodes library.
7
8 This library is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3, or (at your option)
11 any later version.
12
13 It is distributed in the hope that it will be useful, but WITHOUT
14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
15 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
16 License for more details.
17
18 You should have received a copy of the GNU General Public License
19 along with this program; see the file COPYING3. If not,
20 see <http://www.gnu.org/licenses/>. */
21
22 #include "sysdep.h"
23 #include <stdio.h>
24 #include <stdlib.h>
25 #include <stdarg.h>
26
27 #include "libiberty.h"
28 #include "getopt.h"
29 #include "opcode/aarch64.h"
30
31 #define VERIFIER(x) NULL
32 #include "aarch64-tbl.h"
33
34 static int debug = 0;
35
36 /* Structure used in the decoding tree to group a list of aarch64_opcode
37 entries. */
38
39 struct opcode_node
40 {
41 aarch64_insn opcode;
42 aarch64_insn mask;
43 /* Index of the entry in the original table; the top 2 bits help
44 determine the table. */
45 unsigned int index;
46 struct opcode_node *next;
47 };
48
49 typedef struct opcode_node opcode_node;
50
51 /* Head of the list of the opcode_node after read_table. */
52 static opcode_node opcode_nodes_head;
53
54 /* Node in the decoding tree. */
55
56 struct bittree
57 {
58 unsigned int bitno;
59 /* 0, 1, and X (don't care). */
60 struct bittree *bits[2];
61 /* List of opcodes; only valid for the leaf node. */
62 opcode_node *list;
63 };
64
65 /* Allocate and initialize an opcode_node. */
66 static opcode_node*
67 new_opcode_node (void)
68 {
69 opcode_node* ent = malloc (sizeof (opcode_node));
70
71 if (!ent)
72 abort ();
73
74 ent->opcode = 0;
75 ent->mask = 0;
76 ent->index = -1;
77 ent->next = NULL;
78
79 return ent;
80 }
81
82 /* Multiple tables are supported, although currently only one table is
83 in use. N.B. there are still some functions have the table name
84 'aarch64_opcode_table' hard-coded in, e.g. print_find_next_opcode;
85 therefore some amount of work needs to be done if the full support
86 for multiple tables needs to be enabled. */
87 static const struct aarch64_opcode *aarch64_opcode_tables[] =
88 {aarch64_opcode_table};
89
90 /* Use top 2 bits to indiate which table. */
91 static unsigned int
92 initialize_index (const struct aarch64_opcode* table)
93 {
94 int i;
95 const int num_of_tables = sizeof (aarch64_opcode_tables)
96 / sizeof (struct aarch64_opcode *);
97 for (i = 0; i < num_of_tables; ++i)
98 if (table == aarch64_opcode_tables [i])
99 break;
100 if (i == num_of_tables)
101 abort ();
102 return (unsigned int)i << 30;
103 }
104
105 static inline const struct aarch64_opcode *
106 index2table (unsigned int index)
107 {
108 return aarch64_opcode_tables[(index >> 30) & 0x3];
109 }
110
111 static inline unsigned int
112 real_index (unsigned int index)
113 {
114 return index & ((1 << 30) - 1);
115 }
116
117 /* Given OPCODE_NODE, return the corresponding aarch64_opcode*. */
118 static const aarch64_opcode*
119 get_aarch64_opcode (const opcode_node *opcode_node)
120 {
121 if (opcode_node == NULL)
122 return NULL;
123 return &index2table (opcode_node->index)[real_index (opcode_node->index)];
124 }
125
126 static void
127 read_table (const struct aarch64_opcode* table)
128 {
129 const struct aarch64_opcode *ent = table;
130 opcode_node **new_ent;
131 unsigned int index = initialize_index (table);
132
133 if (!ent->name)
134 return;
135
136 new_ent = &opcode_nodes_head.next;
137
138 while (*new_ent)
139 new_ent = &(*new_ent)->next;
140
141 do
142 {
143 /* F_PSEUDO needs to be used together with F_ALIAS to indicate an alias
144 opcode is a programmer friendly pseudo instruction available only in
145 the assembly code (thus will not show up in the disassembly). */
146 assert (!pseudo_opcode_p (ent) || alias_opcode_p (ent));
147 /* Skip alias (inc. pseudo) opcode. */
148 if (alias_opcode_p (ent))
149 {
150 index++;
151 continue;
152 }
153 *new_ent = new_opcode_node ();
154 (*new_ent)->opcode = ent->opcode;
155 (*new_ent)->mask = ent->mask;
156 (*new_ent)->index = index++;
157 new_ent = &((*new_ent)->next);
158 } while ((++ent)->name);
159 }
160
161 static inline void
162 print_one_opcode_node (opcode_node* ent)
163 {
164 printf ("%s\t%08x\t%08x\t%d\n", get_aarch64_opcode (ent)->name,
165 get_aarch64_opcode (ent)->opcode, get_aarch64_opcode (ent)->mask,
166 (int)real_index (ent->index));
167 }
168
169 /* As an internal debugging utility, print out the list of nodes pointed
170 by opcode_nodes_head. */
171 static void
172 print_opcode_nodes (void)
173 {
174 opcode_node* ent = opcode_nodes_head.next;
175 printf ("print_opcode_nodes table:\n");
176 while (ent)
177 {
178 print_one_opcode_node (ent);
179 ent = ent->next;
180 }
181 }
182
183 static struct bittree*
184 new_bittree_node (void)
185 {
186 struct bittree* node;
187 node = malloc (sizeof (struct bittree));
188 if (!node)
189 abort ();
190 node->bitno = -1;
191 node->bits[0] = NULL;
192 node->bits[1] = NULL;
193 return node;
194 }
195
196 /* The largest number of opcode entries that exist at a leaf node of the
197 decoding decision tree. The reason that there can be more than one
198 opcode entry is because some opcodes have shared field that is partially
199 constrained and thus cannot be fully isolated using the algorithm
200 here. */
201 static int max_num_opcodes_at_leaf_node = 0;
202
203 /* Given a list of opcodes headed by *OPCODE, try to establish one bit that
204 is shared by all the opcodes in the list as one of base opcode bits. If
205 such a bit is found, divide the list of the opcodes into two based on the
206 value of the bit.
207
208 Store the bit number in BITTREE->BITNO if the division succeeds. If unable
209 to determine such a bit or there is only one opcode in the list, the list
210 is decided to be undividable and OPCODE will be assigned to BITTREE->LIST.
211
212 The function recursively call itself until OPCODE is undividable.
213
214 N.B. the nature of this algrithm determines that given any value in the
215 32-bit space, the computed decision tree will always be able to find one or
216 more opcodes entries for it, regardless whether there is a valid instruction
217 defined for this value or not. In order to detect the undefined values,
218 when the caller obtains the opcode entry/entries, it should at least compare
219 the bit-wise AND result of the value and the mask with the base opcode
220 value; if the two are different, it means that the value is undefined
221 (although the value may be still undefined when the comparison is the same,
222 in which case call aarch64_opcode_decode to carry out further checks). */
223
224 static void
225 divide_table_1 (struct bittree *bittree, opcode_node *opcode)
226 {
227 aarch64_insn mask_and;
228 opcode_node *ent;
229 unsigned int bitno;
230 aarch64_insn bitmask;
231 opcode_node list0, list1, **ptr0, **ptr1;
232 static int depth = 0;
233
234 ++depth;
235
236 if (debug)
237 printf ("Enter into depth %d\n", depth);
238
239 assert (opcode != NULL);
240
241 /* Succeed when there is only one opcode left. */
242 if (!opcode->next)
243 {
244 if (debug)
245 {
246 printf ("opcode isolated:\n");
247 print_one_opcode_node (opcode);
248 }
249 goto divide_table_1_finish;
250 }
251
252 divide_table_1_try_again:
253 mask_and = -1;
254 ent = opcode;
255 while (ent)
256 {
257 mask_and &= ent->mask;
258 ent = ent->next;
259 }
260
261 if (debug)
262 printf ("mask and result: %08x\n", (unsigned int)mask_and);
263
264 /* If no more bit to look into, we have to accept the reality then. */
265 if (!mask_and)
266 {
267 int i;
268 opcode_node *ptr;
269 if (debug)
270 {
271 ptr = opcode;
272 printf ("Isolated opcode group:\n");
273 do {
274 print_one_opcode_node (ptr);
275 ptr = ptr->next;
276 } while (ptr);
277 }
278 /* Count the number of opcodes. */
279 for (i = 0, ptr = opcode; ptr; ++i)
280 ptr = ptr->next;
281 if (i > max_num_opcodes_at_leaf_node)
282 max_num_opcodes_at_leaf_node = i;
283 goto divide_table_1_finish;
284 }
285
286 /* Pick up the right most bit that is 1. */
287 bitno = 0;
288 while (!(mask_and & (1 << bitno)))
289 ++bitno;
290 bitmask = (1 << bitno);
291
292 if (debug)
293 printf ("use bit %d\n", bitno);
294
295 /* Record in the bittree. */
296 bittree->bitno = bitno;
297
298 /* Get two new opcode lists; adjust their masks. */
299 list0.next = NULL;
300 list1.next = NULL;
301 ptr0 = &list0.next;
302 ptr1 = &list1.next;
303 ent = opcode;
304 while (ent)
305 {
306 if (ent->opcode & bitmask)
307 {
308 ent->mask &= (~bitmask);
309 *ptr1 = ent;
310 ent = ent->next;
311 (*ptr1)->next = NULL;
312 ptr1 = &(*ptr1)->next;
313 }
314 else
315 {
316 ent->mask &= (~bitmask);
317 *ptr0 = ent;
318 ent = ent->next;
319 (*ptr0)->next = NULL;
320 ptr0 = &(*ptr0)->next;
321 }
322 }
323
324 /* If BITNO can NOT divide the opcode group, try next bit. */
325 if (list0.next == NULL)
326 {
327 opcode = list1.next;
328 goto divide_table_1_try_again;
329 }
330 else if (list1.next == NULL)
331 {
332 opcode = list0.next;
333 goto divide_table_1_try_again;
334 }
335
336 /* Further divide. */
337 bittree->bits[0] = new_bittree_node ();
338 bittree->bits[1] = new_bittree_node ();
339 divide_table_1 (bittree->bits[0], list0.next);
340 divide_table_1 (bittree->bits[1], list1.next);
341
342 divide_table_1_finish:
343 if (debug)
344 printf ("Leave from depth %d\n", depth);
345 --depth;
346
347 /* Record the opcode entries on this leaf node. */
348 bittree->list = opcode;
349
350 return;
351 }
352
353 /* Call divide_table_1 to divide the all the opcodes and thus create the
354 decoding decision tree. */
355 static struct bittree *
356 divide_table (void)
357 {
358 struct bittree *bittree = new_bittree_node ();
359 divide_table_1 (bittree, opcode_nodes_head.next);
360 return bittree;
361 }
362
363 /* Read in all of the tables, create the decoding decision tree and return
364 the tree root. */
365 static struct bittree *
366 initialize_decoder_tree (void)
367 {
368 int i;
369 const int num_of_tables = (sizeof (aarch64_opcode_tables)
370 / sizeof (struct aarch64_opcode *));
371 for (i = 0; i < num_of_tables; ++i)
372 read_table (aarch64_opcode_tables [i]);
373 if (debug)
374 print_opcode_nodes ();
375 return divide_table ();
376 }
377
378 static void __attribute__ ((format (printf, 2, 3)))
379 indented_print (unsigned int indent, const char *format, ...)
380 {
381 va_list ap;
382 va_start (ap, format);
383 printf ("%*s", (int) indent, "");
384 vprintf (format, ap);
385 va_end (ap);
386 }
387
388 /* N.B. read the comment above divide_table_1 for the reason why the generated
389 decision tree function never returns NULL. */
390
391 static void
392 print_decision_tree_1 (unsigned int indent, struct bittree* bittree)
393 {
394 /* PATTERN is only used to generate comment in the code. */
395 static char pattern[33] = "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx";
396 /* Low bits in PATTERN will be printed first which then look as the high
397 bits in comment. We need to reverse the index to get correct print. */
398 unsigned int msb = sizeof (pattern) - 2;
399 assert (bittree != NULL);
400
401 /* Leaf node located. */
402 if (bittree->bits[0] == NULL && bittree->bits[1] == NULL)
403 {
404 assert (bittree->list != NULL);
405 indented_print (indent, "/* 33222222222211111111110000000000\n");
406 indented_print (indent, " 10987654321098765432109876543210\n");
407 indented_print (indent, " %s\n", pattern);
408 indented_print (indent, " %s. */\n",
409 get_aarch64_opcode (bittree->list)->name);
410 indented_print (indent, "return %u;\n",
411 real_index (bittree->list->index));
412 return;
413 }
414
415 /* Walk down the decoder tree. */
416 indented_print (indent, "if (((word >> %d) & 0x1) == 0)\n", bittree->bitno);
417 indented_print (indent, " {\n");
418 pattern[msb - bittree->bitno] = '0';
419 print_decision_tree_1 (indent + 4, bittree->bits[0]);
420 indented_print (indent, " }\n");
421 indented_print (indent, "else\n");
422 indented_print (indent, " {\n");
423 pattern[msb - bittree->bitno] = '1';
424 print_decision_tree_1 (indent + 4, bittree->bits[1]);
425 indented_print (indent, " }\n");
426 pattern[msb - bittree->bitno] = 'x';
427 }
428
429 /* Generate aarch64_opcode_lookup in C code to the standard output. */
430
431 static void
432 print_decision_tree (struct bittree* bittree)
433 {
434 if (debug)
435 printf ("Enter print_decision_tree\n");
436
437 printf ("/* Called by aarch64_opcode_lookup. */\n\n");
438
439 printf ("static int\n");
440 printf ("aarch64_opcode_lookup_1 (uint32_t word)\n");
441 printf ("{\n");
442
443 print_decision_tree_1 (2, bittree);
444
445 printf ("}\n\n");
446
447
448 printf ("/* Lookup opcode WORD in the opcode table. N.B. all alias\n");
449 printf (" opcodes are ignored here. */\n\n");
450
451 printf ("const aarch64_opcode *\n");
452 printf ("aarch64_opcode_lookup (uint32_t word)\n");
453 printf ("{\n");
454 printf (" return aarch64_opcode_table + aarch64_opcode_lookup_1 (word);\n");
455 printf ("}\n");
456 }
457
458 static void
459 print_find_next_opcode_1 (struct bittree* bittree)
460 {
461 assert (bittree != NULL);
462
463 /* Leaf node located. */
464 if (bittree->bits[0] == NULL && bittree->bits[1] == NULL)
465 {
466 assert (bittree->list != NULL);
467 /* Find multiple opcode entries in one leaf node. */
468 if (bittree->list->next != NULL)
469 {
470 opcode_node *list = bittree->list;
471 while (list != NULL)
472 {
473 const aarch64_opcode *curr = get_aarch64_opcode (list);
474 const aarch64_opcode *next = get_aarch64_opcode (list->next);
475
476 printf (" case %u: ",
477 (unsigned int)(curr - aarch64_opcode_table));
478 if (list->next != NULL)
479 {
480 printf ("value = %u; break;\t", real_index (list->next->index));
481 printf ("/* %s --> %s. */\n", curr->name, next->name);
482 }
483 else
484 {
485 printf ("return NULL;\t\t");
486 printf ("/* %s --> NULL. */\n", curr->name);
487 }
488
489 list = list->next;
490 }
491 }
492 return;
493 }
494
495 /* Walk down the decoder tree. */
496 print_find_next_opcode_1 (bittree->bits[0]);
497 print_find_next_opcode_1 (bittree->bits[1]);
498 }
499
500 /* Generate aarch64_find_next_opcode in C code to the standard output. */
501
502 static void
503 print_find_next_opcode (struct bittree* bittree)
504 {
505 if (debug)
506 printf ("Enter print_find_next_opcode\n");
507
508 printf ("\n");
509 printf ("const aarch64_opcode *\n");
510 printf ("aarch64_find_next_opcode (const aarch64_opcode *opcode)\n");
511 printf ("{\n");
512 printf (" /* Use the index as the key to locate the next opcode. */\n");
513 printf (" int key = opcode - aarch64_opcode_table;\n");
514 printf (" int value;\n");
515 printf (" switch (key)\n");
516 printf (" {\n");
517
518 print_find_next_opcode_1 (bittree);
519
520 printf (" default: return NULL;\n");
521 printf (" }\n\n");
522
523 printf (" return aarch64_opcode_table + value;\n");
524 printf ("}\n");
525 }
526
527 /* Release the dynamic memory resource allocated for the generation of the
528 decoder tree. */
529
530 static void
531 release_resource_decoder_tree (struct bittree* bittree)
532 {
533 assert (bittree != NULL);
534
535 /* Leaf node located. */
536 if (bittree->bits[0] == NULL && bittree->bits[1] == NULL)
537 {
538 assert (bittree->list != NULL);
539 /* Free opcode_nodes. */
540 opcode_node *list = bittree->list;
541 while (list != NULL)
542 {
543 opcode_node *next = list->next;
544 free (list);
545 list = next;
546 }
547 /* Free the tree node. */
548 free (bittree);
549 return;
550 }
551
552 /* Walk down the decoder tree. */
553 release_resource_decoder_tree (bittree->bits[0]);
554 release_resource_decoder_tree (bittree->bits[1]);
555
556 /* Free the tree node. */
557 free (bittree);
558 }
559
560 /* Generate aarch64_find_real_opcode in C code to the standard output.
561 TABLE points to the alias info table, while NUM indicates the number of
562 entries in the table. */
563
564 static void
565 print_find_real_opcode (const opcode_node *table, int num)
566 {
567 int i;
568
569 if (debug)
570 printf ("Enter print_find_real_opcode\n");
571
572 printf ("\n");
573 printf ("const aarch64_opcode *\n");
574 printf ("aarch64_find_real_opcode (const aarch64_opcode *opcode)\n");
575 printf ("{\n");
576 printf (" /* Use the index as the key to locate the real opcode. */\n");
577 printf (" int key = opcode - aarch64_opcode_table;\n");
578 printf (" int value;\n");
579 printf (" switch (key)\n");
580 printf (" {\n");
581
582 for (i = 0; i < num; ++i)
583 {
584 const opcode_node *real = table + i;
585 const opcode_node *alias = real->next;
586 for (; alias; alias = alias->next)
587 printf (" case %u:\t/* %s */\n", real_index (alias->index),
588 get_aarch64_opcode (alias)->name);
589 printf (" value = %u;\t/* --> %s. */\n", real_index (real->index),
590 get_aarch64_opcode (real)->name);
591 printf (" break;\n");
592 }
593
594 printf (" default: return NULL;\n");
595 printf (" }\n\n");
596
597 printf (" return aarch64_opcode_table + value;\n");
598 printf ("}\n");
599 }
600
601 /* Generate aarch64_find_alias_opcode in C code to the standard output.
602 TABLE points to the alias info table, while NUM indicates the number of
603 entries in the table. */
604
605 static void
606 print_find_alias_opcode (const opcode_node *table, int num)
607 {
608 int i;
609
610 if (debug)
611 printf ("Enter print_find_alias_opcode\n");
612
613 printf ("\n");
614 printf ("const aarch64_opcode *\n");
615 printf ("aarch64_find_alias_opcode (const aarch64_opcode *opcode)\n");
616 printf ("{\n");
617 printf (" /* Use the index as the key to locate the alias opcode. */\n");
618 printf (" int key = opcode - aarch64_opcode_table;\n");
619 printf (" int value;\n");
620 printf (" switch (key)\n");
621 printf (" {\n");
622
623 for (i = 0; i < num; ++i)
624 {
625 const opcode_node *node = table + i;
626 assert (node->next);
627 printf (" case %u: value = %u; break;", real_index (node->index),
628 real_index (node->next->index));
629 printf ("\t/* %s --> %s. */\n", get_aarch64_opcode (node)->name,
630 get_aarch64_opcode (node->next)->name);
631 }
632
633 printf (" default: return NULL;\n");
634 printf (" }\n\n");
635
636 printf (" return aarch64_opcode_table + value;\n");
637 printf ("}\n");
638 }
639
640 /* Generate aarch64_find_next_alias_opcode in C code to the standard output.
641 TABLE points to the alias info table, while NUM indicates the number of
642 entries in the table. */
643
644 static void
645 print_find_next_alias_opcode (const opcode_node *table, int num)
646 {
647 int i;
648
649 if (debug)
650 printf ("Enter print_find_next_alias_opcode\n");
651
652 printf ("\n");
653 printf ("const aarch64_opcode *\n");
654 printf ("aarch64_find_next_alias_opcode (const aarch64_opcode *opcode)\n");
655 printf ("{\n");
656 printf (" /* Use the index as the key to locate the next opcode. */\n");
657 printf (" int key = opcode - aarch64_opcode_table;\n");
658 printf (" int value;\n");
659 printf (" switch (key)\n");
660 printf (" {\n");
661
662 for (i = 0; i < num; ++i)
663 {
664 const opcode_node *node = table + i;
665 assert (node->next);
666 if (node->next->next == NULL)
667 continue;
668 while (node->next->next)
669 {
670 printf (" case %u: value = %u; break;", real_index (node->next->index),
671 real_index (node->next->next->index));
672 printf ("\t/* %s --> %s. */\n",
673 get_aarch64_opcode (node->next)->name,
674 get_aarch64_opcode (node->next->next)->name);
675 node = node->next;
676 }
677 }
678
679 printf (" default: return NULL;\n");
680 printf (" }\n\n");
681
682 printf (" return aarch64_opcode_table + value;\n");
683 printf ("}\n");
684 }
685
686 /* Given OPCODE, establish and return a link list of alias nodes in the
687 preferred order. */
688
689 opcode_node *
690 find_alias_opcode (const aarch64_opcode *opcode)
691 {
692 int i;
693 /* Assume maximum of 32 disassemble preference candidates. */
694 const int max_num_aliases = 32;
695 const aarch64_opcode *ent;
696 const aarch64_opcode *preferred[max_num_aliases + 1];
697 opcode_node head, **next;
698
699 assert (opcode_has_alias (opcode));
700
701 i = 0;
702 if (opcode->name != NULL)
703 preferred[i++] = opcode;
704 ent = aarch64_opcode_table;
705 while (ent->name != NULL)
706 {
707 /* The mask of an alias opcode must be equal to or a super-set (i.e.
708 more constrained) of that of the aliased opcode; so is the base
709 opcode value. */
710 if (alias_opcode_p (ent)
711 && (ent->mask & opcode->mask) == opcode->mask
712 && (opcode->mask & ent->opcode) == (opcode->mask & opcode->opcode))
713 {
714 assert (i < max_num_aliases);
715 preferred[i++] = ent;
716 if (debug)
717 printf ("found %s for %s.", ent->name, opcode->name);
718 }
719 ++ent;
720 }
721
722 if (debug)
723 {
724 int m;
725 printf ("un-orderd list: ");
726 for (m = 0; m < i; ++m)
727 printf ("%s, ", preferred[m]->name);
728 printf ("\n");
729 }
730
731 /* There must be at least one alias. */
732 assert (i >= 1);
733
734 /* Sort preferred array according to the priority (from the lowest to the
735 highest. */
736 if (i > 1)
737 {
738 int j, k;
739 for (j = 0; j < i - 1; ++j)
740 {
741 for (k = 0; k < i - 1 - j; ++k)
742 {
743 const aarch64_opcode *t;
744 t = preferred [k+1];
745 if (opcode_priority (t) < opcode_priority (preferred [k]))
746 {
747 preferred [k+1] = preferred [k];
748 preferred [k] = t;
749 }
750 }
751 }
752 }
753
754 if (debug)
755 {
756 int m;
757 printf ("orderd list: ");
758 for (m = 0; m < i; ++m)
759 printf ("%s, ", preferred[m]->name);
760 printf ("\n");
761 }
762
763 /* Create a link-list of opcode_node with disassemble preference from
764 higher to lower. */
765 next = &head.next;
766 --i;
767 while (i >= 0)
768 {
769 const aarch64_opcode *alias = preferred [i];
770 opcode_node *node = new_opcode_node ();
771
772 if (debug)
773 printf ("add %s.\n", alias->name);
774
775 node->index = alias - aarch64_opcode_table;
776 *next = node;
777 next = &node->next;
778
779 --i;
780 }
781 *next = NULL;
782
783 return head.next;
784 }
785
786 /* Create and return alias information.
787 Return the address of the created alias info table; return the number
788 of table entries in *NUM_PTR. */
789
790 opcode_node *
791 create_alias_info (int *num_ptr)
792 {
793 int i, num;
794 opcode_node *ret;
795 const aarch64_opcode *ent;
796
797 /* Calculate the total number of opcodes that have alias. */
798 num = 0;
799 ent = aarch64_opcode_table;
800 while (ent->name != NULL)
801 {
802 if (opcode_has_alias (ent))
803 {
804 /* Assert the alias relationship be flat-structured to keep
805 algorithms simple; not allow F_ALIAS and F_HAS_ALIAS both
806 specified. */
807 assert (!alias_opcode_p (ent));
808 ++num;
809 }
810 ++ent;
811 }
812 assert (num_ptr);
813 *num_ptr = num;
814
815 /* The array of real opcodes that have alias(es). */
816 ret = malloc (sizeof (opcode_node) * num);
817
818 /* For each opcode, establish a list of alias nodes in a preferred
819 order. */
820 for (i = 0, ent = aarch64_opcode_table; i < num; ++i, ++ent)
821 {
822 opcode_node *node = ret + i;
823 while (ent->name != NULL && !opcode_has_alias (ent))
824 ++ent;
825 assert (ent->name != NULL);
826 node->index = ent - aarch64_opcode_table;
827 node->next = find_alias_opcode (ent);
828 assert (node->next);
829 }
830 assert (i == num);
831
832 return ret;
833 }
834
835 /* Release the dynamic memory resource allocated for the generation of the
836 alias information. */
837
838 void
839 release_resource_alias_info (opcode_node *alias_info, int num)
840 {
841 int i = 0;
842 opcode_node *node = alias_info;
843
844 /* Free opcode_node list. */
845 for (; i < num; ++i, ++node)
846 {
847 opcode_node *list = node->next;
848 do
849 {
850 opcode_node *next = list->next;
851 free (list);
852 list = next;
853 } while (list != NULL);
854 }
855
856 /* Free opcode_node array. */
857 free (alias_info);
858 }
859
860 /* As a debugging utility, print out the result of the table division, although
861 it is not doing much this moment. */
862 static void
863 print_divide_result (const struct bittree *bittree ATTRIBUTE_UNUSED)
864 {
865 printf ("max_num_opcodes_at_leaf_node: %d\n", max_num_opcodes_at_leaf_node);
866 return;
867 }
868 \f
869 /* Structure to help generate the operand table. */
870 struct operand
871 {
872 const char *class;
873 const char *inserter;
874 const char *extractor;
875 const char *str;
876 const char *flags;
877 const char *fields;
878 const char *desc;
879 unsigned processed : 1;
880 unsigned has_inserter : 1;
881 unsigned has_extractor : 1;
882 };
883
884 typedef struct operand operand;
885
886 #ifdef X
887 #undef X
888 #endif
889
890 #ifdef Y
891 #undef Y
892 #endif
893
894 #ifdef F
895 #undef F
896 #endif
897
898 /* Get the operand information in strings. */
899
900 static operand operands[] =
901 {
902 {"NIL", "0", "0", "", "0", "{0}", "<none>", 0, 0, 0},
903 #define F(...) #__VA_ARGS__
904 #define X(a,b,c,d,e,f,g) \
905 {#a, #b, #c, d, #e, "{"f"}", g, 0, 0, 0},
906 #define Y(a,b,d,e,f,g) \
907 {#a, "ins_"#b, "ext_"#b, d, #e, "{"f"}", g, 0, 0, 0},
908 AARCH64_OPERANDS
909 {"NIL", "0", "0", "", "0", "{0}", "DUMMY", 0, 0, 0},
910 };
911
912 #undef F
913 #undef X
914
915 static void
916 process_operand_table (void)
917 {
918 int i;
919 operand *opnd;
920 const int num = sizeof (operands) / sizeof (operand);
921
922 for (i = 0, opnd = operands; i < num; ++i, ++opnd)
923 {
924 opnd->has_inserter = opnd->inserter[0] != '0';
925 opnd->has_extractor = opnd->extractor[0] != '0';
926 }
927 }
928
929 /* Generate aarch64_operands in C to the standard output. */
930
931 static void
932 print_operand_table (void)
933 {
934 int i;
935 operand *opnd;
936 const int num = sizeof (operands) / sizeof (operand);
937
938 if (debug)
939 printf ("Enter print_operand_table\n");
940
941 printf ("\n");
942 printf ("const struct aarch64_operand aarch64_operands[] =\n");
943 printf ("{\n");
944
945 for (i = 0, opnd = operands; i < num; ++i, ++opnd)
946 {
947 char flags[256];
948 flags[0] = '\0';
949 if (opnd->flags[0] != '0')
950 sprintf (flags, "%s", opnd->flags);
951 if (opnd->has_inserter)
952 {
953 if (flags[0] != '\0')
954 strcat (flags, " | ");
955 strcat (flags, "OPD_F_HAS_INSERTER");
956 }
957 if (opnd->has_extractor)
958 {
959 if (flags[0] != '\0')
960 strcat (flags, " | ");
961 strcat (flags, "OPD_F_HAS_EXTRACTOR");
962 }
963 if (flags[0] == '\0')
964 {
965 flags[0] = '0';
966 flags[1] = '\0';
967 }
968 printf (" {AARCH64_OPND_CLASS_%s, \"%s\", %s, %s, \"%s\"},\n",
969 opnd->class, opnd->str, flags, opnd->fields, opnd->desc);
970 }
971 printf ("};\n");
972 }
973
974 /* Generate aarch64_insert_operand in C to the standard output. */
975
976 static void
977 print_operand_inserter (void)
978 {
979 int i;
980 operand *opnd;
981 const int num = sizeof (operands) / sizeof (operand);
982
983 if (debug)
984 printf ("Enter print_operand_inserter\n");
985
986 printf ("\n");
987 printf ("const char*\n");
988 printf ("aarch64_insert_operand (const aarch64_operand *self,\n\
989 const aarch64_opnd_info *info,\n\
990 aarch64_insn *code, const aarch64_inst *inst)\n");
991 printf ("{\n");
992 printf (" /* Use the index as the key. */\n");
993 printf (" int key = self - aarch64_operands;\n");
994 printf (" switch (key)\n");
995 printf (" {\n");
996
997 for (i = 0, opnd = operands; i < num; ++i, ++opnd)
998 opnd->processed = 0;
999
1000 for (i = 0, opnd = operands; i < num; ++i, ++opnd)
1001 {
1002 if (!opnd->processed && opnd->has_inserter)
1003 {
1004 int j = i + 1;
1005 const int len = strlen (opnd->inserter);
1006 operand *opnd2 = opnd + 1;
1007 printf (" case %u:\n", (unsigned int)(opnd - operands));
1008 opnd->processed = 1;
1009 for (; j < num; ++j, ++opnd2)
1010 {
1011 if (!opnd2->processed
1012 && opnd2->has_inserter
1013 && len == strlen (opnd2->inserter)
1014 && strncmp (opnd->inserter, opnd2->inserter, len) == 0)
1015 {
1016 printf (" case %u:\n", (unsigned int)(opnd2 - operands));
1017 opnd2->processed = 1;
1018 }
1019 }
1020 printf (" return aarch64_%s (self, info, code, inst);\n",
1021 opnd->inserter);
1022 }
1023 }
1024
1025 printf (" default: assert (0); abort ();\n");
1026 printf (" }\n");
1027 printf ("}\n");
1028 }
1029
1030 /* Generate aarch64_extract_operand in C to the standard output. */
1031
1032 static void
1033 print_operand_extractor (void)
1034 {
1035 int i;
1036 operand *opnd;
1037 const int num = sizeof (operands) / sizeof (operand);
1038
1039 if (debug)
1040 printf ("Enter print_operand_extractor\n");
1041
1042 printf ("\n");
1043 printf ("int\n");
1044 printf ("aarch64_extract_operand (const aarch64_operand *self,\n\
1045 aarch64_opnd_info *info,\n\
1046 aarch64_insn code, const aarch64_inst *inst)\n");
1047 printf ("{\n");
1048 printf (" /* Use the index as the key. */\n");
1049 printf (" int key = self - aarch64_operands;\n");
1050 printf (" switch (key)\n");
1051 printf (" {\n");
1052
1053 for (i = 0, opnd = operands; i < num; ++i, ++opnd)
1054 opnd->processed = 0;
1055
1056 for (i = 0, opnd = operands; i < num; ++i, ++opnd)
1057 {
1058 if (!opnd->processed && opnd->has_extractor)
1059 {
1060 int j = i + 1;
1061 const int len = strlen (opnd->extractor);
1062 operand *opnd2 = opnd + 1;
1063 printf (" case %u:\n", (unsigned int)(opnd - operands));
1064 opnd->processed = 1;
1065 for (; j < num; ++j, ++opnd2)
1066 {
1067 if (!opnd2->processed
1068 && opnd2->has_extractor
1069 && len == strlen (opnd2->extractor)
1070 && strncmp (opnd->extractor, opnd2->extractor, len) == 0)
1071 {
1072 printf (" case %u:\n", (unsigned int)(opnd2 - operands));
1073 opnd2->processed = 1;
1074 }
1075 }
1076 printf (" return aarch64_%s (self, info, code, inst);\n",
1077 opnd->extractor);
1078 }
1079 }
1080
1081 printf (" default: assert (0); abort ();\n");
1082 printf (" }\n");
1083 printf ("}\n");
1084 }
1085 \f
1086 /* Table indexed by opcode enumerator stores the index of the corresponding
1087 opcode entry in aarch64_opcode_table. */
1088 static unsigned op_enum_table [OP_TOTAL_NUM];
1089
1090 /* Print out the routine which, given the opcode enumerator, returns the
1091 corresponding opcode entry pointer. */
1092
1093 static void
1094 print_get_opcode (void)
1095 {
1096 int i;
1097 const int num = OP_TOTAL_NUM;
1098 const aarch64_opcode *opcode;
1099
1100 if (debug)
1101 printf ("Enter print_get_opcode\n");
1102
1103 /* Fill in the internal table. */
1104 opcode = aarch64_opcode_table;
1105 while (opcode->name != NULL)
1106 {
1107 if (opcode->op != OP_NIL)
1108 {
1109 /* Assert opcode enumerator be unique, in other words, no shared by
1110 different opcodes. */
1111 if (op_enum_table[opcode->op] != 0)
1112 {
1113 fprintf (stderr, "Opcode %u is shared by different %s and %s.\n",
1114 opcode->op,
1115 aarch64_opcode_table[op_enum_table[opcode->op]].name,
1116 opcode->name);
1117 assert (0);
1118 abort ();
1119 }
1120 assert (opcode->op < OP_TOTAL_NUM);
1121 op_enum_table[opcode->op] = opcode - aarch64_opcode_table;
1122 }
1123 ++opcode;
1124 }
1125
1126 /* Print the table. */
1127 printf ("\n");
1128 printf ("/* Indexed by an enum aarch64_op enumerator, the value is the offset of\n\
1129 the corresponding aarch64_opcode entry in the aarch64_opcode_table. */\n\n");
1130 printf ("static const unsigned op_enum_table [] =\n");
1131 printf ("{\n");
1132 for (i = 0; i < num; ++i)
1133 printf (" %u,\n", op_enum_table[i]);
1134 printf ("};\n");
1135
1136 /* Print the function. */
1137 printf ("\n");
1138 printf ("/* Given the opcode enumerator OP, return the pointer to the corresponding\n");
1139 printf (" opcode entry. */\n");
1140 printf ("\n");
1141 printf ("const aarch64_opcode *\n");
1142 printf ("aarch64_get_opcode (enum aarch64_op op)\n");
1143 printf ("{\n");
1144 printf (" return aarch64_opcode_table + op_enum_table[op];\n");
1145 printf ("}\n");
1146 }
1147
1148 /* Print out the content of an opcode table (not in use). */
1149 static void ATTRIBUTE_UNUSED
1150 print_table (struct aarch64_opcode* table)
1151 {
1152 struct aarch64_opcode *ent = table;
1153 do
1154 {
1155 printf ("%s\t%08x\t%08x\n", ent->name, (unsigned int)ent->opcode,
1156 (unsigned int)ent->mask);
1157 } while ((++ent)->name);
1158 }
1159 \f
1160 static const char * program_name = NULL;
1161
1162 /* Program options. */
1163 struct option long_options[] =
1164 {
1165 {"debug", no_argument, NULL, 'd'},
1166 {"version", no_argument, NULL, 'V'},
1167 {"help", no_argument, NULL, 'h'},
1168 {"gen-opc", no_argument, NULL, 'c'},
1169 {"gen-asm", no_argument, NULL, 'a'},
1170 {"gen-dis", no_argument, NULL, 's'},
1171 {0, no_argument, NULL, 0}
1172 };
1173
1174 static void
1175 print_version (void)
1176 {
1177 printf ("%s: version 1.0\n", program_name);
1178 xexit (0);
1179 }
1180
1181 static void
1182 usage (FILE * stream, int status)
1183 {
1184 fprintf (stream, "Usage: %s [-V | --version] [-d | --debug] [--help]\n",
1185 program_name);
1186 fprintf (stream, "\t[ [-c | --gen-opc] | [-a | --gen-asm] | [-s | --gen-dis] ]\n");
1187 xexit (status);
1188 }
1189
1190 int
1191 main (int argc, char **argv)
1192 {
1193 extern int chdir (char *);
1194 int c;
1195 int gen_opcode_p = 0;
1196 int gen_assembler_p = 0;
1197 int gen_disassembler_p = 0;
1198
1199 program_name = *argv;
1200 xmalloc_set_program_name (program_name);
1201
1202 while ((c = getopt_long (argc, argv, "vVdhacs", long_options, 0)) != EOF)
1203 switch (c)
1204 {
1205 case 'V':
1206 case 'v':
1207 print_version ();
1208 break;
1209 case 'd':
1210 debug = 1;
1211 break;
1212 case 'h':
1213 case '?':
1214 usage (stderr, 0);
1215 break;
1216 case 'c':
1217 gen_opcode_p = 1;
1218 break;
1219 case 'a':
1220 gen_assembler_p = 1;
1221 break;
1222 case 's':
1223 gen_disassembler_p = 1;
1224 break;
1225 default:
1226 case 0:
1227 break;
1228 }
1229
1230 if (argc == 1 || optind != argc)
1231 usage (stdout, 1);
1232
1233 if (gen_opcode_p + gen_assembler_p + gen_disassembler_p > 1)
1234 {
1235 printf ("Please specify only one of the following options\n\
1236 [-c | --gen-opc] [-a | --gen-asm] [-s | --gen-dis]\n");
1237 xexit (2);
1238 }
1239
1240 struct bittree *decoder_tree;
1241
1242 decoder_tree = initialize_decoder_tree ();
1243 if (debug)
1244 print_divide_result (decoder_tree);
1245
1246 printf ("/* This file is automatically generated by aarch64-gen. Do not edit! */\n");
1247 printf ("/* Copyright (C) 2012-2018 Free Software Foundation, Inc.\n\
1248 Contributed by ARM Ltd.\n\
1249 \n\
1250 This file is part of the GNU opcodes library.\n\
1251 \n\
1252 This library is free software; you can redistribute it and/or modify\n\
1253 it under the terms of the GNU General Public License as published by\n\
1254 the Free Software Foundation; either version 3, or (at your option)\n\
1255 any later version.\n\
1256 \n\
1257 It is distributed in the hope that it will be useful, but WITHOUT\n\
1258 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY\n\
1259 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public\n\
1260 License for more details.\n\
1261 \n\
1262 You should have received a copy of the GNU General Public License\n\
1263 along with this program; see the file COPYING3. If not,\n\
1264 see <http://www.gnu.org/licenses/>. */\n");
1265
1266 printf ("\n");
1267 printf ("#include \"sysdep.h\"\n");
1268 if (gen_opcode_p)
1269 printf ("#include \"aarch64-opc.h\"\n");
1270 if (gen_assembler_p)
1271 printf ("#include \"aarch64-asm.h\"\n");
1272 if (gen_disassembler_p)
1273 printf ("#include \"aarch64-dis.h\"\n");
1274 printf ("\n");
1275
1276 /* Generate opcode entry lookup for the disassembler. */
1277 if (gen_disassembler_p)
1278 {
1279 print_decision_tree (decoder_tree);
1280 print_find_next_opcode (decoder_tree);
1281 release_resource_decoder_tree (decoder_tree);
1282 }
1283
1284 /* Generate alias opcode handling for the assembler or the disassembler. */
1285 if (gen_assembler_p || gen_disassembler_p)
1286 {
1287 int num;
1288 opcode_node *alias_info = create_alias_info (&num);
1289
1290 if (gen_assembler_p)
1291 print_find_real_opcode (alias_info, num);
1292
1293 if (gen_disassembler_p)
1294 {
1295 print_find_alias_opcode (alias_info, num);
1296 print_find_next_alias_opcode (alias_info, num);
1297 }
1298
1299 release_resource_alias_info (alias_info, num);
1300 }
1301
1302 /* Generate operand table. */
1303 process_operand_table ();
1304
1305 if (gen_assembler_p)
1306 print_operand_inserter ();
1307
1308 if (gen_disassembler_p)
1309 print_operand_extractor ();
1310
1311 if (gen_opcode_p)
1312 print_operand_table ();
1313
1314 /* Generate utility to return aarch64_opcode entry given an enumerator. */
1315 if (gen_opcode_p)
1316 print_get_opcode ();
1317
1318 exit (0);
1319 }
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