1 /* debug.c -- Handle generic debugging information.
2 Copyright (C) 1995-2016 Free Software Foundation, Inc.
3 Written by Ian Lance Taylor <ian@cygnus.com>.
4
5 This file is part of GNU Binutils.
6
7 This program is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3 of the License, or
10 (at your option) any later version.
11
12 This program is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
16
17 You should have received a copy of the GNU General Public License
18 along with this program; if not, write to the Free Software
19 Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA
20 02110-1301, USA. */
21
22
23 /* This file implements a generic debugging format. We may eventually
24 have readers which convert different formats into this generic
25 format, and writers which write it out. The initial impetus for
26 this was writing a converter from stabs to HP IEEE-695 debugging
27 format. */
28
29 #include "sysdep.h"
30 #include <assert.h>
31 #include "bfd.h"
32 #include "libiberty.h"
33 #include "filenames.h"
34 #include "debug.h"
35
36 /* Global information we keep for debugging. A pointer to this
37 structure is the debugging handle passed to all the routines. */
38
39 struct debug_handle
40 {
41 /* A linked list of compilation units. */
42 struct debug_unit *units;
43 /* The current compilation unit. */
44 struct debug_unit *current_unit;
45 /* The current source file. */
46 struct debug_file *current_file;
47 /* The current function. */
48 struct debug_function *current_function;
49 /* The current block. */
50 struct debug_block *current_block;
51 /* The current line number information for the current unit. */
52 struct debug_lineno *current_lineno;
53 /* Mark. This is used by debug_write. */
54 unsigned int mark;
55 /* A struct/class ID used by debug_write. */
56 unsigned int class_id;
57 /* The base for class_id for this call to debug_write. */
58 unsigned int base_id;
59 /* The current line number in debug_write. */
60 struct debug_lineno *current_write_lineno;
61 unsigned int current_write_lineno_index;
62 /* A list of classes which have assigned ID's during debug_write.
63 This is linked through the next_id field of debug_class_type. */
64 struct debug_class_id *id_list;
65 /* A list used to avoid recursion during debug_type_samep. */
66 struct debug_type_compare_list *compare_list;
67 };
68
69 /* Information we keep for a single compilation unit. */
70
71 struct debug_unit
72 {
73 /* The next compilation unit. */
74 struct debug_unit *next;
75 /* A list of files included in this compilation unit. The first
76 file is always the main one, and that is where the main file name
77 is stored. */
78 struct debug_file *files;
79 /* Line number information for this compilation unit. This is not
80 stored by function, because assembler code may have line number
81 information without function information. */
82 struct debug_lineno *linenos;
83 };
84
85 /* Information kept for a single source file. */
86
87 struct debug_file
88 {
89 /* The next source file in this compilation unit. */
90 struct debug_file *next;
91 /* The name of the source file. */
92 const char *filename;
93 /* Global functions, variables, types, etc. */
94 struct debug_namespace *globals;
95 };
96
97 /* A type. */
98
99 struct debug_type_s
100 {
101 /* Kind of type. */
102 enum debug_type_kind kind;
103 /* Size of type (0 if not known). */
104 unsigned int size;
105 /* Type which is a pointer to this type. */
106 debug_type pointer;
107 /* Tagged union with additional information about the type. */
108 union
109 {
110 /* DEBUG_KIND_INDIRECT. */
111 struct debug_indirect_type *kindirect;
112 /* DEBUG_KIND_INT. */
113 /* Whether the integer is unsigned. */
114 bfd_boolean kint;
115 /* DEBUG_KIND_STRUCT, DEBUG_KIND_UNION, DEBUG_KIND_CLASS,
116 DEBUG_KIND_UNION_CLASS. */
117 struct debug_class_type *kclass;
118 /* DEBUG_KIND_ENUM. */
119 struct debug_enum_type *kenum;
120 /* DEBUG_KIND_POINTER. */
121 struct debug_type_s *kpointer;
122 /* DEBUG_KIND_FUNCTION. */
123 struct debug_function_type *kfunction;
124 /* DEBUG_KIND_REFERENCE. */
125 struct debug_type_s *kreference;
126 /* DEBUG_KIND_RANGE. */
127 struct debug_range_type *krange;
128 /* DEBUG_KIND_ARRAY. */
129 struct debug_array_type *karray;
130 /* DEBUG_KIND_SET. */
131 struct debug_set_type *kset;
132 /* DEBUG_KIND_OFFSET. */
133 struct debug_offset_type *koffset;
134 /* DEBUG_KIND_METHOD. */
135 struct debug_method_type *kmethod;
136 /* DEBUG_KIND_CONST. */
137 struct debug_type_s *kconst;
138 /* DEBUG_KIND_VOLATILE. */
139 struct debug_type_s *kvolatile;
140 /* DEBUG_KIND_NAMED, DEBUG_KIND_TAGGED. */
141 struct debug_named_type *knamed;
142 } u;
143 };
144
145 /* Information kept for an indirect type. */
146
147 struct debug_indirect_type
148 {
149 /* Slot where the final type will appear. */
150 debug_type *slot;
151 /* Tag. */
152 const char *tag;
153 };
154
155 /* Information kept for a struct, union, or class. */
156
157 struct debug_class_type
158 {
159 /* NULL terminated array of fields. */
160 debug_field *fields;
161 /* A mark field which indicates whether the struct has already been
162 printed. */
163 unsigned int mark;
164 /* This is used to uniquely identify unnamed structs when printing. */
165 unsigned int id;
166 /* The remaining fields are only used for DEBUG_KIND_CLASS and
167 DEBUG_KIND_UNION_CLASS. */
168 /* NULL terminated array of base classes. */
169 debug_baseclass *baseclasses;
170 /* NULL terminated array of methods. */
171 debug_method *methods;
172 /* The type of the class providing the virtual function table for
173 this class. This may point to the type itself. */
174 debug_type vptrbase;
175 };
176
177 /* Information kept for an enum. */
178
179 struct debug_enum_type
180 {
181 /* NULL terminated array of names. */
182 const char **names;
183 /* Array of corresponding values. */
184 bfd_signed_vma *values;
185 };
186
187 /* Information kept for a function. FIXME: We should be able to
188 record the parameter types. */
189
190 struct debug_function_type
191 {
192 /* Return type. */
193 debug_type return_type;
194 /* NULL terminated array of argument types. */
195 debug_type *arg_types;
196 /* Whether the function takes a variable number of arguments. */
197 bfd_boolean varargs;
198 };
199
200 /* Information kept for a range. */
201
202 struct debug_range_type
203 {
204 /* Range base type. */
205 debug_type type;
206 /* Lower bound. */
207 bfd_signed_vma lower;
208 /* Upper bound. */
209 bfd_signed_vma upper;
210 };
211
212 /* Information kept for an array. */
213
214 struct debug_array_type
215 {
216 /* Element type. */
217 debug_type element_type;
218 /* Range type. */
219 debug_type range_type;
220 /* Lower bound. */
221 bfd_signed_vma lower;
222 /* Upper bound. */
223 bfd_signed_vma upper;
224 /* Whether this array is really a string. */
225 bfd_boolean stringp;
226 };
227
228 /* Information kept for a set. */
229
230 struct debug_set_type
231 {
232 /* Base type. */
233 debug_type type;
234 /* Whether this set is really a bitstring. */
235 bfd_boolean bitstringp;
236 };
237
238 /* Information kept for an offset type (a based pointer). */
239
240 struct debug_offset_type
241 {
242 /* The type the pointer is an offset from. */
243 debug_type base_type;
244 /* The type the pointer points to. */
245 debug_type target_type;
246 };
247
248 /* Information kept for a method type. */
249
250 struct debug_method_type
251 {
252 /* The return type. */
253 debug_type return_type;
254 /* The object type which this method is for. */
255 debug_type domain_type;
256 /* A NULL terminated array of argument types. */
257 debug_type *arg_types;
258 /* Whether the method takes a variable number of arguments. */
259 bfd_boolean varargs;
260 };
261
262 /* Information kept for a named type. */
263
264 struct debug_named_type
265 {
266 /* Name. */
267 struct debug_name *name;
268 /* Real type. */
269 debug_type type;
270 };
271
272 /* A field in a struct or union. */
273
274 struct debug_field_s
275 {
276 /* Name of the field. */
277 const char *name;
278 /* Type of the field. */
279 struct debug_type_s *type;
280 /* Visibility of the field. */
281 enum debug_visibility visibility;
282 /* Whether this is a static member. */
283 bfd_boolean static_member;
284 union
285 {
286 /* If static_member is false. */
287 struct
288 {
289 /* Bit position of the field in the struct. */
290 unsigned int bitpos;
291 /* Size of the field in bits. */
292 unsigned int bitsize;
293 } f;
294 /* If static_member is true. */
295 struct
296 {
297 const char *physname;
298 } s;
299 } u;
300 };
301
302 /* A base class for an object. */
303
304 struct debug_baseclass_s
305 {
306 /* Type of the base class. */
307 struct debug_type_s *type;
308 /* Bit position of the base class in the object. */
309 unsigned int bitpos;
310 /* Whether the base class is virtual. */
311 bfd_boolean is_virtual;
312 /* Visibility of the base class. */
313 enum debug_visibility visibility;
314 };
315
316 /* A method of an object. */
317
318 struct debug_method_s
319 {
320 /* The name of the method. */
321 const char *name;
322 /* A NULL terminated array of different types of variants. */
323 struct debug_method_variant_s **variants;
324 };
325
326 /* The variants of a method function of an object. These indicate
327 which method to run. */
328
329 struct debug_method_variant_s
330 {
331 /* The physical name of the function. */
332 const char *physname;
333 /* The type of the function. */
334 struct debug_type_s *type;
335 /* The visibility of the function. */
336 enum debug_visibility visibility;
337 /* Whether the function is const. */
338 bfd_boolean constp;
339 /* Whether the function is volatile. */
340 bfd_boolean volatilep;
341 /* The offset to the function in the virtual function table. */
342 bfd_vma voffset;
343 /* If voffset is VOFFSET_STATIC_METHOD, this is a static method. */
344 #define VOFFSET_STATIC_METHOD ((bfd_vma) -1)
345 /* Context of a virtual method function. */
346 struct debug_type_s *context;
347 };
348
349 /* A variable. This is the information we keep for a variable object.
350 This has no name; a name is associated with a variable in a
351 debug_name structure. */
352
353 struct debug_variable
354 {
355 /* Kind of variable. */
356 enum debug_var_kind kind;
357 /* Type. */
358 debug_type type;
359 /* Value. The interpretation of the value depends upon kind. */
360 bfd_vma val;
361 };
362
363 /* A function. This has no name; a name is associated with a function
364 in a debug_name structure. */
365
366 struct debug_function
367 {
368 /* Return type. */
369 debug_type return_type;
370 /* Parameter information. */
371 struct debug_parameter *parameters;
372 /* Block information. The first structure on the list is the main
373 block of the function, and describes function local variables. */
374 struct debug_block *blocks;
375 };
376
377 /* A function parameter. */
378
379 struct debug_parameter
380 {
381 /* Next parameter. */
382 struct debug_parameter *next;
383 /* Name. */
384 const char *name;
385 /* Type. */
386 debug_type type;
387 /* Kind. */
388 enum debug_parm_kind kind;
389 /* Value (meaning depends upon kind). */
390 bfd_vma val;
391 };
392
393 /* A typed constant. */
394
395 struct debug_typed_constant
396 {
397 /* Type. */
398 debug_type type;
399 /* Value. FIXME: We may eventually need to support non-integral
400 values. */
401 bfd_vma val;
402 };
403
404 /* Information about a block within a function. */
405
406 struct debug_block
407 {
408 /* Next block with the same parent. */
409 struct debug_block *next;
410 /* Parent block. */
411 struct debug_block *parent;
412 /* List of child blocks. */
413 struct debug_block *children;
414 /* Start address of the block. */
415 bfd_vma start;
416 /* End address of the block. */
417 bfd_vma end;
418 /* Local variables. */
419 struct debug_namespace *locals;
420 };
421
422 /* Line number information we keep for a compilation unit. FIXME:
423 This structure is easy to create, but can be very space
424 inefficient. */
425
426 struct debug_lineno
427 {
428 /* More line number information for this block. */
429 struct debug_lineno *next;
430 /* Source file. */
431 struct debug_file *file;
432 /* Line numbers, terminated by a -1 or the end of the array. */
433 #define DEBUG_LINENO_COUNT 10
434 unsigned long linenos[DEBUG_LINENO_COUNT];
435 /* Addresses for the line numbers. */
436 bfd_vma addrs[DEBUG_LINENO_COUNT];
437 };
438
439 /* A namespace. This is a mapping from names to objects. FIXME: This
440 should be implemented as a hash table. */
441
442 struct debug_namespace
443 {
444 /* List of items in this namespace. */
445 struct debug_name *list;
446 /* Pointer to where the next item in this namespace should go. */
447 struct debug_name **tail;
448 };
449
450 /* Kinds of objects that appear in a namespace. */
451
452 enum debug_object_kind
453 {
454 /* A type. */
455 DEBUG_OBJECT_TYPE,
456 /* A tagged type (really a different sort of namespace). */
457 DEBUG_OBJECT_TAG,
458 /* A variable. */
459 DEBUG_OBJECT_VARIABLE,
460 /* A function. */
461 DEBUG_OBJECT_FUNCTION,
462 /* An integer constant. */
463 DEBUG_OBJECT_INT_CONSTANT,
464 /* A floating point constant. */
465 DEBUG_OBJECT_FLOAT_CONSTANT,
466 /* A typed constant. */
467 DEBUG_OBJECT_TYPED_CONSTANT
468 };
469
470 /* Linkage of an object that appears in a namespace. */
471
472 enum debug_object_linkage
473 {
474 /* Local variable. */
475 DEBUG_LINKAGE_AUTOMATIC,
476 /* Static--either file static or function static, depending upon the
477 namespace is. */
478 DEBUG_LINKAGE_STATIC,
479 /* Global. */
480 DEBUG_LINKAGE_GLOBAL,
481 /* No linkage. */
482 DEBUG_LINKAGE_NONE
483 };
484
485 /* A name in a namespace. */
486
487 struct debug_name
488 {
489 /* Next name in this namespace. */
490 struct debug_name *next;
491 /* Name. */
492 const char *name;
493 /* Mark. This is used by debug_write. */
494 unsigned int mark;
495 /* Kind of object. */
496 enum debug_object_kind kind;
497 /* Linkage of object. */
498 enum debug_object_linkage linkage;
499 /* Tagged union with additional information about the object. */
500 union
501 {
502 /* DEBUG_OBJECT_TYPE. */
503 struct debug_type_s *type;
504 /* DEBUG_OBJECT_TAG. */
505 struct debug_type_s *tag;
506 /* DEBUG_OBJECT_VARIABLE. */
507 struct debug_variable *variable;
508 /* DEBUG_OBJECT_FUNCTION. */
509 struct debug_function *function;
510 /* DEBUG_OBJECT_INT_CONSTANT. */
511 bfd_vma int_constant;
512 /* DEBUG_OBJECT_FLOAT_CONSTANT. */
513 double float_constant;
514 /* DEBUG_OBJECT_TYPED_CONSTANT. */
515 struct debug_typed_constant *typed_constant;
516 } u;
517 };
518
519 /* During debug_write, a linked list of these structures is used to
520 keep track of ID numbers that have been assigned to classes. */
521
522 struct debug_class_id
523 {
524 /* Next ID number. */
525 struct debug_class_id *next;
526 /* The type with the ID. */
527 struct debug_type_s *type;
528 /* The tag; NULL if no tag. */
529 const char *tag;
530 };
531
532 /* During debug_type_samep, a linked list of these structures is kept
533 on the stack to avoid infinite recursion. */
534
535 struct debug_type_compare_list
536 {
537 /* Next type on list. */
538 struct debug_type_compare_list *next;
539 /* The types we are comparing. */
540 struct debug_type_s *t1;
541 struct debug_type_s *t2;
542 };
543
544 /* During debug_get_real_type, a linked list of these structures is
545 kept on the stack to avoid infinite recursion. */
546
547 struct debug_type_real_list
548 {
549 /* Next type on list. */
550 struct debug_type_real_list *next;
551 /* The type we are checking. */
552 struct debug_type_s *t;
553 };
554
555 /* Local functions. */
556
557 static void debug_error (const char *);
558 static struct debug_name *debug_add_to_namespace
559 (struct debug_handle *, struct debug_namespace **, const char *,
560 enum debug_object_kind, enum debug_object_linkage);
561 static struct debug_name *debug_add_to_current_namespace
562 (struct debug_handle *, const char *, enum debug_object_kind,
563 enum debug_object_linkage);
564 static struct debug_type_s *debug_make_type
565 (struct debug_handle *, enum debug_type_kind, unsigned int);
566 static struct debug_type_s *debug_get_real_type
567 (void *, debug_type, struct debug_type_real_list *);
568 static bfd_boolean debug_write_name
569 (struct debug_handle *, const struct debug_write_fns *, void *,
570 struct debug_name *);
571 static bfd_boolean debug_write_type
572 (struct debug_handle *, const struct debug_write_fns *, void *,
573 struct debug_type_s *, struct debug_name *);
574 static bfd_boolean debug_write_class_type
575 (struct debug_handle *, const struct debug_write_fns *, void *,
576 struct debug_type_s *, const char *);
577 static bfd_boolean debug_write_function
578 (struct debug_handle *, const struct debug_write_fns *, void *,
579 const char *, enum debug_object_linkage, struct debug_function *);
580 static bfd_boolean debug_write_block
581 (struct debug_handle *, const struct debug_write_fns *, void *,
582 struct debug_block *);
583 static bfd_boolean debug_write_linenos
584 (struct debug_handle *, const struct debug_write_fns *, void *, bfd_vma);
585 static bfd_boolean debug_set_class_id
586 (struct debug_handle *, const char *, struct debug_type_s *);
587 static bfd_boolean debug_type_samep
588 (struct debug_handle *, struct debug_type_s *, struct debug_type_s *);
589 static bfd_boolean debug_class_type_samep
590 (struct debug_handle *, struct debug_type_s *, struct debug_type_s *);
591
592 /* Issue an error message. */
593
594 static void
debug_error(const char * message)595 debug_error (const char *message)
596 {
597 fprintf (stderr, "%s\n", message);
598 }
599
600 /* Add an object to a namespace. */
601
602 static struct debug_name *
debug_add_to_namespace(struct debug_handle * info ATTRIBUTE_UNUSED,struct debug_namespace ** nsp,const char * name,enum debug_object_kind kind,enum debug_object_linkage linkage)603 debug_add_to_namespace (struct debug_handle *info ATTRIBUTE_UNUSED,
604 struct debug_namespace **nsp, const char *name,
605 enum debug_object_kind kind,
606 enum debug_object_linkage linkage)
607 {
608 struct debug_name *n;
609 struct debug_namespace *ns;
610
611 n = (struct debug_name *) xmalloc (sizeof *n);
612 memset (n, 0, sizeof *n);
613
614 n->name = name;
615 n->kind = kind;
616 n->linkage = linkage;
617
618 ns = *nsp;
619 if (ns == NULL)
620 {
621 ns = (struct debug_namespace *) xmalloc (sizeof *ns);
622 memset (ns, 0, sizeof *ns);
623
624 ns->tail = &ns->list;
625
626 *nsp = ns;
627 }
628
629 *ns->tail = n;
630 ns->tail = &n->next;
631
632 return n;
633 }
634
635 /* Add an object to the current namespace. */
636
637 static struct debug_name *
debug_add_to_current_namespace(struct debug_handle * info,const char * name,enum debug_object_kind kind,enum debug_object_linkage linkage)638 debug_add_to_current_namespace (struct debug_handle *info, const char *name,
639 enum debug_object_kind kind,
640 enum debug_object_linkage linkage)
641 {
642 struct debug_namespace **nsp;
643
644 if (info->current_unit == NULL
645 || info->current_file == NULL)
646 {
647 debug_error (_("debug_add_to_current_namespace: no current file"));
648 return NULL;
649 }
650
651 if (info->current_block != NULL)
652 nsp = &info->current_block->locals;
653 else
654 nsp = &info->current_file->globals;
655
656 return debug_add_to_namespace (info, nsp, name, kind, linkage);
657 }
658
659 /* Return a handle for debugging information. */
660
661 void *
debug_init(void)662 debug_init (void)
663 {
664 struct debug_handle *ret;
665
666 ret = (struct debug_handle *) xmalloc (sizeof *ret);
667 memset (ret, 0, sizeof *ret);
668 return (void *) ret;
669 }
670
671 /* Set the source filename. This implicitly starts a new compilation
672 unit. */
673
674 bfd_boolean
debug_set_filename(void * handle,const char * name)675 debug_set_filename (void *handle, const char *name)
676 {
677 struct debug_handle *info = (struct debug_handle *) handle;
678 struct debug_file *nfile;
679 struct debug_unit *nunit;
680
681 if (name == NULL)
682 name = "";
683
684 nfile = (struct debug_file *) xmalloc (sizeof *nfile);
685 memset (nfile, 0, sizeof *nfile);
686
687 nfile->filename = name;
688
689 nunit = (struct debug_unit *) xmalloc (sizeof *nunit);
690 memset (nunit, 0, sizeof *nunit);
691
692 nunit->files = nfile;
693 info->current_file = nfile;
694
695 if (info->current_unit != NULL)
696 info->current_unit->next = nunit;
697 else
698 {
699 assert (info->units == NULL);
700 info->units = nunit;
701 }
702
703 info->current_unit = nunit;
704
705 info->current_function = NULL;
706 info->current_block = NULL;
707 info->current_lineno = NULL;
708
709 return TRUE;
710 }
711
712 /* Change source files to the given file name. This is used for
713 include files in a single compilation unit. */
714
715 bfd_boolean
debug_start_source(void * handle,const char * name)716 debug_start_source (void *handle, const char *name)
717 {
718 struct debug_handle *info = (struct debug_handle *) handle;
719 struct debug_file *f, **pf;
720
721 if (name == NULL)
722 name = "";
723
724 if (info->current_unit == NULL)
725 {
726 debug_error (_("debug_start_source: no debug_set_filename call"));
727 return FALSE;
728 }
729
730 for (f = info->current_unit->files; f != NULL; f = f->next)
731 {
732 if (filename_cmp (f->filename, name) == 0)
733 {
734 info->current_file = f;
735 return TRUE;
736 }
737 }
738
739 f = (struct debug_file *) xmalloc (sizeof *f);
740 memset (f, 0, sizeof *f);
741
742 f->filename = name;
743
744 for (pf = &info->current_file->next;
745 *pf != NULL;
746 pf = &(*pf)->next)
747 ;
748 *pf = f;
749
750 info->current_file = f;
751
752 return TRUE;
753 }
754
755 /* Record a function definition. This implicitly starts a function
756 block. The debug_type argument is the type of the return value.
757 The boolean indicates whether the function is globally visible.
758 The bfd_vma is the address of the start of the function. Currently
759 the parameter types are specified by calls to
760 debug_record_parameter. FIXME: There is no way to specify nested
761 functions. */
762
763 bfd_boolean
debug_record_function(void * handle,const char * name,debug_type return_type,bfd_boolean global,bfd_vma addr)764 debug_record_function (void *handle, const char *name,
765 debug_type return_type, bfd_boolean global,
766 bfd_vma addr)
767 {
768 struct debug_handle *info = (struct debug_handle *) handle;
769 struct debug_function *f;
770 struct debug_block *b;
771 struct debug_name *n;
772
773 if (name == NULL)
774 name = "";
775 if (return_type == NULL)
776 return FALSE;
777
778 if (info->current_unit == NULL)
779 {
780 debug_error (_("debug_record_function: no debug_set_filename call"));
781 return FALSE;
782 }
783
784 f = (struct debug_function *) xmalloc (sizeof *f);
785 memset (f, 0, sizeof *f);
786
787 f->return_type = return_type;
788
789 b = (struct debug_block *) xmalloc (sizeof *b);
790 memset (b, 0, sizeof *b);
791
792 b->start = addr;
793 b->end = (bfd_vma) -1;
794
795 f->blocks = b;
796
797 info->current_function = f;
798 info->current_block = b;
799
800 /* FIXME: If we could handle nested functions, this would be the
801 place: we would want to use a different namespace. */
802 n = debug_add_to_namespace (info,
803 &info->current_file->globals,
804 name,
805 DEBUG_OBJECT_FUNCTION,
806 (global
807 ? DEBUG_LINKAGE_GLOBAL
808 : DEBUG_LINKAGE_STATIC));
809 if (n == NULL)
810 return FALSE;
811
812 n->u.function = f;
813
814 return TRUE;
815 }
816
817 /* Record a parameter for the current function. */
818
819 bfd_boolean
debug_record_parameter(void * handle,const char * name,debug_type type,enum debug_parm_kind kind,bfd_vma val)820 debug_record_parameter (void *handle, const char *name, debug_type type,
821 enum debug_parm_kind kind, bfd_vma val)
822 {
823 struct debug_handle *info = (struct debug_handle *) handle;
824 struct debug_parameter *p, **pp;
825
826 if (name == NULL || type == NULL)
827 return FALSE;
828
829 if (info->current_unit == NULL
830 || info->current_function == NULL)
831 {
832 debug_error (_("debug_record_parameter: no current function"));
833 return FALSE;
834 }
835
836 p = (struct debug_parameter *) xmalloc (sizeof *p);
837 memset (p, 0, sizeof *p);
838
839 p->name = name;
840 p->type = type;
841 p->kind = kind;
842 p->val = val;
843
844 for (pp = &info->current_function->parameters;
845 *pp != NULL;
846 pp = &(*pp)->next)
847 ;
848 *pp = p;
849
850 return TRUE;
851 }
852
853 /* End a function. FIXME: This should handle function nesting. */
854
855 bfd_boolean
debug_end_function(void * handle,bfd_vma addr)856 debug_end_function (void *handle, bfd_vma addr)
857 {
858 struct debug_handle *info = (struct debug_handle *) handle;
859
860 if (info->current_unit == NULL
861 || info->current_block == NULL
862 || info->current_function == NULL)
863 {
864 debug_error (_("debug_end_function: no current function"));
865 return FALSE;
866 }
867
868 if (info->current_block->parent != NULL)
869 {
870 debug_error (_("debug_end_function: some blocks were not closed"));
871 return FALSE;
872 }
873
874 info->current_block->end = addr;
875
876 info->current_function = NULL;
877 info->current_block = NULL;
878
879 return TRUE;
880 }
881
882 /* Start a block in a function. All local information will be
883 recorded in this block, until the matching call to debug_end_block.
884 debug_start_block and debug_end_block may be nested. The bfd_vma
885 argument is the address at which this block starts. */
886
887 bfd_boolean
debug_start_block(void * handle,bfd_vma addr)888 debug_start_block (void *handle, bfd_vma addr)
889 {
890 struct debug_handle *info = (struct debug_handle *) handle;
891 struct debug_block *b, **pb;
892
893 /* We must always have a current block: debug_record_function sets
894 one up. */
895 if (info->current_unit == NULL
896 || info->current_block == NULL)
897 {
898 debug_error (_("debug_start_block: no current block"));
899 return FALSE;
900 }
901
902 b = (struct debug_block *) xmalloc (sizeof *b);
903 memset (b, 0, sizeof *b);
904
905 b->parent = info->current_block;
906 b->start = addr;
907 b->end = (bfd_vma) -1;
908
909 /* This new block is a child of the current block. */
910 for (pb = &info->current_block->children;
911 *pb != NULL;
912 pb = &(*pb)->next)
913 ;
914 *pb = b;
915
916 info->current_block = b;
917
918 return TRUE;
919 }
920
921 /* Finish a block in a function. This matches the call to
922 debug_start_block. The argument is the address at which this block
923 ends. */
924
925 bfd_boolean
debug_end_block(void * handle,bfd_vma addr)926 debug_end_block (void *handle, bfd_vma addr)
927 {
928 struct debug_handle *info = (struct debug_handle *) handle;
929 struct debug_block *parent;
930
931 if (info->current_unit == NULL
932 || info->current_block == NULL)
933 {
934 debug_error (_("debug_end_block: no current block"));
935 return FALSE;
936 }
937
938 parent = info->current_block->parent;
939 if (parent == NULL)
940 {
941 debug_error (_("debug_end_block: attempt to close top level block"));
942 return FALSE;
943 }
944
945 info->current_block->end = addr;
946
947 info->current_block = parent;
948
949 return TRUE;
950 }
951
952 /* Associate a line number in the current source file and function
953 with a given address. */
954
955 bfd_boolean
debug_record_line(void * handle,unsigned long lineno,bfd_vma addr)956 debug_record_line (void *handle, unsigned long lineno, bfd_vma addr)
957 {
958 struct debug_handle *info = (struct debug_handle *) handle;
959 struct debug_lineno *l;
960 unsigned int i;
961
962 if (info->current_unit == NULL)
963 {
964 debug_error (_("debug_record_line: no current unit"));
965 return FALSE;
966 }
967
968 l = info->current_lineno;
969 if (l != NULL && l->file == info->current_file)
970 {
971 for (i = 0; i < DEBUG_LINENO_COUNT; i++)
972 {
973 if (l->linenos[i] == (unsigned long) -1)
974 {
975 l->linenos[i] = lineno;
976 l->addrs[i] = addr;
977 return TRUE;
978 }
979 }
980 }
981
982 /* If we get here, then either 1) there is no current_lineno
983 structure, which means this is the first line number in this
984 compilation unit, 2) the current_lineno structure is for a
985 different file, or 3) the current_lineno structure is full.
986 Regardless, we want to allocate a new debug_lineno structure, put
987 it in the right place, and make it the new current_lineno
988 structure. */
989
990 l = (struct debug_lineno *) xmalloc (sizeof *l);
991 memset (l, 0, sizeof *l);
992
993 l->file = info->current_file;
994 l->linenos[0] = lineno;
995 l->addrs[0] = addr;
996 for (i = 1; i < DEBUG_LINENO_COUNT; i++)
997 l->linenos[i] = (unsigned long) -1;
998
999 if (info->current_lineno != NULL)
1000 info->current_lineno->next = l;
1001 else
1002 info->current_unit->linenos = l;
1003
1004 info->current_lineno = l;
1005
1006 return TRUE;
1007 }
1008
1009 /* Start a named common block. This is a block of variables that may
1010 move in memory. */
1011
1012 bfd_boolean
debug_start_common_block(void * handle ATTRIBUTE_UNUSED,const char * name ATTRIBUTE_UNUSED)1013 debug_start_common_block (void *handle ATTRIBUTE_UNUSED,
1014 const char *name ATTRIBUTE_UNUSED)
1015 {
1016 /* FIXME */
1017 debug_error (_("debug_start_common_block: not implemented"));
1018 return FALSE;
1019 }
1020
1021 /* End a named common block. */
1022
1023 bfd_boolean
debug_end_common_block(void * handle ATTRIBUTE_UNUSED,const char * name ATTRIBUTE_UNUSED)1024 debug_end_common_block (void *handle ATTRIBUTE_UNUSED,
1025 const char *name ATTRIBUTE_UNUSED)
1026 {
1027 /* FIXME */
1028 debug_error (_("debug_end_common_block: not implemented"));
1029 return FALSE;
1030 }
1031
1032 /* Record a named integer constant. */
1033
1034 bfd_boolean
debug_record_int_const(void * handle,const char * name,bfd_vma val)1035 debug_record_int_const (void *handle, const char *name, bfd_vma val)
1036 {
1037 struct debug_handle *info = (struct debug_handle *) handle;
1038 struct debug_name *n;
1039
1040 if (name == NULL)
1041 return FALSE;
1042
1043 n = debug_add_to_current_namespace (info, name, DEBUG_OBJECT_INT_CONSTANT,
1044 DEBUG_LINKAGE_NONE);
1045 if (n == NULL)
1046 return FALSE;
1047
1048 n->u.int_constant = val;
1049
1050 return TRUE;
1051 }
1052
1053 /* Record a named floating point constant. */
1054
1055 bfd_boolean
debug_record_float_const(void * handle,const char * name,double val)1056 debug_record_float_const (void *handle, const char *name, double val)
1057 {
1058 struct debug_handle *info = (struct debug_handle *) handle;
1059 struct debug_name *n;
1060
1061 if (name == NULL)
1062 return FALSE;
1063
1064 n = debug_add_to_current_namespace (info, name, DEBUG_OBJECT_FLOAT_CONSTANT,
1065 DEBUG_LINKAGE_NONE);
1066 if (n == NULL)
1067 return FALSE;
1068
1069 n->u.float_constant = val;
1070
1071 return TRUE;
1072 }
1073
1074 /* Record a typed constant with an integral value. */
1075
1076 bfd_boolean
debug_record_typed_const(void * handle,const char * name,debug_type type,bfd_vma val)1077 debug_record_typed_const (void *handle, const char *name, debug_type type,
1078 bfd_vma val)
1079 {
1080 struct debug_handle *info = (struct debug_handle *) handle;
1081 struct debug_name *n;
1082 struct debug_typed_constant *tc;
1083
1084 if (name == NULL || type == NULL)
1085 return FALSE;
1086
1087 n = debug_add_to_current_namespace (info, name, DEBUG_OBJECT_TYPED_CONSTANT,
1088 DEBUG_LINKAGE_NONE);
1089 if (n == NULL)
1090 return FALSE;
1091
1092 tc = (struct debug_typed_constant *) xmalloc (sizeof *tc);
1093 memset (tc, 0, sizeof *tc);
1094
1095 tc->type = type;
1096 tc->val = val;
1097
1098 n->u.typed_constant = tc;
1099
1100 return TRUE;
1101 }
1102
1103 /* Record a label. */
1104
1105 bfd_boolean
debug_record_label(void * handle ATTRIBUTE_UNUSED,const char * name ATTRIBUTE_UNUSED,debug_type type ATTRIBUTE_UNUSED,bfd_vma addr ATTRIBUTE_UNUSED)1106 debug_record_label (void *handle ATTRIBUTE_UNUSED,
1107 const char *name ATTRIBUTE_UNUSED,
1108 debug_type type ATTRIBUTE_UNUSED,
1109 bfd_vma addr ATTRIBUTE_UNUSED)
1110 {
1111 /* FIXME. */
1112 debug_error (_("debug_record_label: not implemented"));
1113 return FALSE;
1114 }
1115
1116 /* Record a variable. */
1117
1118 bfd_boolean
debug_record_variable(void * handle,const char * name,debug_type type,enum debug_var_kind kind,bfd_vma val)1119 debug_record_variable (void *handle, const char *name, debug_type type,
1120 enum debug_var_kind kind, bfd_vma val)
1121 {
1122 struct debug_handle *info = (struct debug_handle *) handle;
1123 struct debug_namespace **nsp;
1124 enum debug_object_linkage linkage;
1125 struct debug_name *n;
1126 struct debug_variable *v;
1127
1128 if (name == NULL || type == NULL)
1129 return FALSE;
1130
1131 if (info->current_unit == NULL
1132 || info->current_file == NULL)
1133 {
1134 debug_error (_("debug_record_variable: no current file"));
1135 return FALSE;
1136 }
1137
1138 if (kind == DEBUG_GLOBAL || kind == DEBUG_STATIC)
1139 {
1140 nsp = &info->current_file->globals;
1141 if (kind == DEBUG_GLOBAL)
1142 linkage = DEBUG_LINKAGE_GLOBAL;
1143 else
1144 linkage = DEBUG_LINKAGE_STATIC;
1145 }
1146 else
1147 {
1148 if (info->current_block == NULL)
1149 nsp = &info->current_file->globals;
1150 else
1151 nsp = &info->current_block->locals;
1152 linkage = DEBUG_LINKAGE_AUTOMATIC;
1153 }
1154
1155 n = debug_add_to_namespace (info, nsp, name, DEBUG_OBJECT_VARIABLE, linkage);
1156 if (n == NULL)
1157 return FALSE;
1158
1159 v = (struct debug_variable *) xmalloc (sizeof *v);
1160 memset (v, 0, sizeof *v);
1161
1162 v->kind = kind;
1163 v->type = type;
1164 v->val = val;
1165
1166 n->u.variable = v;
1167
1168 return TRUE;
1169 }
1170
1171 /* Make a type with a given kind and size. */
1172
1173 static struct debug_type_s *
debug_make_type(struct debug_handle * info ATTRIBUTE_UNUSED,enum debug_type_kind kind,unsigned int size)1174 debug_make_type (struct debug_handle *info ATTRIBUTE_UNUSED,
1175 enum debug_type_kind kind, unsigned int size)
1176 {
1177 struct debug_type_s *t;
1178
1179 t = (struct debug_type_s *) xmalloc (sizeof *t);
1180 memset (t, 0, sizeof *t);
1181
1182 t->kind = kind;
1183 t->size = size;
1184
1185 return t;
1186 }
1187
1188 /* Make an indirect type which may be used as a placeholder for a type
1189 which is referenced before it is defined. */
1190
1191 debug_type
debug_make_indirect_type(void * handle,debug_type * slot,const char * tag)1192 debug_make_indirect_type (void *handle, debug_type *slot, const char *tag)
1193 {
1194 struct debug_handle *info = (struct debug_handle *) handle;
1195 struct debug_type_s *t;
1196 struct debug_indirect_type *i;
1197
1198 t = debug_make_type (info, DEBUG_KIND_INDIRECT, 0);
1199 if (t == NULL)
1200 return DEBUG_TYPE_NULL;
1201
1202 i = (struct debug_indirect_type *) xmalloc (sizeof *i);
1203 memset (i, 0, sizeof *i);
1204
1205 i->slot = slot;
1206 i->tag = tag;
1207
1208 t->u.kindirect = i;
1209
1210 return t;
1211 }
1212
1213 /* Make a void type. There is only one of these. */
1214
1215 debug_type
debug_make_void_type(void * handle)1216 debug_make_void_type (void *handle)
1217 {
1218 struct debug_handle *info = (struct debug_handle *) handle;
1219
1220 return debug_make_type (info, DEBUG_KIND_VOID, 0);
1221 }
1222
1223 /* Make an integer type of a given size. The boolean argument is true
1224 if the integer is unsigned. */
1225
1226 debug_type
debug_make_int_type(void * handle,unsigned int size,bfd_boolean unsignedp)1227 debug_make_int_type (void *handle, unsigned int size, bfd_boolean unsignedp)
1228 {
1229 struct debug_handle *info = (struct debug_handle *) handle;
1230 struct debug_type_s *t;
1231
1232 t = debug_make_type (info, DEBUG_KIND_INT, size);
1233 if (t == NULL)
1234 return DEBUG_TYPE_NULL;
1235
1236 t->u.kint = unsignedp;
1237
1238 return t;
1239 }
1240
1241 /* Make a floating point type of a given size. FIXME: On some
1242 platforms, like an Alpha, you probably need to be able to specify
1243 the format. */
1244
1245 debug_type
debug_make_float_type(void * handle,unsigned int size)1246 debug_make_float_type (void *handle, unsigned int size)
1247 {
1248 struct debug_handle *info = (struct debug_handle *) handle;
1249
1250 return debug_make_type (info, DEBUG_KIND_FLOAT, size);
1251 }
1252
1253 /* Make a boolean type of a given size. */
1254
1255 debug_type
debug_make_bool_type(void * handle,unsigned int size)1256 debug_make_bool_type (void *handle, unsigned int size)
1257 {
1258 struct debug_handle *info = (struct debug_handle *) handle;
1259
1260 return debug_make_type (info, DEBUG_KIND_BOOL, size);
1261 }
1262
1263 /* Make a complex type of a given size. */
1264
1265 debug_type
debug_make_complex_type(void * handle,unsigned int size)1266 debug_make_complex_type (void *handle, unsigned int size)
1267 {
1268 struct debug_handle *info = (struct debug_handle *) handle;
1269
1270 return debug_make_type (info, DEBUG_KIND_COMPLEX, size);
1271 }
1272
1273 /* Make a structure type. The second argument is true for a struct,
1274 false for a union. The third argument is the size of the struct.
1275 The fourth argument is a NULL terminated array of fields. */
1276
1277 debug_type
debug_make_struct_type(void * handle,bfd_boolean structp,bfd_vma size,debug_field * fields)1278 debug_make_struct_type (void *handle, bfd_boolean structp, bfd_vma size,
1279 debug_field *fields)
1280 {
1281 struct debug_handle *info = (struct debug_handle *) handle;
1282 struct debug_type_s *t;
1283 struct debug_class_type *c;
1284
1285 t = debug_make_type (info,
1286 structp ? DEBUG_KIND_STRUCT : DEBUG_KIND_UNION,
1287 size);
1288 if (t == NULL)
1289 return DEBUG_TYPE_NULL;
1290
1291 c = (struct debug_class_type *) xmalloc (sizeof *c);
1292 memset (c, 0, sizeof *c);
1293
1294 c->fields = fields;
1295
1296 t->u.kclass = c;
1297
1298 return t;
1299 }
1300
1301 /* Make an object type. The first three arguments after the handle
1302 are the same as for debug_make_struct_type. The next arguments are
1303 a NULL terminated array of base classes, a NULL terminated array of
1304 methods, the type of the object holding the virtual function table
1305 if it is not this object, and a boolean which is true if this
1306 object has its own virtual function table. */
1307
1308 debug_type
debug_make_object_type(void * handle,bfd_boolean structp,bfd_vma size,debug_field * fields,debug_baseclass * baseclasses,debug_method * methods,debug_type vptrbase,bfd_boolean ownvptr)1309 debug_make_object_type (void *handle, bfd_boolean structp, bfd_vma size,
1310 debug_field *fields, debug_baseclass *baseclasses,
1311 debug_method *methods, debug_type vptrbase,
1312 bfd_boolean ownvptr)
1313 {
1314 struct debug_handle *info = (struct debug_handle *) handle;
1315 struct debug_type_s *t;
1316 struct debug_class_type *c;
1317
1318 t = debug_make_type (info,
1319 structp ? DEBUG_KIND_CLASS : DEBUG_KIND_UNION_CLASS,
1320 size);
1321 if (t == NULL)
1322 return DEBUG_TYPE_NULL;
1323
1324 c = (struct debug_class_type *) xmalloc (sizeof *c);
1325 memset (c, 0, sizeof *c);
1326
1327 c->fields = fields;
1328 c->baseclasses = baseclasses;
1329 c->methods = methods;
1330 if (ownvptr)
1331 c->vptrbase = t;
1332 else
1333 c->vptrbase = vptrbase;
1334
1335 t->u.kclass = c;
1336
1337 return t;
1338 }
1339
1340 /* Make an enumeration type. The arguments are a null terminated
1341 array of strings, and an array of corresponding values. */
1342
1343 debug_type
debug_make_enum_type(void * handle,const char ** names,bfd_signed_vma * values)1344 debug_make_enum_type (void *handle, const char **names,
1345 bfd_signed_vma *values)
1346 {
1347 struct debug_handle *info = (struct debug_handle *) handle;
1348 struct debug_type_s *t;
1349 struct debug_enum_type *e;
1350
1351 t = debug_make_type (info, DEBUG_KIND_ENUM, 0);
1352 if (t == NULL)
1353 return DEBUG_TYPE_NULL;
1354
1355 e = (struct debug_enum_type *) xmalloc (sizeof *e);
1356 memset (e, 0, sizeof *e);
1357
1358 e->names = names;
1359 e->values = values;
1360
1361 t->u.kenum = e;
1362
1363 return t;
1364 }
1365
1366 /* Make a pointer to a given type. */
1367
1368 debug_type
debug_make_pointer_type(void * handle,debug_type type)1369 debug_make_pointer_type (void *handle, debug_type type)
1370 {
1371 struct debug_handle *info = (struct debug_handle *) handle;
1372 struct debug_type_s *t;
1373
1374 if (type == NULL)
1375 return DEBUG_TYPE_NULL;
1376
1377 if (type->pointer != DEBUG_TYPE_NULL)
1378 return type->pointer;
1379
1380 t = debug_make_type (info, DEBUG_KIND_POINTER, 0);
1381 if (t == NULL)
1382 return DEBUG_TYPE_NULL;
1383
1384 t->u.kpointer = type;
1385
1386 type->pointer = t;
1387
1388 return t;
1389 }
1390
1391 /* Make a function returning a given type. FIXME: We should be able
1392 to record the parameter types. */
1393
1394 debug_type
debug_make_function_type(void * handle,debug_type type,debug_type * arg_types,bfd_boolean varargs)1395 debug_make_function_type (void *handle, debug_type type,
1396 debug_type *arg_types, bfd_boolean varargs)
1397 {
1398 struct debug_handle *info = (struct debug_handle *) handle;
1399 struct debug_type_s *t;
1400 struct debug_function_type *f;
1401
1402 if (type == NULL)
1403 return DEBUG_TYPE_NULL;
1404
1405 t = debug_make_type (info, DEBUG_KIND_FUNCTION, 0);
1406 if (t == NULL)
1407 return DEBUG_TYPE_NULL;
1408
1409 f = (struct debug_function_type *) xmalloc (sizeof *f);
1410 memset (f, 0, sizeof *f);
1411
1412 f->return_type = type;
1413 f->arg_types = arg_types;
1414 f->varargs = varargs;
1415
1416 t->u.kfunction = f;
1417
1418 return t;
1419 }
1420
1421 /* Make a reference to a given type. */
1422
1423 debug_type
debug_make_reference_type(void * handle,debug_type type)1424 debug_make_reference_type (void *handle, debug_type type)
1425 {
1426 struct debug_handle *info = (struct debug_handle *) handle;
1427 struct debug_type_s *t;
1428
1429 if (type == NULL)
1430 return DEBUG_TYPE_NULL;
1431
1432 t = debug_make_type (info, DEBUG_KIND_REFERENCE, 0);
1433 if (t == NULL)
1434 return DEBUG_TYPE_NULL;
1435
1436 t->u.kreference = type;
1437
1438 return t;
1439 }
1440
1441 /* Make a range of a given type from a lower to an upper bound. */
1442
1443 debug_type
debug_make_range_type(void * handle,debug_type type,bfd_signed_vma lower,bfd_signed_vma upper)1444 debug_make_range_type (void *handle, debug_type type, bfd_signed_vma lower,
1445 bfd_signed_vma upper)
1446 {
1447 struct debug_handle *info = (struct debug_handle *) handle;
1448 struct debug_type_s *t;
1449 struct debug_range_type *r;
1450
1451 if (type == NULL)
1452 return DEBUG_TYPE_NULL;
1453
1454 t = debug_make_type (info, DEBUG_KIND_RANGE, 0);
1455 if (t == NULL)
1456 return DEBUG_TYPE_NULL;
1457
1458 r = (struct debug_range_type *) xmalloc (sizeof *r);
1459 memset (r, 0, sizeof *r);
1460
1461 r->type = type;
1462 r->lower = lower;
1463 r->upper = upper;
1464
1465 t->u.krange = r;
1466
1467 return t;
1468 }
1469
1470 /* Make an array type. The second argument is the type of an element
1471 of the array. The third argument is the type of a range of the
1472 array. The fourth and fifth argument are the lower and upper
1473 bounds, respectively. The sixth argument is true if this array is
1474 actually a string, as in C. */
1475
1476 debug_type
debug_make_array_type(void * handle,debug_type element_type,debug_type range_type,bfd_signed_vma lower,bfd_signed_vma upper,bfd_boolean stringp)1477 debug_make_array_type (void *handle, debug_type element_type,
1478 debug_type range_type, bfd_signed_vma lower,
1479 bfd_signed_vma upper, bfd_boolean stringp)
1480 {
1481 struct debug_handle *info = (struct debug_handle *) handle;
1482 struct debug_type_s *t;
1483 struct debug_array_type *a;
1484
1485 if (element_type == NULL || range_type == NULL)
1486 return DEBUG_TYPE_NULL;
1487
1488 t = debug_make_type (info, DEBUG_KIND_ARRAY, 0);
1489 if (t == NULL)
1490 return DEBUG_TYPE_NULL;
1491
1492 a = (struct debug_array_type *) xmalloc (sizeof *a);
1493 memset (a, 0, sizeof *a);
1494
1495 a->element_type = element_type;
1496 a->range_type = range_type;
1497 a->lower = lower;
1498 a->upper = upper;
1499 a->stringp = stringp;
1500
1501 t->u.karray = a;
1502
1503 return t;
1504 }
1505
1506 /* Make a set of a given type. For example, a Pascal set type. The
1507 boolean argument is true if this set is actually a bitstring, as in
1508 CHILL. */
1509
1510 debug_type
debug_make_set_type(void * handle,debug_type type,bfd_boolean bitstringp)1511 debug_make_set_type (void *handle, debug_type type, bfd_boolean bitstringp)
1512 {
1513 struct debug_handle *info = (struct debug_handle *) handle;
1514 struct debug_type_s *t;
1515 struct debug_set_type *s;
1516
1517 if (type == NULL)
1518 return DEBUG_TYPE_NULL;
1519
1520 t = debug_make_type (info, DEBUG_KIND_SET, 0);
1521 if (t == NULL)
1522 return DEBUG_TYPE_NULL;
1523
1524 s = (struct debug_set_type *) xmalloc (sizeof *s);
1525 memset (s, 0, sizeof *s);
1526
1527 s->type = type;
1528 s->bitstringp = bitstringp;
1529
1530 t->u.kset = s;
1531
1532 return t;
1533 }
1534
1535 /* Make a type for a pointer which is relative to an object. The
1536 second argument is the type of the object to which the pointer is
1537 relative. The third argument is the type that the pointer points
1538 to. */
1539
1540 debug_type
debug_make_offset_type(void * handle,debug_type base_type,debug_type target_type)1541 debug_make_offset_type (void *handle, debug_type base_type,
1542 debug_type target_type)
1543 {
1544 struct debug_handle *info = (struct debug_handle *) handle;
1545 struct debug_type_s *t;
1546 struct debug_offset_type *o;
1547
1548 if (base_type == NULL || target_type == NULL)
1549 return DEBUG_TYPE_NULL;
1550
1551 t = debug_make_type (info, DEBUG_KIND_OFFSET, 0);
1552 if (t == NULL)
1553 return DEBUG_TYPE_NULL;
1554
1555 o = (struct debug_offset_type *) xmalloc (sizeof *o);
1556 memset (o, 0, sizeof *o);
1557
1558 o->base_type = base_type;
1559 o->target_type = target_type;
1560
1561 t->u.koffset = o;
1562
1563 return t;
1564 }
1565
1566 /* Make a type for a method function. The second argument is the
1567 return type, the third argument is the domain, and the fourth
1568 argument is a NULL terminated array of argument types. */
1569
1570 debug_type
debug_make_method_type(void * handle,debug_type return_type,debug_type domain_type,debug_type * arg_types,bfd_boolean varargs)1571 debug_make_method_type (void *handle, debug_type return_type,
1572 debug_type domain_type, debug_type *arg_types,
1573 bfd_boolean varargs)
1574 {
1575 struct debug_handle *info = (struct debug_handle *) handle;
1576 struct debug_type_s *t;
1577 struct debug_method_type *m;
1578
1579 if (return_type == NULL)
1580 return DEBUG_TYPE_NULL;
1581
1582 t = debug_make_type (info, DEBUG_KIND_METHOD, 0);
1583 if (t == NULL)
1584 return DEBUG_TYPE_NULL;
1585
1586 m = (struct debug_method_type *) xmalloc (sizeof *m);
1587 memset (m, 0, sizeof *m);
1588
1589 m->return_type = return_type;
1590 m->domain_type = domain_type;
1591 m->arg_types = arg_types;
1592 m->varargs = varargs;
1593
1594 t->u.kmethod = m;
1595
1596 return t;
1597 }
1598
1599 /* Make a const qualified version of a given type. */
1600
1601 debug_type
debug_make_const_type(void * handle,debug_type type)1602 debug_make_const_type (void *handle, debug_type type)
1603 {
1604 struct debug_handle *info = (struct debug_handle *) handle;
1605 struct debug_type_s *t;
1606
1607 if (type == NULL)
1608 return DEBUG_TYPE_NULL;
1609
1610 t = debug_make_type (info, DEBUG_KIND_CONST, 0);
1611 if (t == NULL)
1612 return DEBUG_TYPE_NULL;
1613
1614 t->u.kconst = type;
1615
1616 return t;
1617 }
1618
1619 /* Make a volatile qualified version of a given type. */
1620
1621 debug_type
debug_make_volatile_type(void * handle,debug_type type)1622 debug_make_volatile_type (void *handle, debug_type type)
1623 {
1624 struct debug_handle *info = (struct debug_handle *) handle;
1625 struct debug_type_s *t;
1626
1627 if (type == NULL)
1628 return DEBUG_TYPE_NULL;
1629
1630 t = debug_make_type (info, DEBUG_KIND_VOLATILE, 0);
1631 if (t == NULL)
1632 return DEBUG_TYPE_NULL;
1633
1634 t->u.kvolatile = type;
1635
1636 return t;
1637 }
1638
1639 /* Make an undefined tagged type. For example, a struct which has
1640 been mentioned, but not defined. */
1641
1642 debug_type
debug_make_undefined_tagged_type(void * handle,const char * name,enum debug_type_kind kind)1643 debug_make_undefined_tagged_type (void *handle, const char *name,
1644 enum debug_type_kind kind)
1645 {
1646 struct debug_handle *info = (struct debug_handle *) handle;
1647 struct debug_type_s *t;
1648
1649 if (name == NULL)
1650 return DEBUG_TYPE_NULL;
1651
1652 switch (kind)
1653 {
1654 case DEBUG_KIND_STRUCT:
1655 case DEBUG_KIND_UNION:
1656 case DEBUG_KIND_CLASS:
1657 case DEBUG_KIND_UNION_CLASS:
1658 case DEBUG_KIND_ENUM:
1659 break;
1660
1661 default:
1662 debug_error (_("debug_make_undefined_type: unsupported kind"));
1663 return DEBUG_TYPE_NULL;
1664 }
1665
1666 t = debug_make_type (info, kind, 0);
1667 if (t == NULL)
1668 return DEBUG_TYPE_NULL;
1669
1670 return debug_tag_type (handle, name, t);
1671 }
1672
1673 /* Make a base class for an object. The second argument is the base
1674 class type. The third argument is the bit position of this base
1675 class in the object (always 0 unless doing multiple inheritance).
1676 The fourth argument is whether this is a virtual class. The fifth
1677 argument is the visibility of the base class. */
1678
1679 debug_baseclass
debug_make_baseclass(void * handle ATTRIBUTE_UNUSED,debug_type type,bfd_vma bitpos,bfd_boolean is_virtual,enum debug_visibility visibility)1680 debug_make_baseclass (void *handle ATTRIBUTE_UNUSED, debug_type type,
1681 bfd_vma bitpos, bfd_boolean is_virtual,
1682 enum debug_visibility visibility)
1683 {
1684 struct debug_baseclass_s *b;
1685
1686 b = (struct debug_baseclass_s *) xmalloc (sizeof *b);
1687 memset (b, 0, sizeof *b);
1688
1689 b->type = type;
1690 b->bitpos = bitpos;
1691 b->is_virtual = is_virtual;
1692 b->visibility = visibility;
1693
1694 return b;
1695 }
1696
1697 /* Make a field for a struct. The second argument is the name. The
1698 third argument is the type of the field. The fourth argument is
1699 the bit position of the field. The fifth argument is the size of
1700 the field (it may be zero). The sixth argument is the visibility
1701 of the field. */
1702
1703 debug_field
debug_make_field(void * handle ATTRIBUTE_UNUSED,const char * name,debug_type type,bfd_vma bitpos,bfd_vma bitsize,enum debug_visibility visibility)1704 debug_make_field (void *handle ATTRIBUTE_UNUSED, const char *name,
1705 debug_type type, bfd_vma bitpos, bfd_vma bitsize,
1706 enum debug_visibility visibility)
1707 {
1708 struct debug_field_s *f;
1709
1710 f = (struct debug_field_s *) xmalloc (sizeof *f);
1711 memset (f, 0, sizeof *f);
1712
1713 f->name = name;
1714 f->type = type;
1715 f->static_member = FALSE;
1716 f->u.f.bitpos = bitpos;
1717 f->u.f.bitsize = bitsize;
1718 f->visibility = visibility;
1719
1720 return f;
1721 }
1722
1723 /* Make a static member of an object. The second argument is the
1724 name. The third argument is the type of the member. The fourth
1725 argument is the physical name of the member (i.e., the name as a
1726 global variable). The fifth argument is the visibility of the
1727 member. */
1728
1729 debug_field
debug_make_static_member(void * handle ATTRIBUTE_UNUSED,const char * name,debug_type type,const char * physname,enum debug_visibility visibility)1730 debug_make_static_member (void *handle ATTRIBUTE_UNUSED, const char *name,
1731 debug_type type, const char *physname,
1732 enum debug_visibility visibility)
1733 {
1734 struct debug_field_s *f;
1735
1736 f = (struct debug_field_s *) xmalloc (sizeof *f);
1737 memset (f, 0, sizeof *f);
1738
1739 f->name = name;
1740 f->type = type;
1741 f->static_member = TRUE;
1742 f->u.s.physname = physname;
1743 f->visibility = visibility;
1744
1745 return f;
1746 }
1747
1748 /* Make a method. The second argument is the name, and the third
1749 argument is a NULL terminated array of method variants. */
1750
1751 debug_method
debug_make_method(void * handle ATTRIBUTE_UNUSED,const char * name,debug_method_variant * variants)1752 debug_make_method (void *handle ATTRIBUTE_UNUSED, const char *name,
1753 debug_method_variant *variants)
1754 {
1755 struct debug_method_s *m;
1756
1757 m = (struct debug_method_s *) xmalloc (sizeof *m);
1758 memset (m, 0, sizeof *m);
1759
1760 m->name = name;
1761 m->variants = variants;
1762
1763 return m;
1764 }
1765
1766 /* Make a method argument. The second argument is the real name of
1767 the function. The third argument is the type of the function. The
1768 fourth argument is the visibility. The fifth argument is whether
1769 this is a const function. The sixth argument is whether this is a
1770 volatile function. The seventh argument is the offset in the
1771 virtual function table, if any. The eighth argument is the virtual
1772 function context. FIXME: Are the const and volatile arguments
1773 necessary? Could we just use debug_make_const_type? */
1774
1775 debug_method_variant
debug_make_method_variant(void * handle ATTRIBUTE_UNUSED,const char * physname,debug_type type,enum debug_visibility visibility,bfd_boolean constp,bfd_boolean volatilep,bfd_vma voffset,debug_type context)1776 debug_make_method_variant (void *handle ATTRIBUTE_UNUSED,
1777 const char *physname, debug_type type,
1778 enum debug_visibility visibility,
1779 bfd_boolean constp, bfd_boolean volatilep,
1780 bfd_vma voffset, debug_type context)
1781 {
1782 struct debug_method_variant_s *m;
1783
1784 m = (struct debug_method_variant_s *) xmalloc (sizeof *m);
1785 memset (m, 0, sizeof *m);
1786
1787 m->physname = physname;
1788 m->type = type;
1789 m->visibility = visibility;
1790 m->constp = constp;
1791 m->volatilep = volatilep;
1792 m->voffset = voffset;
1793 m->context = context;
1794
1795 return m;
1796 }
1797
1798 /* Make a static method argument. The arguments are the same as for
1799 debug_make_method_variant, except that the last two are omitted
1800 since a static method can not also be virtual. */
1801
1802 debug_method_variant
debug_make_static_method_variant(void * handle ATTRIBUTE_UNUSED,const char * physname,debug_type type,enum debug_visibility visibility,bfd_boolean constp,bfd_boolean volatilep)1803 debug_make_static_method_variant (void *handle ATTRIBUTE_UNUSED,
1804 const char *physname, debug_type type,
1805 enum debug_visibility visibility,
1806 bfd_boolean constp, bfd_boolean volatilep)
1807 {
1808 struct debug_method_variant_s *m;
1809
1810 m = (struct debug_method_variant_s *) xmalloc (sizeof *m);
1811 memset (m, 0, sizeof *m);
1812
1813 m->physname = physname;
1814 m->type = type;
1815 m->visibility = visibility;
1816 m->constp = constp;
1817 m->volatilep = volatilep;
1818 m->voffset = VOFFSET_STATIC_METHOD;
1819
1820 return m;
1821 }
1822
1823 /* Name a type. */
1824
1825 debug_type
debug_name_type(void * handle,const char * name,debug_type type)1826 debug_name_type (void *handle, const char *name, debug_type type)
1827 {
1828 struct debug_handle *info = (struct debug_handle *) handle;
1829 struct debug_type_s *t;
1830 struct debug_named_type *n;
1831 struct debug_name *nm;
1832
1833 if (name == NULL || type == NULL)
1834 return DEBUG_TYPE_NULL;
1835
1836 if (info->current_unit == NULL
1837 || info->current_file == NULL)
1838 {
1839 debug_error (_("debug_name_type: no current file"));
1840 return DEBUG_TYPE_NULL;
1841 }
1842
1843 t = debug_make_type (info, DEBUG_KIND_NAMED, 0);
1844 if (t == NULL)
1845 return DEBUG_TYPE_NULL;
1846
1847 n = (struct debug_named_type *) xmalloc (sizeof *n);
1848 memset (n, 0, sizeof *n);
1849
1850 n->type = type;
1851
1852 t->u.knamed = n;
1853
1854 /* We always add the name to the global namespace. This is probably
1855 wrong in some cases, but it seems to be right for stabs. FIXME. */
1856
1857 nm = debug_add_to_namespace (info, &info->current_file->globals, name,
1858 DEBUG_OBJECT_TYPE, DEBUG_LINKAGE_NONE);
1859 if (nm == NULL)
1860 return DEBUG_TYPE_NULL;
1861
1862 nm->u.type = t;
1863
1864 n->name = nm;
1865
1866 return t;
1867 }
1868
1869 /* Tag a type. */
1870
1871 debug_type
debug_tag_type(void * handle,const char * name,debug_type type)1872 debug_tag_type (void *handle, const char *name, debug_type type)
1873 {
1874 struct debug_handle *info = (struct debug_handle *) handle;
1875 struct debug_type_s *t;
1876 struct debug_named_type *n;
1877 struct debug_name *nm;
1878
1879 if (name == NULL || type == NULL)
1880 return DEBUG_TYPE_NULL;
1881
1882 if (info->current_file == NULL)
1883 {
1884 debug_error (_("debug_tag_type: no current file"));
1885 return DEBUG_TYPE_NULL;
1886 }
1887
1888 if (type->kind == DEBUG_KIND_TAGGED)
1889 {
1890 if (strcmp (type->u.knamed->name->name, name) == 0)
1891 return type;
1892 debug_error (_("debug_tag_type: extra tag attempted"));
1893 return DEBUG_TYPE_NULL;
1894 }
1895
1896 t = debug_make_type (info, DEBUG_KIND_TAGGED, 0);
1897 if (t == NULL)
1898 return DEBUG_TYPE_NULL;
1899
1900 n = (struct debug_named_type *) xmalloc (sizeof *n);
1901 memset (n, 0, sizeof *n);
1902
1903 n->type = type;
1904
1905 t->u.knamed = n;
1906
1907 /* We keep a global namespace of tags for each compilation unit. I
1908 don't know if that is the right thing to do. */
1909
1910 nm = debug_add_to_namespace (info, &info->current_file->globals, name,
1911 DEBUG_OBJECT_TAG, DEBUG_LINKAGE_NONE);
1912 if (nm == NULL)
1913 return DEBUG_TYPE_NULL;
1914
1915 nm->u.tag = t;
1916
1917 n->name = nm;
1918
1919 return t;
1920 }
1921
1922 /* Record the size of a given type. */
1923
1924 bfd_boolean
debug_record_type_size(void * handle ATTRIBUTE_UNUSED,debug_type type,unsigned int size)1925 debug_record_type_size (void *handle ATTRIBUTE_UNUSED, debug_type type,
1926 unsigned int size)
1927 {
1928 if (type->size != 0 && type->size != size)
1929 fprintf (stderr, _("Warning: changing type size from %d to %d\n"),
1930 type->size, size);
1931
1932 type->size = size;
1933
1934 return TRUE;
1935 }
1936
1937 /* Find a named type. */
1938
1939 debug_type
debug_find_named_type(void * handle,const char * name)1940 debug_find_named_type (void *handle, const char *name)
1941 {
1942 struct debug_handle *info = (struct debug_handle *) handle;
1943 struct debug_block *b;
1944 struct debug_file *f;
1945
1946 /* We only search the current compilation unit. I don't know if
1947 this is right or not. */
1948
1949 if (info->current_unit == NULL)
1950 {
1951 debug_error (_("debug_find_named_type: no current compilation unit"));
1952 return DEBUG_TYPE_NULL;
1953 }
1954
1955 for (b = info->current_block; b != NULL; b = b->parent)
1956 {
1957 if (b->locals != NULL)
1958 {
1959 struct debug_name *n;
1960
1961 for (n = b->locals->list; n != NULL; n = n->next)
1962 {
1963 if (n->kind == DEBUG_OBJECT_TYPE
1964 && n->name[0] == name[0]
1965 && strcmp (n->name, name) == 0)
1966 return n->u.type;
1967 }
1968 }
1969 }
1970
1971 for (f = info->current_unit->files; f != NULL; f = f->next)
1972 {
1973 if (f->globals != NULL)
1974 {
1975 struct debug_name *n;
1976
1977 for (n = f->globals->list; n != NULL; n = n->next)
1978 {
1979 if (n->kind == DEBUG_OBJECT_TYPE
1980 && n->name[0] == name[0]
1981 && strcmp (n->name, name) == 0)
1982 return n->u.type;
1983 }
1984 }
1985 }
1986
1987 return DEBUG_TYPE_NULL;
1988 }
1989
1990 /* Find a tagged type. */
1991
1992 debug_type
debug_find_tagged_type(void * handle,const char * name,enum debug_type_kind kind)1993 debug_find_tagged_type (void *handle, const char *name,
1994 enum debug_type_kind kind)
1995 {
1996 struct debug_handle *info = (struct debug_handle *) handle;
1997 struct debug_unit *u;
1998
1999 /* We search the globals of all the compilation units. I don't know
2000 if this is correct or not. It would be easy to change. */
2001
2002 for (u = info->units; u != NULL; u = u->next)
2003 {
2004 struct debug_file *f;
2005
2006 for (f = u->files; f != NULL; f = f->next)
2007 {
2008 struct debug_name *n;
2009
2010 if (f->globals != NULL)
2011 {
2012 for (n = f->globals->list; n != NULL; n = n->next)
2013 {
2014 if (n->kind == DEBUG_OBJECT_TAG
2015 && (kind == DEBUG_KIND_ILLEGAL
2016 || n->u.tag->kind == kind)
2017 && n->name[0] == name[0]
2018 && strcmp (n->name, name) == 0)
2019 return n->u.tag;
2020 }
2021 }
2022 }
2023 }
2024
2025 return DEBUG_TYPE_NULL;
2026 }
2027
2028 /* Get a base type. We build a linked list on the stack to avoid
2029 crashing if the type is defined circularly. */
2030
2031 static struct debug_type_s *
debug_get_real_type(void * handle,debug_type type,struct debug_type_real_list * list)2032 debug_get_real_type (void *handle, debug_type type,
2033 struct debug_type_real_list *list)
2034 {
2035 struct debug_type_real_list *l;
2036 struct debug_type_real_list rl;
2037
2038 switch (type->kind)
2039 {
2040 default:
2041 return type;
2042
2043 case DEBUG_KIND_INDIRECT:
2044 case DEBUG_KIND_NAMED:
2045 case DEBUG_KIND_TAGGED:
2046 break;
2047 }
2048
2049 for (l = list; l != NULL; l = l->next)
2050 {
2051 if (l->t == type || l == l->next)
2052 {
2053 fprintf (stderr,
2054 _("debug_get_real_type: circular debug information for %s\n"),
2055 debug_get_type_name (handle, type));
2056 return NULL;
2057 }
2058 }
2059
2060 rl.next = list;
2061 rl.t = type;
2062
2063 switch (type->kind)
2064 {
2065 /* The default case is just here to avoid warnings. */
2066 default:
2067 case DEBUG_KIND_INDIRECT:
2068 if (*type->u.kindirect->slot != NULL)
2069 return debug_get_real_type (handle, *type->u.kindirect->slot, &rl);
2070 return type;
2071 case DEBUG_KIND_NAMED:
2072 case DEBUG_KIND_TAGGED:
2073 return debug_get_real_type (handle, type->u.knamed->type, &rl);
2074 }
2075 /*NOTREACHED*/
2076 }
2077
2078 /* Get the kind of a type. */
2079
2080 enum debug_type_kind
debug_get_type_kind(void * handle,debug_type type)2081 debug_get_type_kind (void *handle, debug_type type)
2082 {
2083 if (type == NULL)
2084 return DEBUG_KIND_ILLEGAL;
2085 type = debug_get_real_type (handle, type, NULL);
2086 if (type == NULL)
2087 return DEBUG_KIND_ILLEGAL;
2088 return type->kind;
2089 }
2090
2091 /* Get the name of a type. */
2092
2093 const char *
debug_get_type_name(void * handle,debug_type type)2094 debug_get_type_name (void *handle, debug_type type)
2095 {
2096 if (type->kind == DEBUG_KIND_INDIRECT)
2097 {
2098 if (*type->u.kindirect->slot != NULL)
2099 return debug_get_type_name (handle, *type->u.kindirect->slot);
2100 return type->u.kindirect->tag;
2101 }
2102 if (type->kind == DEBUG_KIND_NAMED
2103 || type->kind == DEBUG_KIND_TAGGED)
2104 return type->u.knamed->name->name;
2105 return NULL;
2106 }
2107
2108 /* Get the size of a type. */
2109
2110 bfd_vma
debug_get_type_size(void * handle,debug_type type)2111 debug_get_type_size (void *handle, debug_type type)
2112 {
2113 if (type == NULL)
2114 return 0;
2115
2116 /* We don't call debug_get_real_type, because somebody might have
2117 called debug_record_type_size on a named or indirect type. */
2118
2119 if (type->size != 0)
2120 return type->size;
2121
2122 switch (type->kind)
2123 {
2124 default:
2125 return 0;
2126 case DEBUG_KIND_INDIRECT:
2127 if (*type->u.kindirect->slot != NULL)
2128 return debug_get_type_size (handle, *type->u.kindirect->slot);
2129 return 0;
2130 case DEBUG_KIND_NAMED:
2131 case DEBUG_KIND_TAGGED:
2132 return debug_get_type_size (handle, type->u.knamed->type);
2133 }
2134 /*NOTREACHED*/
2135 }
2136
2137 /* Get the return type of a function or method type. */
2138
2139 debug_type
debug_get_return_type(void * handle,debug_type type)2140 debug_get_return_type (void *handle, debug_type type)
2141 {
2142 if (type == NULL)
2143 return DEBUG_TYPE_NULL;
2144
2145 type = debug_get_real_type (handle, type, NULL);
2146 if (type == NULL)
2147 return DEBUG_TYPE_NULL;
2148
2149 switch (type->kind)
2150 {
2151 default:
2152 return DEBUG_TYPE_NULL;
2153 case DEBUG_KIND_FUNCTION:
2154 return type->u.kfunction->return_type;
2155 case DEBUG_KIND_METHOD:
2156 return type->u.kmethod->return_type;
2157 }
2158 /*NOTREACHED*/
2159 }
2160
2161 /* Get the parameter types of a function or method type (except that
2162 we don't currently store the parameter types of a function). */
2163
2164 const debug_type *
debug_get_parameter_types(void * handle,debug_type type,bfd_boolean * pvarargs)2165 debug_get_parameter_types (void *handle, debug_type type,
2166 bfd_boolean *pvarargs)
2167 {
2168 if (type == NULL)
2169 return NULL;
2170
2171 type = debug_get_real_type (handle, type, NULL);
2172 if (type == NULL)
2173 return NULL;
2174
2175 switch (type->kind)
2176 {
2177 default:
2178 return NULL;
2179 case DEBUG_KIND_FUNCTION:
2180 *pvarargs = type->u.kfunction->varargs;
2181 return type->u.kfunction->arg_types;
2182 case DEBUG_KIND_METHOD:
2183 *pvarargs = type->u.kmethod->varargs;
2184 return type->u.kmethod->arg_types;
2185 }
2186 /*NOTREACHED*/
2187 }
2188
2189 /* Get the target type of a type. */
2190
2191 debug_type
debug_get_target_type(void * handle,debug_type type)2192 debug_get_target_type (void *handle, debug_type type)
2193 {
2194 if (type == NULL)
2195 return NULL;
2196
2197 type = debug_get_real_type (handle, type, NULL);
2198 if (type == NULL)
2199 return NULL;
2200
2201 switch (type->kind)
2202 {
2203 default:
2204 return NULL;
2205 case DEBUG_KIND_POINTER:
2206 return type->u.kpointer;
2207 case DEBUG_KIND_REFERENCE:
2208 return type->u.kreference;
2209 case DEBUG_KIND_CONST:
2210 return type->u.kconst;
2211 case DEBUG_KIND_VOLATILE:
2212 return type->u.kvolatile;
2213 }
2214 /*NOTREACHED*/
2215 }
2216
2217 /* Get the NULL terminated array of fields for a struct, union, or
2218 class. */
2219
2220 const debug_field *
debug_get_fields(void * handle,debug_type type)2221 debug_get_fields (void *handle, debug_type type)
2222 {
2223 if (type == NULL)
2224 return NULL;
2225
2226 type = debug_get_real_type (handle, type, NULL);
2227 if (type == NULL)
2228 return NULL;
2229
2230 switch (type->kind)
2231 {
2232 default:
2233 return NULL;
2234 case DEBUG_KIND_STRUCT:
2235 case DEBUG_KIND_UNION:
2236 case DEBUG_KIND_CLASS:
2237 case DEBUG_KIND_UNION_CLASS:
2238 return type->u.kclass->fields;
2239 }
2240 /*NOTREACHED*/
2241 }
2242
2243 /* Get the type of a field. */
2244
2245 debug_type
debug_get_field_type(void * handle ATTRIBUTE_UNUSED,debug_field field)2246 debug_get_field_type (void *handle ATTRIBUTE_UNUSED, debug_field field)
2247 {
2248 if (field == NULL)
2249 return NULL;
2250 return field->type;
2251 }
2252
2253 /* Get the name of a field. */
2254
2255 const char *
debug_get_field_name(void * handle ATTRIBUTE_UNUSED,debug_field field)2256 debug_get_field_name (void *handle ATTRIBUTE_UNUSED, debug_field field)
2257 {
2258 if (field == NULL)
2259 return NULL;
2260 return field->name;
2261 }
2262
2263 /* Get the bit position of a field. */
2264
2265 bfd_vma
debug_get_field_bitpos(void * handle ATTRIBUTE_UNUSED,debug_field field)2266 debug_get_field_bitpos (void *handle ATTRIBUTE_UNUSED, debug_field field)
2267 {
2268 if (field == NULL || field->static_member)
2269 return (bfd_vma) -1;
2270 return field->u.f.bitpos;
2271 }
2272
2273 /* Get the bit size of a field. */
2274
2275 bfd_vma
debug_get_field_bitsize(void * handle ATTRIBUTE_UNUSED,debug_field field)2276 debug_get_field_bitsize (void *handle ATTRIBUTE_UNUSED, debug_field field)
2277 {
2278 if (field == NULL || field->static_member)
2279 return (bfd_vma) -1;
2280 return field->u.f.bitsize;
2281 }
2282
2283 /* Get the visibility of a field. */
2284
2285 enum debug_visibility
debug_get_field_visibility(void * handle ATTRIBUTE_UNUSED,debug_field field)2286 debug_get_field_visibility (void *handle ATTRIBUTE_UNUSED, debug_field field)
2287 {
2288 if (field == NULL)
2289 return DEBUG_VISIBILITY_IGNORE;
2290 return field->visibility;
2291 }
2292
2293 /* Get the physical name of a field. */
2294
2295 const char *
debug_get_field_physname(void * handle ATTRIBUTE_UNUSED,debug_field field)2296 debug_get_field_physname (void *handle ATTRIBUTE_UNUSED, debug_field field)
2297 {
2298 if (field == NULL || ! field->static_member)
2299 return NULL;
2300 return field->u.s.physname;
2301 }
2302
2303 /* Write out the debugging information. This is given a handle to
2304 debugging information, and a set of function pointers to call. */
2305
2306 bfd_boolean
debug_write(void * handle,const struct debug_write_fns * fns,void * fhandle)2307 debug_write (void *handle, const struct debug_write_fns *fns, void *fhandle)
2308 {
2309 struct debug_handle *info = (struct debug_handle *) handle;
2310 struct debug_unit *u;
2311
2312 /* We use a mark to tell whether we have already written out a
2313 particular name. We use an integer, so that we don't have to
2314 clear the mark fields if we happen to write out the same
2315 information more than once. */
2316 ++info->mark;
2317
2318 /* The base_id field holds an ID value which will never be used, so
2319 that we can tell whether we have assigned an ID during this call
2320 to debug_write. */
2321 info->base_id = info->class_id;
2322
2323 /* We keep a linked list of classes for which was have assigned ID's
2324 during this call to debug_write. */
2325 info->id_list = NULL;
2326
2327 for (u = info->units; u != NULL; u = u->next)
2328 {
2329 struct debug_file *f;
2330 bfd_boolean first_file;
2331
2332 info->current_write_lineno = u->linenos;
2333 info->current_write_lineno_index = 0;
2334
2335 if (! (*fns->start_compilation_unit) (fhandle, u->files->filename))
2336 return FALSE;
2337
2338 first_file = TRUE;
2339 for (f = u->files; f != NULL; f = f->next)
2340 {
2341 struct debug_name *n;
2342
2343 if (first_file)
2344 first_file = FALSE;
2345 else if (! (*fns->start_source) (fhandle, f->filename))
2346 return FALSE;
2347
2348 if (f->globals != NULL)
2349 for (n = f->globals->list; n != NULL; n = n->next)
2350 if (! debug_write_name (info, fns, fhandle, n))
2351 return FALSE;
2352 }
2353
2354 /* Output any line number information which hasn't already been
2355 handled. */
2356 if (! debug_write_linenos (info, fns, fhandle, (bfd_vma) -1))
2357 return FALSE;
2358 }
2359
2360 return TRUE;
2361 }
2362
2363 /* Write out an element in a namespace. */
2364
2365 static bfd_boolean
debug_write_name(struct debug_handle * info,const struct debug_write_fns * fns,void * fhandle,struct debug_name * n)2366 debug_write_name (struct debug_handle *info,
2367 const struct debug_write_fns *fns, void *fhandle,
2368 struct debug_name *n)
2369 {
2370 switch (n->kind)
2371 {
2372 case DEBUG_OBJECT_TYPE:
2373 if (! debug_write_type (info, fns, fhandle, n->u.type, n)
2374 || ! (*fns->typdef) (fhandle, n->name))
2375 return FALSE;
2376 return TRUE;
2377 case DEBUG_OBJECT_TAG:
2378 if (! debug_write_type (info, fns, fhandle, n->u.tag, n))
2379 return FALSE;
2380 return (*fns->tag) (fhandle, n->name);
2381 case DEBUG_OBJECT_VARIABLE:
2382 if (! debug_write_type (info, fns, fhandle, n->u.variable->type,
2383 (struct debug_name *) NULL))
2384 return FALSE;
2385 return (*fns->variable) (fhandle, n->name, n->u.variable->kind,
2386 n->u.variable->val);
2387 case DEBUG_OBJECT_FUNCTION:
2388 return debug_write_function (info, fns, fhandle, n->name,
2389 n->linkage, n->u.function);
2390 case DEBUG_OBJECT_INT_CONSTANT:
2391 return (*fns->int_constant) (fhandle, n->name, n->u.int_constant);
2392 case DEBUG_OBJECT_FLOAT_CONSTANT:
2393 return (*fns->float_constant) (fhandle, n->name, n->u.float_constant);
2394 case DEBUG_OBJECT_TYPED_CONSTANT:
2395 if (! debug_write_type (info, fns, fhandle, n->u.typed_constant->type,
2396 (struct debug_name *) NULL))
2397 return FALSE;
2398 return (*fns->typed_constant) (fhandle, n->name,
2399 n->u.typed_constant->val);
2400 default:
2401 abort ();
2402 return FALSE;
2403 }
2404 /*NOTREACHED*/
2405 }
2406
2407 /* Write out a type. If the type is DEBUG_KIND_NAMED or
2408 DEBUG_KIND_TAGGED, then the name argument is the name for which we
2409 are about to call typedef or tag. If the type is anything else,
2410 then the name argument is a tag from a DEBUG_KIND_TAGGED type which
2411 points to this one. */
2412
2413 static bfd_boolean
debug_write_type(struct debug_handle * info,const struct debug_write_fns * fns,void * fhandle,struct debug_type_s * type,struct debug_name * name)2414 debug_write_type (struct debug_handle *info,
2415 const struct debug_write_fns *fns, void *fhandle,
2416 struct debug_type_s *type, struct debug_name *name)
2417 {
2418 unsigned int i;
2419 int is;
2420 const char *tag = NULL;
2421
2422 /* If we have a name for this type, just output it. We only output
2423 typedef names after they have been defined. We output type tags
2424 whenever we are not actually defining them. */
2425 if ((type->kind == DEBUG_KIND_NAMED
2426 || type->kind == DEBUG_KIND_TAGGED)
2427 && (type->u.knamed->name->mark == info->mark
2428 || (type->kind == DEBUG_KIND_TAGGED
2429 && type->u.knamed->name != name)))
2430 {
2431 if (type->kind == DEBUG_KIND_NAMED)
2432 return (*fns->typedef_type) (fhandle, type->u.knamed->name->name);
2433 else
2434 {
2435 struct debug_type_s *real;
2436 unsigned int id;
2437
2438 real = debug_get_real_type ((void *) info, type, NULL);
2439 if (real == NULL)
2440 return (*fns->empty_type) (fhandle);
2441 id = 0;
2442 if ((real->kind == DEBUG_KIND_STRUCT
2443 || real->kind == DEBUG_KIND_UNION
2444 || real->kind == DEBUG_KIND_CLASS
2445 || real->kind == DEBUG_KIND_UNION_CLASS)
2446 && real->u.kclass != NULL)
2447 {
2448 if (real->u.kclass->id <= info->base_id)
2449 {
2450 if (! debug_set_class_id (info,
2451 type->u.knamed->name->name,
2452 real))
2453 return FALSE;
2454 }
2455 id = real->u.kclass->id;
2456 }
2457
2458 return (*fns->tag_type) (fhandle, type->u.knamed->name->name, id,
2459 real->kind);
2460 }
2461 }
2462
2463 /* Mark the name after we have already looked for a known name, so
2464 that we don't just define a type in terms of itself. We need to
2465 mark the name here so that a struct containing a pointer to
2466 itself will work. */
2467 if (name != NULL)
2468 name->mark = info->mark;
2469
2470 if (name != NULL
2471 && type->kind != DEBUG_KIND_NAMED
2472 && type->kind != DEBUG_KIND_TAGGED)
2473 {
2474 assert (name->kind == DEBUG_OBJECT_TAG);
2475 tag = name->name;
2476 }
2477
2478 switch (type->kind)
2479 {
2480 case DEBUG_KIND_ILLEGAL:
2481 debug_error (_("debug_write_type: illegal type encountered"));
2482 return FALSE;
2483 case DEBUG_KIND_INDIRECT:
2484 if (*type->u.kindirect->slot == DEBUG_TYPE_NULL)
2485 return (*fns->empty_type) (fhandle);
2486 return debug_write_type (info, fns, fhandle, *type->u.kindirect->slot,
2487 name);
2488 case DEBUG_KIND_VOID:
2489 return (*fns->void_type) (fhandle);
2490 case DEBUG_KIND_INT:
2491 return (*fns->int_type) (fhandle, type->size, type->u.kint);
2492 case DEBUG_KIND_FLOAT:
2493 return (*fns->float_type) (fhandle, type->size);
2494 case DEBUG_KIND_COMPLEX:
2495 return (*fns->complex_type) (fhandle, type->size);
2496 case DEBUG_KIND_BOOL:
2497 return (*fns->bool_type) (fhandle, type->size);
2498 case DEBUG_KIND_STRUCT:
2499 case DEBUG_KIND_UNION:
2500 if (type->u.kclass != NULL)
2501 {
2502 if (type->u.kclass->id <= info->base_id)
2503 {
2504 if (! debug_set_class_id (info, tag, type))
2505 return FALSE;
2506 }
2507
2508 if (info->mark == type->u.kclass->mark)
2509 {
2510 /* We are currently outputting this struct, or we have
2511 already output it. I don't know if this can happen,
2512 but it can happen for a class. */
2513 assert (type->u.kclass->id > info->base_id);
2514 return (*fns->tag_type) (fhandle, tag, type->u.kclass->id,
2515 type->kind);
2516 }
2517 type->u.kclass->mark = info->mark;
2518 }
2519
2520 if (! (*fns->start_struct_type) (fhandle, tag,
2521 (type->u.kclass != NULL
2522 ? type->u.kclass->id
2523 : 0),
2524 type->kind == DEBUG_KIND_STRUCT,
2525 type->size))
2526 return FALSE;
2527 if (type->u.kclass != NULL
2528 && type->u.kclass->fields != NULL)
2529 {
2530 for (i = 0; type->u.kclass->fields[i] != NULL; i++)
2531 {
2532 struct debug_field_s *f;
2533
2534 f = type->u.kclass->fields[i];
2535 if (! debug_write_type (info, fns, fhandle, f->type,
2536 (struct debug_name *) NULL)
2537 || ! (*fns->struct_field) (fhandle, f->name, f->u.f.bitpos,
2538 f->u.f.bitsize, f->visibility))
2539 return FALSE;
2540 }
2541 }
2542 return (*fns->end_struct_type) (fhandle);
2543 case DEBUG_KIND_CLASS:
2544 case DEBUG_KIND_UNION_CLASS:
2545 return debug_write_class_type (info, fns, fhandle, type, tag);
2546 case DEBUG_KIND_ENUM:
2547 if (type->u.kenum == NULL)
2548 return (*fns->enum_type) (fhandle, tag, (const char **) NULL,
2549 (bfd_signed_vma *) NULL);
2550 return (*fns->enum_type) (fhandle, tag, type->u.kenum->names,
2551 type->u.kenum->values);
2552 case DEBUG_KIND_POINTER:
2553 if (! debug_write_type (info, fns, fhandle, type->u.kpointer,
2554 (struct debug_name *) NULL))
2555 return FALSE;
2556 return (*fns->pointer_type) (fhandle);
2557 case DEBUG_KIND_FUNCTION:
2558 if (! debug_write_type (info, fns, fhandle,
2559 type->u.kfunction->return_type,
2560 (struct debug_name *) NULL))
2561 return FALSE;
2562 if (type->u.kfunction->arg_types == NULL)
2563 is = -1;
2564 else
2565 {
2566 for (is = 0; type->u.kfunction->arg_types[is] != NULL; is++)
2567 if (! debug_write_type (info, fns, fhandle,
2568 type->u.kfunction->arg_types[is],
2569 (struct debug_name *) NULL))
2570 return FALSE;
2571 }
2572 return (*fns->function_type) (fhandle, is,
2573 type->u.kfunction->varargs);
2574 case DEBUG_KIND_REFERENCE:
2575 if (! debug_write_type (info, fns, fhandle, type->u.kreference,
2576 (struct debug_name *) NULL))
2577 return FALSE;
2578 return (*fns->reference_type) (fhandle);
2579 case DEBUG_KIND_RANGE:
2580 if (! debug_write_type (info, fns, fhandle, type->u.krange->type,
2581 (struct debug_name *) NULL))
2582 return FALSE;
2583 return (*fns->range_type) (fhandle, type->u.krange->lower,
2584 type->u.krange->upper);
2585 case DEBUG_KIND_ARRAY:
2586 if (! debug_write_type (info, fns, fhandle, type->u.karray->element_type,
2587 (struct debug_name *) NULL)
2588 || ! debug_write_type (info, fns, fhandle,
2589 type->u.karray->range_type,
2590 (struct debug_name *) NULL))
2591 return FALSE;
2592 return (*fns->array_type) (fhandle, type->u.karray->lower,
2593 type->u.karray->upper,
2594 type->u.karray->stringp);
2595 case DEBUG_KIND_SET:
2596 if (! debug_write_type (info, fns, fhandle, type->u.kset->type,
2597 (struct debug_name *) NULL))
2598 return FALSE;
2599 return (*fns->set_type) (fhandle, type->u.kset->bitstringp);
2600 case DEBUG_KIND_OFFSET:
2601 if (! debug_write_type (info, fns, fhandle, type->u.koffset->base_type,
2602 (struct debug_name *) NULL)
2603 || ! debug_write_type (info, fns, fhandle,
2604 type->u.koffset->target_type,
2605 (struct debug_name *) NULL))
2606 return FALSE;
2607 return (*fns->offset_type) (fhandle);
2608 case DEBUG_KIND_METHOD:
2609 if (! debug_write_type (info, fns, fhandle,
2610 type->u.kmethod->return_type,
2611 (struct debug_name *) NULL))
2612 return FALSE;
2613 if (type->u.kmethod->arg_types == NULL)
2614 is = -1;
2615 else
2616 {
2617 for (is = 0; type->u.kmethod->arg_types[is] != NULL; is++)
2618 if (! debug_write_type (info, fns, fhandle,
2619 type->u.kmethod->arg_types[is],
2620 (struct debug_name *) NULL))
2621 return FALSE;
2622 }
2623 if (type->u.kmethod->domain_type != NULL)
2624 {
2625 if (! debug_write_type (info, fns, fhandle,
2626 type->u.kmethod->domain_type,
2627 (struct debug_name *) NULL))
2628 return FALSE;
2629 }
2630 return (*fns->method_type) (fhandle,
2631 type->u.kmethod->domain_type != NULL,
2632 is,
2633 type->u.kmethod->varargs);
2634 case DEBUG_KIND_CONST:
2635 if (! debug_write_type (info, fns, fhandle, type->u.kconst,
2636 (struct debug_name *) NULL))
2637 return FALSE;
2638 return (*fns->const_type) (fhandle);
2639 case DEBUG_KIND_VOLATILE:
2640 if (! debug_write_type (info, fns, fhandle, type->u.kvolatile,
2641 (struct debug_name *) NULL))
2642 return FALSE;
2643 return (*fns->volatile_type) (fhandle);
2644 case DEBUG_KIND_NAMED:
2645 return debug_write_type (info, fns, fhandle, type->u.knamed->type,
2646 (struct debug_name *) NULL);
2647 case DEBUG_KIND_TAGGED:
2648 return debug_write_type (info, fns, fhandle, type->u.knamed->type,
2649 type->u.knamed->name);
2650 default:
2651 abort ();
2652 return FALSE;
2653 }
2654 }
2655
2656 /* Write out a class type. */
2657
2658 static bfd_boolean
debug_write_class_type(struct debug_handle * info,const struct debug_write_fns * fns,void * fhandle,struct debug_type_s * type,const char * tag)2659 debug_write_class_type (struct debug_handle *info,
2660 const struct debug_write_fns *fns, void *fhandle,
2661 struct debug_type_s *type, const char *tag)
2662 {
2663 unsigned int i;
2664 unsigned int id;
2665 struct debug_type_s *vptrbase;
2666
2667 if (type->u.kclass == NULL)
2668 {
2669 id = 0;
2670 vptrbase = NULL;
2671 }
2672 else
2673 {
2674 if (type->u.kclass->id <= info->base_id)
2675 {
2676 if (! debug_set_class_id (info, tag, type))
2677 return FALSE;
2678 }
2679
2680 if (info->mark == type->u.kclass->mark)
2681 {
2682 /* We are currently outputting this class, or we have
2683 already output it. This can happen when there are
2684 methods for an anonymous class. */
2685 assert (type->u.kclass->id > info->base_id);
2686 return (*fns->tag_type) (fhandle, tag, type->u.kclass->id,
2687 type->kind);
2688 }
2689 type->u.kclass->mark = info->mark;
2690 id = type->u.kclass->id;
2691
2692 vptrbase = type->u.kclass->vptrbase;
2693 if (vptrbase != NULL && vptrbase != type)
2694 {
2695 if (! debug_write_type (info, fns, fhandle, vptrbase,
2696 (struct debug_name *) NULL))
2697 return FALSE;
2698 }
2699 }
2700
2701 if (! (*fns->start_class_type) (fhandle, tag, id,
2702 type->kind == DEBUG_KIND_CLASS,
2703 type->size,
2704 vptrbase != NULL,
2705 vptrbase == type))
2706 return FALSE;
2707
2708 if (type->u.kclass != NULL)
2709 {
2710 if (type->u.kclass->fields != NULL)
2711 {
2712 for (i = 0; type->u.kclass->fields[i] != NULL; i++)
2713 {
2714 struct debug_field_s *f;
2715
2716 f = type->u.kclass->fields[i];
2717 if (! debug_write_type (info, fns, fhandle, f->type,
2718 (struct debug_name *) NULL))
2719 return FALSE;
2720 if (f->static_member)
2721 {
2722 if (! (*fns->class_static_member) (fhandle, f->name,
2723 f->u.s.physname,
2724 f->visibility))
2725 return FALSE;
2726 }
2727 else
2728 {
2729 if (! (*fns->struct_field) (fhandle, f->name, f->u.f.bitpos,
2730 f->u.f.bitsize, f->visibility))
2731 return FALSE;
2732 }
2733 }
2734 }
2735
2736 if (type->u.kclass->baseclasses != NULL)
2737 {
2738 for (i = 0; type->u.kclass->baseclasses[i] != NULL; i++)
2739 {
2740 struct debug_baseclass_s *b;
2741
2742 b = type->u.kclass->baseclasses[i];
2743 if (! debug_write_type (info, fns, fhandle, b->type,
2744 (struct debug_name *) NULL))
2745 return FALSE;
2746 if (! (*fns->class_baseclass) (fhandle, b->bitpos, b->is_virtual,
2747 b->visibility))
2748 return FALSE;
2749 }
2750 }
2751
2752 if (type->u.kclass->methods != NULL)
2753 {
2754 for (i = 0; type->u.kclass->methods[i] != NULL; i++)
2755 {
2756 struct debug_method_s *m;
2757 unsigned int j;
2758
2759 m = type->u.kclass->methods[i];
2760 if (! (*fns->class_start_method) (fhandle, m->name))
2761 return FALSE;
2762 for (j = 0; m->variants[j] != NULL; j++)
2763 {
2764 struct debug_method_variant_s *v;
2765
2766 v = m->variants[j];
2767 if (v->context != NULL)
2768 {
2769 if (! debug_write_type (info, fns, fhandle, v->context,
2770 (struct debug_name *) NULL))
2771 return FALSE;
2772 }
2773 if (! debug_write_type (info, fns, fhandle, v->type,
2774 (struct debug_name *) NULL))
2775 return FALSE;
2776 if (v->voffset != VOFFSET_STATIC_METHOD)
2777 {
2778 if (! (*fns->class_method_variant) (fhandle, v->physname,
2779 v->visibility,
2780 v->constp,
2781 v->volatilep,
2782 v->voffset,
2783 v->context != NULL))
2784 return FALSE;
2785 }
2786 else
2787 {
2788 if (! (*fns->class_static_method_variant) (fhandle,
2789 v->physname,
2790 v->visibility,
2791 v->constp,
2792 v->volatilep))
2793 return FALSE;
2794 }
2795 }
2796 if (! (*fns->class_end_method) (fhandle))
2797 return FALSE;
2798 }
2799 }
2800 }
2801
2802 return (*fns->end_class_type) (fhandle);
2803 }
2804
2805 /* Write out information for a function. */
2806
2807 static bfd_boolean
debug_write_function(struct debug_handle * info,const struct debug_write_fns * fns,void * fhandle,const char * name,enum debug_object_linkage linkage,struct debug_function * function)2808 debug_write_function (struct debug_handle *info,
2809 const struct debug_write_fns *fns, void *fhandle,
2810 const char *name, enum debug_object_linkage linkage,
2811 struct debug_function *function)
2812 {
2813 struct debug_parameter *p;
2814 struct debug_block *b;
2815
2816 if (! debug_write_linenos (info, fns, fhandle, function->blocks->start))
2817 return FALSE;
2818
2819 if (! debug_write_type (info, fns, fhandle, function->return_type,
2820 (struct debug_name *) NULL))
2821 return FALSE;
2822
2823 if (! (*fns->start_function) (fhandle, name,
2824 linkage == DEBUG_LINKAGE_GLOBAL))
2825 return FALSE;
2826
2827 for (p = function->parameters; p != NULL; p = p->next)
2828 {
2829 if (! debug_write_type (info, fns, fhandle, p->type,
2830 (struct debug_name *) NULL)
2831 || ! (*fns->function_parameter) (fhandle, p->name, p->kind, p->val))
2832 return FALSE;
2833 }
2834
2835 for (b = function->blocks; b != NULL; b = b->next)
2836 {
2837 if (! debug_write_block (info, fns, fhandle, b))
2838 return FALSE;
2839 }
2840
2841 return (*fns->end_function) (fhandle);
2842 }
2843
2844 /* Write out information for a block. */
2845
2846 static bfd_boolean
debug_write_block(struct debug_handle * info,const struct debug_write_fns * fns,void * fhandle,struct debug_block * block)2847 debug_write_block (struct debug_handle *info,
2848 const struct debug_write_fns *fns, void *fhandle,
2849 struct debug_block *block)
2850 {
2851 struct debug_name *n;
2852 struct debug_block *b;
2853
2854 if (! debug_write_linenos (info, fns, fhandle, block->start))
2855 return FALSE;
2856
2857 /* I can't see any point to writing out a block with no local
2858 variables, so we don't bother, except for the top level block. */
2859 if (block->locals != NULL || block->parent == NULL)
2860 {
2861 if (! (*fns->start_block) (fhandle, block->start))
2862 return FALSE;
2863 }
2864
2865 if (block->locals != NULL)
2866 {
2867 for (n = block->locals->list; n != NULL; n = n->next)
2868 {
2869 if (! debug_write_name (info, fns, fhandle, n))
2870 return FALSE;
2871 }
2872 }
2873
2874 for (b = block->children; b != NULL; b = b->next)
2875 {
2876 if (! debug_write_block (info, fns, fhandle, b))
2877 return FALSE;
2878 }
2879
2880 if (! debug_write_linenos (info, fns, fhandle, block->end))
2881 return FALSE;
2882
2883 if (block->locals != NULL || block->parent == NULL)
2884 {
2885 if (! (*fns->end_block) (fhandle, block->end))
2886 return FALSE;
2887 }
2888
2889 return TRUE;
2890 }
2891
2892 /* Write out line number information up to ADDRESS. */
2893
2894 static bfd_boolean
debug_write_linenos(struct debug_handle * info,const struct debug_write_fns * fns,void * fhandle,bfd_vma address)2895 debug_write_linenos (struct debug_handle *info,
2896 const struct debug_write_fns *fns, void *fhandle,
2897 bfd_vma address)
2898 {
2899 while (info->current_write_lineno != NULL)
2900 {
2901 struct debug_lineno *l;
2902
2903 l = info->current_write_lineno;
2904
2905 while (info->current_write_lineno_index < DEBUG_LINENO_COUNT)
2906 {
2907 if (l->linenos[info->current_write_lineno_index]
2908 == (unsigned long) -1)
2909 break;
2910
2911 if (l->addrs[info->current_write_lineno_index] >= address)
2912 return TRUE;
2913
2914 if (! (*fns->lineno) (fhandle, l->file->filename,
2915 l->linenos[info->current_write_lineno_index],
2916 l->addrs[info->current_write_lineno_index]))
2917 return FALSE;
2918
2919 ++info->current_write_lineno_index;
2920 }
2921
2922 info->current_write_lineno = l->next;
2923 info->current_write_lineno_index = 0;
2924 }
2925
2926 return TRUE;
2927 }
2928
2929 /* Get the ID number for a class. If during the same call to
2930 debug_write we find a struct with the same definition with the same
2931 name, we use the same ID. This type of things happens because the
2932 same struct will be defined by multiple compilation units. */
2933
2934 static bfd_boolean
debug_set_class_id(struct debug_handle * info,const char * tag,struct debug_type_s * type)2935 debug_set_class_id (struct debug_handle *info, const char *tag,
2936 struct debug_type_s *type)
2937 {
2938 struct debug_class_type *c;
2939 struct debug_class_id *l;
2940
2941 assert (type->kind == DEBUG_KIND_STRUCT
2942 || type->kind == DEBUG_KIND_UNION
2943 || type->kind == DEBUG_KIND_CLASS
2944 || type->kind == DEBUG_KIND_UNION_CLASS);
2945
2946 c = type->u.kclass;
2947
2948 if (c->id > info->base_id)
2949 return TRUE;
2950
2951 for (l = info->id_list; l != NULL; l = l->next)
2952 {
2953 if (l->type->kind != type->kind)
2954 continue;
2955
2956 if (tag == NULL)
2957 {
2958 if (l->tag != NULL)
2959 continue;
2960 }
2961 else
2962 {
2963 if (l->tag == NULL
2964 || l->tag[0] != tag[0]
2965 || strcmp (l->tag, tag) != 0)
2966 continue;
2967 }
2968
2969 if (debug_type_samep (info, l->type, type))
2970 {
2971 c->id = l->type->u.kclass->id;
2972 return TRUE;
2973 }
2974 }
2975
2976 /* There are no identical types. Use a new ID, and add it to the
2977 list. */
2978 ++info->class_id;
2979 c->id = info->class_id;
2980
2981 l = (struct debug_class_id *) xmalloc (sizeof *l);
2982 memset (l, 0, sizeof *l);
2983
2984 l->type = type;
2985 l->tag = tag;
2986
2987 l->next = info->id_list;
2988 info->id_list = l;
2989
2990 return TRUE;
2991 }
2992
2993 /* See if two types are the same. At this point, we don't care about
2994 tags and the like. */
2995
2996 static bfd_boolean
debug_type_samep(struct debug_handle * info,struct debug_type_s * t1,struct debug_type_s * t2)2997 debug_type_samep (struct debug_handle *info, struct debug_type_s *t1,
2998 struct debug_type_s *t2)
2999 {
3000 struct debug_type_compare_list *l;
3001 struct debug_type_compare_list top;
3002 bfd_boolean ret;
3003
3004 if (t1 == NULL)
3005 return t2 == NULL;
3006 if (t2 == NULL)
3007 return FALSE;
3008
3009 while (t1->kind == DEBUG_KIND_INDIRECT)
3010 {
3011 t1 = *t1->u.kindirect->slot;
3012 if (t1 == NULL)
3013 return FALSE;
3014 }
3015 while (t2->kind == DEBUG_KIND_INDIRECT)
3016 {
3017 t2 = *t2->u.kindirect->slot;
3018 if (t2 == NULL)
3019 return FALSE;
3020 }
3021
3022 if (t1 == t2)
3023 return TRUE;
3024
3025 /* As a special case, permit a typedef to match a tag, since C++
3026 debugging output will sometimes add a typedef where C debugging
3027 output will not. */
3028 if (t1->kind == DEBUG_KIND_NAMED
3029 && t2->kind == DEBUG_KIND_TAGGED)
3030 return debug_type_samep (info, t1->u.knamed->type, t2);
3031 else if (t1->kind == DEBUG_KIND_TAGGED
3032 && t2->kind == DEBUG_KIND_NAMED)
3033 return debug_type_samep (info, t1, t2->u.knamed->type);
3034
3035 if (t1->kind != t2->kind
3036 || t1->size != t2->size)
3037 return FALSE;
3038
3039 /* Get rid of the trivial cases first. */
3040 switch (t1->kind)
3041 {
3042 default:
3043 break;
3044 case DEBUG_KIND_VOID:
3045 case DEBUG_KIND_FLOAT:
3046 case DEBUG_KIND_COMPLEX:
3047 case DEBUG_KIND_BOOL:
3048 return TRUE;
3049 case DEBUG_KIND_INT:
3050 return t1->u.kint == t2->u.kint;
3051 }
3052
3053 /* We have to avoid an infinite recursion. We do this by keeping a
3054 list of types which we are comparing. We just keep the list on
3055 the stack. If we encounter a pair of types we are currently
3056 comparing, we just assume that they are equal. */
3057 for (l = info->compare_list; l != NULL; l = l->next)
3058 {
3059 if (l->t1 == t1 && l->t2 == t2)
3060 return TRUE;
3061 }
3062
3063 top.t1 = t1;
3064 top.t2 = t2;
3065 top.next = info->compare_list;
3066 info->compare_list = ⊤
3067
3068 switch (t1->kind)
3069 {
3070 default:
3071 abort ();
3072 ret = FALSE;
3073 break;
3074
3075 case DEBUG_KIND_STRUCT:
3076 case DEBUG_KIND_UNION:
3077 case DEBUG_KIND_CLASS:
3078 case DEBUG_KIND_UNION_CLASS:
3079 if (t1->u.kclass == NULL)
3080 ret = t2->u.kclass == NULL;
3081 else if (t2->u.kclass == NULL)
3082 ret = FALSE;
3083 else if (t1->u.kclass->id > info->base_id
3084 && t1->u.kclass->id == t2->u.kclass->id)
3085 ret = TRUE;
3086 else
3087 ret = debug_class_type_samep (info, t1, t2);
3088 break;
3089
3090 case DEBUG_KIND_ENUM:
3091 if (t1->u.kenum == NULL)
3092 ret = t2->u.kenum == NULL;
3093 else if (t2->u.kenum == NULL)
3094 ret = FALSE;
3095 else
3096 {
3097 const char **pn1, **pn2;
3098 bfd_signed_vma *pv1, *pv2;
3099
3100 pn1 = t1->u.kenum->names;
3101 pn2 = t2->u.kenum->names;
3102 pv1 = t1->u.kenum->values;
3103 pv2 = t2->u.kenum->values;
3104 while (*pn1 != NULL && *pn2 != NULL)
3105 {
3106 if (**pn1 != **pn2
3107 || *pv1 != *pv2
3108 || strcmp (*pn1, *pn2) != 0)
3109 break;
3110 ++pn1;
3111 ++pn2;
3112 ++pv1;
3113 ++pv2;
3114 }
3115 ret = *pn1 == NULL && *pn2 == NULL;
3116 }
3117 break;
3118
3119 case DEBUG_KIND_POINTER:
3120 ret = debug_type_samep (info, t1->u.kpointer, t2->u.kpointer);
3121 break;
3122
3123 case DEBUG_KIND_FUNCTION:
3124 if (t1->u.kfunction->varargs != t2->u.kfunction->varargs
3125 || ! debug_type_samep (info, t1->u.kfunction->return_type,
3126 t2->u.kfunction->return_type)
3127 || ((t1->u.kfunction->arg_types == NULL)
3128 != (t2->u.kfunction->arg_types == NULL)))
3129 ret = FALSE;
3130 else if (t1->u.kfunction->arg_types == NULL)
3131 ret = TRUE;
3132 else
3133 {
3134 struct debug_type_s **a1, **a2;
3135
3136 a1 = t1->u.kfunction->arg_types;
3137 a2 = t2->u.kfunction->arg_types;
3138 while (*a1 != NULL && *a2 != NULL)
3139 {
3140 if (! debug_type_samep (info, *a1, *a2))
3141 break;
3142 ++a1;
3143 ++a2;
3144 }
3145 ret = *a1 == NULL && *a2 == NULL;
3146 }
3147 break;
3148
3149 case DEBUG_KIND_REFERENCE:
3150 ret = debug_type_samep (info, t1->u.kreference, t2->u.kreference);
3151 break;
3152
3153 case DEBUG_KIND_RANGE:
3154 ret = (t1->u.krange->lower == t2->u.krange->lower
3155 && t1->u.krange->upper == t2->u.krange->upper
3156 && debug_type_samep (info, t1->u.krange->type,
3157 t2->u.krange->type));
3158 break;
3159
3160 case DEBUG_KIND_ARRAY:
3161 ret = (t1->u.karray->lower == t2->u.karray->lower
3162 && t1->u.karray->upper == t2->u.karray->upper
3163 && t1->u.karray->stringp == t2->u.karray->stringp
3164 && debug_type_samep (info, t1->u.karray->element_type,
3165 t2->u.karray->element_type));
3166 break;
3167
3168 case DEBUG_KIND_SET:
3169 ret = (t1->u.kset->bitstringp == t2->u.kset->bitstringp
3170 && debug_type_samep (info, t1->u.kset->type, t2->u.kset->type));
3171 break;
3172
3173 case DEBUG_KIND_OFFSET:
3174 ret = (debug_type_samep (info, t1->u.koffset->base_type,
3175 t2->u.koffset->base_type)
3176 && debug_type_samep (info, t1->u.koffset->target_type,
3177 t2->u.koffset->target_type));
3178 break;
3179
3180 case DEBUG_KIND_METHOD:
3181 if (t1->u.kmethod->varargs != t2->u.kmethod->varargs
3182 || ! debug_type_samep (info, t1->u.kmethod->return_type,
3183 t2->u.kmethod->return_type)
3184 || ! debug_type_samep (info, t1->u.kmethod->domain_type,
3185 t2->u.kmethod->domain_type)
3186 || ((t1->u.kmethod->arg_types == NULL)
3187 != (t2->u.kmethod->arg_types == NULL)))
3188 ret = FALSE;
3189 else if (t1->u.kmethod->arg_types == NULL)
3190 ret = TRUE;
3191 else
3192 {
3193 struct debug_type_s **a1, **a2;
3194
3195 a1 = t1->u.kmethod->arg_types;
3196 a2 = t2->u.kmethod->arg_types;
3197 while (*a1 != NULL && *a2 != NULL)
3198 {
3199 if (! debug_type_samep (info, *a1, *a2))
3200 break;
3201 ++a1;
3202 ++a2;
3203 }
3204 ret = *a1 == NULL && *a2 == NULL;
3205 }
3206 break;
3207
3208 case DEBUG_KIND_CONST:
3209 ret = debug_type_samep (info, t1->u.kconst, t2->u.kconst);
3210 break;
3211
3212 case DEBUG_KIND_VOLATILE:
3213 ret = debug_type_samep (info, t1->u.kvolatile, t2->u.kvolatile);
3214 break;
3215
3216 case DEBUG_KIND_NAMED:
3217 case DEBUG_KIND_TAGGED:
3218 ret = (strcmp (t1->u.knamed->name->name, t2->u.knamed->name->name) == 0
3219 && debug_type_samep (info, t1->u.knamed->type,
3220 t2->u.knamed->type));
3221 break;
3222 }
3223
3224 info->compare_list = top.next;
3225
3226 return ret;
3227 }
3228
3229 /* See if two classes are the same. This is a subroutine of
3230 debug_type_samep. */
3231
3232 static bfd_boolean
debug_class_type_samep(struct debug_handle * info,struct debug_type_s * t1,struct debug_type_s * t2)3233 debug_class_type_samep (struct debug_handle *info, struct debug_type_s *t1,
3234 struct debug_type_s *t2)
3235 {
3236 struct debug_class_type *c1, *c2;
3237
3238 c1 = t1->u.kclass;
3239 c2 = t2->u.kclass;
3240
3241 if ((c1->fields == NULL) != (c2->fields == NULL)
3242 || (c1->baseclasses == NULL) != (c2->baseclasses == NULL)
3243 || (c1->methods == NULL) != (c2->methods == NULL)
3244 || (c1->vptrbase == NULL) != (c2->vptrbase == NULL))
3245 return FALSE;
3246
3247 if (c1->fields != NULL)
3248 {
3249 struct debug_field_s **pf1, **pf2;
3250
3251 for (pf1 = c1->fields, pf2 = c2->fields;
3252 *pf1 != NULL && *pf2 != NULL;
3253 pf1++, pf2++)
3254 {
3255 struct debug_field_s *f1, *f2;
3256
3257 f1 = *pf1;
3258 f2 = *pf2;
3259 if (f1->name[0] != f2->name[0]
3260 || f1->visibility != f2->visibility
3261 || f1->static_member != f2->static_member)
3262 return FALSE;
3263 if (f1->static_member)
3264 {
3265 if (strcmp (f1->u.s.physname, f2->u.s.physname) != 0)
3266 return FALSE;
3267 }
3268 else
3269 {
3270 if (f1->u.f.bitpos != f2->u.f.bitpos
3271 || f1->u.f.bitsize != f2->u.f.bitsize)
3272 return FALSE;
3273 }
3274 /* We do the checks which require function calls last. We
3275 don't require that the types of fields have the same
3276 names, since that sometimes fails in the presence of
3277 typedefs and we really don't care. */
3278 if (strcmp (f1->name, f2->name) != 0
3279 || ! debug_type_samep (info,
3280 debug_get_real_type ((void *) info,
3281 f1->type, NULL),
3282 debug_get_real_type ((void *) info,
3283 f2->type, NULL)))
3284 return FALSE;
3285 }
3286 if (*pf1 != NULL || *pf2 != NULL)
3287 return FALSE;
3288 }
3289
3290 if (c1->vptrbase != NULL)
3291 {
3292 if (! debug_type_samep (info, c1->vptrbase, c2->vptrbase))
3293 return FALSE;
3294 }
3295
3296 if (c1->baseclasses != NULL)
3297 {
3298 struct debug_baseclass_s **pb1, **pb2;
3299
3300 for (pb1 = c1->baseclasses, pb2 = c2->baseclasses;
3301 *pb1 != NULL && *pb2 != NULL;
3302 ++pb1, ++pb2)
3303 {
3304 struct debug_baseclass_s *b1, *b2;
3305
3306 b1 = *pb1;
3307 b2 = *pb2;
3308 if (b1->bitpos != b2->bitpos
3309 || b1->is_virtual != b2->is_virtual
3310 || b1->visibility != b2->visibility
3311 || ! debug_type_samep (info, b1->type, b2->type))
3312 return FALSE;
3313 }
3314 if (*pb1 != NULL || *pb2 != NULL)
3315 return FALSE;
3316 }
3317
3318 if (c1->methods != NULL)
3319 {
3320 struct debug_method_s **pm1, **pm2;
3321
3322 for (pm1 = c1->methods, pm2 = c2->methods;
3323 *pm1 != NULL && *pm2 != NULL;
3324 ++pm1, ++pm2)
3325 {
3326 struct debug_method_s *m1, *m2;
3327
3328 m1 = *pm1;
3329 m2 = *pm2;
3330 if (m1->name[0] != m2->name[0]
3331 || strcmp (m1->name, m2->name) != 0
3332 || (m1->variants == NULL) != (m2->variants == NULL))
3333 return FALSE;
3334 if (m1->variants == NULL)
3335 {
3336 struct debug_method_variant_s **pv1, **pv2;
3337
3338 for (pv1 = m1->variants, pv2 = m2->variants;
3339 *pv1 != NULL && *pv2 != NULL;
3340 ++pv1, ++pv2)
3341 {
3342 struct debug_method_variant_s *v1, *v2;
3343
3344 v1 = *pv1;
3345 v2 = *pv2;
3346 if (v1->physname[0] != v2->physname[0]
3347 || v1->visibility != v2->visibility
3348 || v1->constp != v2->constp
3349 || v1->volatilep != v2->volatilep
3350 || v1->voffset != v2->voffset
3351 || (v1->context == NULL) != (v2->context == NULL)
3352 || strcmp (v1->physname, v2->physname) != 0
3353 || ! debug_type_samep (info, v1->type, v2->type))
3354 return FALSE;
3355 if (v1->context != NULL)
3356 {
3357 if (! debug_type_samep (info, v1->context,
3358 v2->context))
3359 return FALSE;
3360 }
3361 }
3362 if (*pv1 != NULL || *pv2 != NULL)
3363 return FALSE;
3364 }
3365 }
3366 if (*pm1 != NULL || *pm2 != NULL)
3367 return FALSE;
3368 }
3369
3370 return TRUE;
3371 }
3372