xref: /titanic_41/usr/src/tools/ctf/dwarf/common/dwarf_alloc.c (revision fbe82215144da71ed02c3a920667472cc567fafd)
1 /*
2 
3   Copyright (C) 2000-2005 Silicon Graphics, Inc.  All Rights Reserved.
4   Portions Copyright (C) 2007-2010  David Anderson. All Rights Reserved.
5 
6   This program is free software; you can redistribute it and/or modify it
7   under the terms of version 2.1 of the GNU Lesser General Public License
8   as published by the Free Software Foundation.
9 
10   This program is distributed in the hope that it would be useful, but
11   WITHOUT ANY WARRANTY; without even the implied warranty of
12   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
13 
14   Further, this software is distributed without any warranty that it is
15   free of the rightful claim of any third person regarding infringement
16   or the like.  Any license provided herein, whether implied or
17   otherwise, applies only to this software file.  Patent licenses, if
18   any, provided herein do not apply to combinations of this program with
19   other software, or any other product whatsoever.
20 
21   You should have received a copy of the GNU Lesser General Public
22   License along with this program; if not, write the Free Software
23   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston MA 02110-1301,
24   USA.
25 
26   Contact information:  Silicon Graphics, Inc., 1500 Crittenden Lane,
27   Mountain View, CA 94043, or:
28 
29   http://www.sgi.com
30 
31   For further information regarding this notice, see:
32 
33   http://oss.sgi.com/projects/GenInfo/NoticeExplan
34 
35 */
36 /* The address of the Free Software Foundation is
37    Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
38    Boston, MA 02110-1301, USA.
39    SGI has moved from the Crittenden Lane address.
40 */
41 
42 
43 #undef  DEBUG
44 
45 #include "config.h"
46 #include "dwarf_incl.h"
47 #include <sys/types.h>
48 
49 #include <stdlib.h>
50 #include <stdio.h>
51 #include "malloc_check.h"
52 
53 /*
54     These files are included to get the sizes
55     of structs to set the ah_bytes_one_struct field
56     of the Dwarf_Alloc_Hdr_s structs for each
57     allocation type.
58 */
59 #include "dwarf_line.h"
60 #include "dwarf_global.h"
61 #include "dwarf_arange.h"
62 #include "dwarf_abbrev.h"
63 #include "dwarf_die_deliv.h"
64 #include "dwarf_frame.h"
65 #include "dwarf_loc.h"
66 #include "dwarf_funcs.h"
67 #include "dwarf_types.h"
68 #include "dwarf_vars.h"
69 #include "dwarf_weaks.h"
70 
71 
72 static void _dwarf_free_special_error(Dwarf_Ptr space);
73 
74 #ifdef DWARF_SIMPLE_MALLOC
75 static void _dwarf_simple_malloc_add_to_list(Dwarf_Debug dbg,
76     Dwarf_Ptr addr,
77     unsigned long size,
78     short alloc_type);
79 static void _dwarf_simple_malloc_delete_from_list(Dwarf_Debug dbg,
80     Dwarf_Ptr space,
81     short alloc_type);
82 void _dwarf_simple_malloc_botch(int err);
83 
84 #endif /* DWARF_SIMPLE_MALLOC */
85 
86 
87 
88 
89 /*
90     This macro adds the size of a pointer to the size of a
91     struct that is given to it.  It rounds up the size to
92     be a multiple of the size of a pointer.  This is done
93     so that every struct returned by _dwarf_get_alloc()
94     can be preceded by a pointer to the chunk it came from.
95     Before allocating, it checks if the size of struct is less than
96     the size of a pointer.  If yes, it returns the size
97     of 2 pointers.  The returned size should be at least
98     the size of 2 pointers, since the first points to the
99     chunk the struct was allocated from, and the second
100     is used to link the free list.
101 
102     We want DW_RESERVE to be at least the size of
103     a long long and at least the size of a pointer because
104     our struct has a long long and we want that aligned right.
105     Now Standard C defines long long as 8 bytes, so lets
106     make that standard. It will become unworkable when
107     long long or pointer grows beyound 8 bytes.
108     Unclear what to do with wierd requirements, like
109     36 bit pointers.
110 
111 
112 */
113 #define DW_RESERVE 8
114 
115 /* Round size up to the next multiple of DW_RESERVE bytes
116 */
117 #define ROUND_SIZE(inputsize)                 \
118         (((inputsize) % (DW_RESERVE)) == 0 ? \
119             (inputsize):                      \
120             ((inputsize)  +                   \
121                (DW_RESERVE) - ((inputsize) % (DW_RESERVE)) ))
122 
123 #define ROUND_SIZE_WITH_POINTER(i_size) (ROUND_SIZE(i_size) + DW_RESERVE)
124 
125 /* SMALL_ALLOC is for trivia where allocation is a waste.
126    Things that should be removed, really. */
127 #define SMALL_ALLOC 2
128 
129 /* BASE_ALLOC is where a basic allocation makes sense, but 'not too large'.
130    No thorough evaluation of this value has been done, though
131    it was found wasteful of memory to have BASE_ALLOC be as large as
132    BIG_ALLOC. */
133 #define BASE_ALLOC 64
134 
135 /* BIG_ALLOC is where a larger-than-BASE_ALLOC
136    allocation makes sense, but still 'not too large'.
137    No thorough evaluation of this value has been done. */
138 #define BIG_ALLOC  128
139 
140 /* This translates into de_alloc_hdr index
141 ** the 0,1,1 entries are special: they don't use the
142 ** table values at all.
143 ** Rearranging the DW_DLA values would break binary compatibility
144 ** so that is not an option.
145 */
146 struct ial_s {
147     int ia_al_num;              /* Index into de_alloc_hdr table. */
148 
149     /* In bytes, one struct instance. This does not account for extra
150        space needed per block, but that (DW_RESERVE) will be added in
151        later where it is needed (DW_RESERVE space never added in here).
152      */
153     int ia_struct_size;
154 
155 
156     /* Number of instances per alloc block. MUST be > 0. */
157     int ia_base_count;
158 
159     int (*specialconstructor) (Dwarf_Debug, void *);
160     void (*specialdestructor) (void *);
161 };
162 
163 static const
164 struct ial_s index_into_allocated[ALLOC_AREA_INDEX_TABLE_MAX] = {
165     {0, 1, 1, 0, 0},            /* none */
166     {0, 1, 1, 0, 0},            /* 1 DW_DLA_STRING */
167     {1, sizeof(Dwarf_Loc), BASE_ALLOC, 0, 0}
168     ,                           /* 2 DW_DLA_LOC */
169     {2, sizeof(Dwarf_Locdesc), BASE_ALLOC, 0, 0}
170     ,                           /* 3 DW_DLA_LOCDESC */
171     {0, 1, 1, 0, 0}
172     ,                           /* not used *//* 4 DW_DLA_ELLIST */
173     {0, 1, 1, 0, 0}
174     ,                           /* not used *//* 5 DW_DLA_BOUNDS */
175     {3, sizeof(Dwarf_Block), BASE_ALLOC, 0, 0}
176     ,                           /* 6 DW_DLA_BLOCK */
177     {0, 1, 1, 0, 0}
178     ,                           /* the actual dwarf_debug structure *//* 7 DW_DLA_DEBUG */
179     {4, sizeof(struct Dwarf_Die_s), BIG_ALLOC, 0, 0},   /* 8 DW_DLA_DIE
180                                                          */
181     {5, sizeof(struct Dwarf_Line_s), BIG_ALLOC, 0, 0},  /* 9
182                                                            DW_DLA_LINE */
183     {6, sizeof(struct Dwarf_Attribute_s), BIG_ALLOC * 2, 0, 0},
184     /* 10 DW_DLA_ATTR */
185     {0, 1, 1, 0, 0},            /* not used *//* 11 DW_DLA_TYPE */
186     {0, 1, 1, 0, 0},            /* not used *//* 12 DW_DLA_SUBSCR */
187     {7, sizeof(struct Dwarf_Global_s), BASE_ALLOC, 0, 0},       /* 13
188                                                                    DW_DLA_GLOBAL
189                                                                  */
190     {8, sizeof(struct Dwarf_Error_s), BASE_ALLOC, 0, 0},        /* 14
191                                                                    DW_DLA_ERROR
192                                                                  */
193     {0, 1, 1, 0, 0},            /* 15 DW_DLA_LIST */
194     {0, 1, 1, 0, 0},            /* not used *//* 16 DW_DLA_LINEBUF */
195     {9, sizeof(struct Dwarf_Arange_s), BASE_ALLOC, 0, 0},       /* 17
196                                                                    DW_DLA_ARANGE
197                                                                  */
198     {10, sizeof(struct Dwarf_Abbrev_s), BIG_ALLOC, 0, 0},       /* 18
199                                                                    DW_DLA_ABBREV
200                                                                  */
201     {11, sizeof(Dwarf_Frame_Op), BIG_ALLOC, 0, 0}
202     ,                           /* 19 DW_DLA_FRAME_OP */
203     {12, sizeof(struct Dwarf_Cie_s), BASE_ALLOC, 0, 0}, /* 20
204                                                            DW_DLA_CIE */
205     {13, sizeof(struct Dwarf_Fde_s), BASE_ALLOC, 0, 0}, /* 21 DW_DLA_FDE */
206     {0, 1, 1, 0, 0},            /* 22 DW_DLA_LOC_BLOCK */
207     {0, 1, 1, 0, 0},            /* 23 DW_DLA_FRAME_BLOCK */
208     {14, sizeof(struct Dwarf_Global_s), BASE_ALLOC, 0, 0}, /* 24 DW_DLA_FUNC
209                                                               UNUSED */
210     {15, sizeof(struct Dwarf_Global_s), BASE_ALLOC, 0, 0}, /* 25
211                                                               DW_DLA_TYPENAME
212                                                               UNUSED */
213     {16, sizeof(struct Dwarf_Global_s), BASE_ALLOC, 0, 0}, /* 26 DW_DLA_VAR
214                                                               UNUSED */
215     {17, sizeof(struct Dwarf_Global_s), BASE_ALLOC, 0, 0}, /* 27 DW_DLA_WEAK
216                                                               UNUSED */
217     {0, 1, 1, 0, 0},            /* 28 DW_DLA_ADDR */
218     {0, 1,1,0,0 },              /* 29 DW_DLA_RANGES */
219 
220     /* The following DW_DLA data types
221        are known only inside libdwarf.  */
222 
223     {18, sizeof(struct Dwarf_Abbrev_List_s), BIG_ALLOC, 0, 0},
224     /* 30 DW_DLA_ABBREV_LIST */
225 
226     {19, sizeof(struct Dwarf_Chain_s), BIG_ALLOC, 0, 0}, /* 31 DW_DLA_CHAIN */
227     {20, sizeof(struct Dwarf_CU_Context_s), BASE_ALLOC, 0, 0},
228     /* 32 DW_DLA_CU_CONTEXT */
229     {21, sizeof(struct Dwarf_Frame_s), BASE_ALLOC,
230      _dwarf_frame_constructor,
231      _dwarf_frame_destructor},  /* 33 DW_DLA_FRAME */
232     {22, sizeof(struct Dwarf_Global_Context_s), BASE_ALLOC, 0, 0},
233     /* 34 DW_DLA_GLOBAL_CONTEXT */
234     {23, sizeof(struct Dwarf_File_Entry_s), BASE_ALLOC, 0, 0},  /* 34 */
235     /* 35 DW_DLA_FILE_ENTRY */
236     {24, sizeof(struct Dwarf_Line_Context_s), BASE_ALLOC, 0, 0},
237     /* 36 DW_DLA_LINE_CONTEXT */
238     {25, sizeof(struct Dwarf_Loc_Chain_s), BASE_ALLOC, 0, 0},   /* 36 */
239     /* 37 DW_DLA_LOC_CHAIN */
240 
241     {26, sizeof(struct Dwarf_Hash_Table_s),BASE_ALLOC, 0, 0},   /* 37 */
242     /* 38 DW_DLA_HASH_TABLE */
243 
244 /* The following really use Global struct: used to be unique struct
245    per type, but now merged (11/99).  The opaque types
246    are visible in the interface. The types  for
247    DW_DLA_FUNC,
248    DW_DLA_TYPENAME, DW_DLA_VAR, DW_DLA_WEAK also use
249    the global types.
250 
251 */
252     {27, sizeof(struct Dwarf_Global_Context_s), BASE_ALLOC, 0, 0},
253     /* 39 DW_DLA_FUNC_CONTEXT */
254     {28, sizeof(struct Dwarf_Global_Context_s), BASE_ALLOC, 0, 0},
255     /* 40 DW_DLA_TYPENAME_CONTEXT */
256     {29, sizeof(struct Dwarf_Global_Context_s), BASE_ALLOC, 0, 0},
257     /* 41 DW_DLA_VAR_CONTEXT */
258     {30, sizeof(struct Dwarf_Global_Context_s), BASE_ALLOC, 0, 0},
259     /* 42 DW_DLA_WEAK_CONTEXT */
260     {31, sizeof(struct Dwarf_Global_Context_s), BASE_ALLOC, 0, 0},
261     /* 43 DW_DLA_PUBTYPES_CONTEXT DWARF3 */
262 
263     {0,1,1,0,0 },
264     /* 44 DW_DLA_HASH_TABLE_ENTRY */
265 
266 
267 };
268 
269 #ifndef DWARF_SIMPLE_MALLOC
270 
271 /*
272     This function is given a pointer to the header
273     structure that is used to allocate 1 struct of
274     the type given by alloc_type.  It first checks
275     if a struct is available in its free list.  If
276     not, it checks if 1 is available in its blob,
277     which is a chunk of memory that is reserved for
278     its use.  If not, it malloc's a chunk.  The
279     initial part of it is used to store the end
280     address of the chunk, and also to keep track
281     of the number of free structs in that chunk.
282     This information is used for freeing the chunk
283     when all the structs in it are free.
284 
285     Assume all input arguments have been validated.
286 
287     This function can be used only to allocate 1
288     struct of the given type.
289 
290     It returns a pointer to the struct that the
291     user can use.  It returns NULL only when it
292     is out of free structs, and cannot malloc
293     any more.  The struct returned is zero-ed.
294 
295     A pointer to the chunk that the struct belongs
296     to is stored in the bytes preceding the
297     returned address.  Since this pointer it
298     never overwritten, when a struct is allocated
299     from the free_list this pointer does not
300     have to be written.  In the 2 other cases,
301     where the struct is allocated from a new
302     chunk, or the blob, a pointer to the chunk
303     is written.
304 */
305 static Dwarf_Ptr
306 _dwarf_find_memory(Dwarf_Alloc_Hdr alloc_hdr)
307 {
308     /* Pointer to the struct allocated. */
309     Dwarf_Small *ret_mem = 0;
310 
311     /* Pointer to info about chunks allocated. */
312     Dwarf_Alloc_Area alloc_area;
313 
314     /* Size of chunk malloc'ed when no free structs left. */
315     Dwarf_Signed mem_block_size;
316 
317     /* Pointer to block malloc'ed. */
318     Dwarf_Small *mem_block;
319 
320     /*
321        Check the alloc_area from which the last allocation was made
322        (most recent new block). If that is not successful, then search
323        the list of alloc_area's from alloc_header. */
324     alloc_area = alloc_hdr->ah_last_alloc_area;
325     if (alloc_area == NULL || alloc_area->aa_free_structs_in_chunk == 0)
326         for (alloc_area = alloc_hdr->ah_alloc_area_head;
327              alloc_area != NULL; alloc_area = alloc_area->aa_next) {
328 
329             if (alloc_area->aa_free_structs_in_chunk > 0) {
330                 break;          /* found a free entry! */
331             }
332 
333         }
334 
335     if (alloc_area != NULL) {
336         alloc_area->aa_free_structs_in_chunk--;
337 
338         if (alloc_area->aa_free_list != NULL) {
339             ret_mem = alloc_area->aa_free_list;
340 
341             /*
342                Update the free list.  The initial part of the struct is
343                used to hold a pointer to the next struct on the free
344                list.  In this way, the free list chain is maintained at
345                0 memory cost. */
346             alloc_area->aa_free_list =
347                 ((Dwarf_Free_List) ret_mem)->fl_next;
348         } else if (alloc_area->aa_blob_start < alloc_area->aa_blob_end) {
349             ret_mem = alloc_area->aa_blob_start;
350 
351             /*
352                Store pointer to chunk this struct belongs to in the
353                first few bytes.  Return pointer to bytes after this
354                pointer storage. */
355             *(Dwarf_Alloc_Area *) ret_mem = alloc_area;
356             ret_mem += DW_RESERVE;
357 
358             alloc_area->aa_blob_start += alloc_hdr->ah_bytes_one_struct;
359         } else {
360             /* else fall thru , though it should be impossible to fall
361                thru. And represents a disastrous programming error if
362                we get here. */
363 #ifdef DEBUG
364             fprintf(stderr, "libdwarf Internal error start %x end %x\n",
365                     (int) alloc_area->aa_blob_start,
366                     (int) alloc_area->aa_blob_end);
367 #endif
368         }
369     }
370 
371     /* New memory has to malloc'ed since there are no free structs. */
372     if (ret_mem == 0) {
373         Dwarf_Word rounded_area_hdr_size;
374 
375         alloc_hdr->ah_chunks_allocated++;
376 
377         {                       /* this nonsense avoids a warning */
378             /* CONSTCOND would be better */
379             unsigned long v = sizeof(struct Dwarf_Alloc_Area_s);
380 
381             rounded_area_hdr_size = ROUND_SIZE(v);
382         }
383 
384         /*
385            Allocate memory to contain the required number of structs
386            and the Dwarf_Alloc_Area_s to control it. */
387         mem_block_size = alloc_hdr->ah_bytes_malloc_per_chunk +
388             rounded_area_hdr_size;
389 
390         mem_block = malloc(mem_block_size);
391         if (mem_block == NULL) {
392             return (NULL);
393         }
394 
395 
396         /*
397            Attach the Dwarf_Alloc_Area_s struct to the list of chunks
398            malloc'ed for this struct type. Also initialize the fields
399            of the Dwarf_Alloc_Area_s. */
400         alloc_area = (Dwarf_Alloc_Area) mem_block;
401         alloc_area->aa_prev = 0;
402         if (alloc_hdr->ah_alloc_area_head != NULL) {
403             alloc_hdr->ah_alloc_area_head->aa_prev = alloc_area;
404         }
405         alloc_area->aa_free_list = 0;
406         alloc_area->aa_next = alloc_hdr->ah_alloc_area_head;
407         alloc_hdr->ah_alloc_area_head = alloc_area;
408 
409         alloc_area->aa_alloc_hdr = alloc_hdr;
410         alloc_area->aa_free_structs_in_chunk =
411             (Dwarf_Sword) alloc_hdr->ah_structs_per_chunk - 1;
412         if (alloc_area->aa_free_structs_in_chunk < 1) {
413             /* If we get here, there is a disastrous programming error
414                somewhere. */
415 #ifdef DEBUG
416             fprintf(stderr,
417                     "libdwarf Internal error: free structs in chunk %d\n",
418                     (int) alloc_area->aa_free_structs_in_chunk);
419 #endif
420             return NULL;
421         }
422 
423         /*
424            The struct returned begins immediately after the
425            Dwarf_Alloc_Area_s struct. */
426         ret_mem = mem_block + rounded_area_hdr_size;
427         alloc_area->aa_blob_start =
428             ret_mem + alloc_hdr->ah_bytes_one_struct;
429         alloc_area->aa_blob_end = mem_block + mem_block_size;
430 
431         /*
432            Store pointer to chunk this struct belongs to in the first
433            few bytes.  Return pointer to bytes after this pointer
434            storage. */
435         *(Dwarf_Alloc_Area *) ret_mem = alloc_area;
436         ret_mem += DW_RESERVE;
437     }
438 
439     alloc_hdr->ah_last_alloc_area = alloc_area;
440     alloc_hdr->ah_struct_user_holds++;
441     memset(ret_mem, 0, alloc_hdr->ah_bytes_one_struct - DW_RESERVE);
442     return (ret_mem);
443 }
444 
445 #endif /* ndef DWARF_SIMPLE_MALLOC */
446 
447 /*
448     This function returns a pointer to a region
449     of memory.  For alloc_types that are not
450     strings or lists of pointers, only 1 struct
451     can be requested at a time.  This is indicated
452     by an input count of 1.  For strings, count
453     equals the length of the string it will
454     contain, i.e it the length of the string
455     plus 1 for the terminating null.  For lists
456     of pointers, count is equal to the number of
457     pointers.  For DW_DLA_FRAME_BLOCK, DW_DLA_RANGES, and
458     DW_DLA_LOC_BLOCK allocation types also, count
459     is the count of the number of structs needed.
460 
461     This function cannot be used to allocate a
462     Dwarf_Debug_s struct.
463 
464 */
465 Dwarf_Ptr
466 _dwarf_get_alloc(Dwarf_Debug dbg,
467                  Dwarf_Small alloc_type, Dwarf_Unsigned count)
468 {
469     Dwarf_Alloc_Hdr alloc_hdr;
470 
471     Dwarf_Ptr ret_mem;
472 
473     Dwarf_Signed size = 0;
474     unsigned int index;
475     unsigned int type = alloc_type;
476 
477     if (dbg == NULL) {
478         return (NULL);
479     }
480 
481     if (type >= ALLOC_AREA_INDEX_TABLE_MAX) {
482         /* internal error */
483         return NULL;
484     }
485     index = index_into_allocated[type].ia_al_num;
486     /* zero also illegal but not tested for */
487 
488     /* If the Dwarf_Debug is not fully set up, we will get index 0 for
489        any type and must do something.  'Not fully set up' can only
490        happen for DW_DLA_ERROR, I (davea) believe, and for that we call
491        special code here.. */
492 
493     if (index == 0) {
494         if (alloc_type == DW_DLA_STRING) {
495             size = count;
496         } else if (alloc_type == DW_DLA_LIST) {
497             size = count * sizeof(Dwarf_Ptr);
498         } else if (alloc_type == DW_DLA_FRAME_BLOCK) {
499             size = count * sizeof(Dwarf_Frame_Op);
500         } else if (alloc_type == DW_DLA_LOC_BLOCK) {
501             size = count * sizeof(Dwarf_Loc);
502         } else if (alloc_type == DW_DLA_HASH_TABLE_ENTRY) {
503             size = count * sizeof(struct Dwarf_Hash_Table_Entry_s);
504         } else if (alloc_type == DW_DLA_ADDR) {
505             size = count *
506                 (sizeof(Dwarf_Addr) > sizeof(Dwarf_Off) ?
507                  sizeof(Dwarf_Addr) : sizeof(Dwarf_Off));
508         } else if (alloc_type == DW_DLA_RANGES) {
509             size = count * sizeof(Dwarf_Ranges);
510         } else if (alloc_type == DW_DLA_ERROR) {
511             void *m = _dwarf_special_no_dbg_error_malloc();
512 
513             dwarf_malloc_check_alloc_data(m, DW_DLA_ERROR);
514             return m;
515 
516         } else {
517             /* If we get here, there is a disastrous programming error
518                somewhere. */
519 #ifdef DEBUG
520             fprintf(stderr,
521                     "libdwarf Internal error: type %d  unexpected\n",
522                     (int) type);
523 #endif
524         }
525     } else {
526         alloc_hdr = &dbg->de_alloc_hdr[index];
527         if (alloc_hdr->ah_bytes_one_struct > 0) {
528 #ifdef DWARF_SIMPLE_MALLOC
529             size = alloc_hdr->ah_bytes_one_struct;
530 #else
531             {
532                 void *m = _dwarf_find_memory(alloc_hdr);
533 
534                 dwarf_malloc_check_alloc_data(m, type);
535                 if (index_into_allocated[type].specialconstructor) {
536                     int res =
537                         index_into_allocated[type].
538                         specialconstructor(dbg, m);
539                     if (res != DW_DLV_OK) {
540                         /* We leak what we allocated in
541                            _dwarf_find_memory when constructor fails. */
542                         return NULL;
543                     }
544                 }
545                 return m;
546             }
547 #endif
548 
549         } else {
550             /* Special case: should not really happen at all. */
551             if (type == DW_DLA_ERROR) {
552                 /* dwarf_init failure. Because dbg is incomplete we
553                    won't use it to record the malloc. */
554                 void *m = _dwarf_special_no_dbg_error_malloc();
555 
556                 dwarf_malloc_check_alloc_data(m, DW_DLA_ERROR);
557                 return m;
558             } else {
559                 /* If we get here, there is a disastrous programming
560                    error somewhere. */
561 #ifdef DWARF_SIMPLE_MALLOC
562                 _dwarf_simple_malloc_botch(3);
563 #endif
564 #ifdef DEBUG
565                 fprintf(stderr,
566                         "libdwarf Internal error: Type %d  unexpected\n",
567                         (int) type);
568 #endif
569             }
570         }
571     }
572 
573     ret_mem = malloc(size);
574 #ifdef DWARF_SIMPLE_MALLOC
575     _dwarf_simple_malloc_add_to_list(dbg, ret_mem, (unsigned long) size,
576                                      type);
577 #endif
578     if (ret_mem != NULL)
579         memset(ret_mem, 0, size);
580 
581     dwarf_malloc_check_alloc_data(ret_mem, type);
582     if (index_into_allocated[type].specialconstructor) {
583         int res =
584             index_into_allocated[type].specialconstructor(dbg, ret_mem);
585         if (res != DW_DLV_OK) {
586             /* We leak what we allocated in _dwarf_find_memory when
587                constructor fails. */
588             return NULL;
589         }
590     }
591 
592     return (ret_mem);
593 }
594 
595 
596 
597 /*
598     This function is used to deallocate a region of memory
599     that was obtained by a call to _dwarf_get_alloc.  Note
600     that though dwarf_dealloc() is a public function,
601     _dwarf_get_alloc() isn't.
602 
603     For lists, typically arrays of pointers, it is assumed
604     that the space was allocated by a direct call to malloc,
605     and so a straight free() is done.  This is also the case
606     for variable length blocks such as DW_DLA_FRAME_BLOCK
607     and DW_DLA_LOC_BLOCK and DW_DLA_RANGES.
608 
609     For strings, the pointer might point to a string in
610     .debug_info or .debug_string.  After this is checked,
611     and if found not to be the case, a free() is done,
612     again on the assumption that a malloc was used to
613     obtain the space.
614 
615     For other types of structs, a pointer to the chunk that
616     the struct was allocated out of, is present in the bytes
617     preceding the pointer passed in.  For this chunk it is
618     checked whether all the structs in that chunk are now free.
619     If so, the entire chunk is free_ed.  Otherwise, the space
620     is added to the free list for that chunk, and the free count
621     incremented.
622 
623     This function does not return anything.
624 */
625 void
626 dwarf_dealloc(Dwarf_Debug dbg,
627               Dwarf_Ptr space, Dwarf_Unsigned alloc_type)
628 {
629     Dwarf_Alloc_Hdr alloc_hdr;
630     Dwarf_Alloc_Area alloc_area;
631     unsigned int type = alloc_type;
632     unsigned int index;
633 
634     if (space == NULL) {
635         return;
636     }
637     if (type == DW_DLA_ERROR) {
638         /* Get pointer to Dwarf_Alloc_Area this struct came from. See
639            dwarf_alloc.h ROUND_SIZE_WITH_POINTER stuff */
640         alloc_area =
641             *(Dwarf_Alloc_Area *) ((char *) space - DW_RESERVE);
642         if (alloc_area == 0) {
643             /* This is the special case of a failed dwarf_init(). Also
644                (and more signficantly) there are a variety of other
645                situations where libdwarf does not *know* what dbg is
646                involved (because of a libdwarf-caller-error) so
647                libdwarf uses NULL as the dbg. Those too wind up here. */
648             _dwarf_free_special_error(space);
649             dwarf_malloc_check_dealloc_data(space, type);
650             return;
651         }
652 
653     }
654     if (dbg == NULL) {
655         /* App error, or an app that failed to succeed in a
656            dwarf_init() call. */
657         return;
658     }
659     if (type >= ALLOC_AREA_INDEX_TABLE_MAX) {
660         /* internal or user app error */
661         return;
662     }
663 
664     index = index_into_allocated[type].ia_al_num;
665     /*
666        A string pointer may point into .debug_info or .debug_string.
667        Otherwise, they are directly malloc'ed. */
668     dwarf_malloc_check_dealloc_data(space, type);
669     if (index == 0) {
670         if (type == DW_DLA_STRING) {
671             if ((Dwarf_Small *) space >= dbg->de_debug_info.dss_data &&
672                 (Dwarf_Small *) space <
673                 dbg->de_debug_info.dss_data + dbg->de_debug_info.dss_size)
674                 return;
675 
676             if (dbg->de_debug_line.dss_data != NULL &&
677                 (Dwarf_Small *) space >= dbg->de_debug_line.dss_data &&
678                 (Dwarf_Small *) space <
679                 dbg->de_debug_line.dss_data + dbg->de_debug_line.dss_size)
680                 return;
681 
682             if (dbg->de_debug_pubnames.dss_data != NULL &&
683                 (Dwarf_Small *) space >= dbg->de_debug_pubnames.dss_data &&
684                 (Dwarf_Small *) space <
685                 dbg->de_debug_pubnames.dss_data +
686                 dbg->de_debug_pubnames.dss_size)
687                 return;
688 
689             if (dbg->de_debug_frame.dss_data != NULL &&
690                 (Dwarf_Small *) space >= dbg->de_debug_frame.dss_data &&
691                 (Dwarf_Small *) space <
692                 dbg->de_debug_frame.dss_data + dbg->de_debug_frame.dss_size)
693                 return;
694 
695             if (dbg->de_debug_str.dss_data != NULL &&
696                 (Dwarf_Small *) space >= dbg->de_debug_str.dss_data &&
697                 (Dwarf_Small *) space <
698                 dbg->de_debug_str.dss_data + dbg->de_debug_str.dss_size)
699                 return;
700 
701             if (dbg->de_debug_funcnames.dss_data != NULL &&
702                 (Dwarf_Small *) space >= dbg->de_debug_funcnames.dss_data &&
703                 (Dwarf_Small *) space <
704                 dbg->de_debug_funcnames.dss_data +
705                 dbg->de_debug_funcnames.dss_size)
706                 return;
707 
708             if (dbg->de_debug_typenames.dss_data != NULL &&
709                 (Dwarf_Small *) space >= dbg->de_debug_typenames.dss_data &&
710                 (Dwarf_Small *) space <
711                 dbg->de_debug_typenames.dss_data +
712                 dbg->de_debug_typenames.dss_size)
713                 return;
714             if (dbg->de_debug_pubtypes.dss_data != NULL &&
715                 (Dwarf_Small *) space >= dbg->de_debug_pubtypes.dss_data &&
716                 (Dwarf_Small *) space <
717                     dbg->de_debug_pubtypes.dss_data +
718                     dbg->de_debug_pubtypes.dss_size)
719                 return;
720 
721             if (dbg->de_debug_varnames.dss_data != NULL &&
722                 (Dwarf_Small *) space >= dbg->de_debug_varnames.dss_data &&
723                 (Dwarf_Small *) space <
724                 dbg->de_debug_varnames.dss_data +
725                 dbg->de_debug_varnames.dss_size)
726                 return;
727 
728             if (dbg->de_debug_weaknames.dss_data != NULL &&
729                 (Dwarf_Small *) space >= dbg->de_debug_weaknames.dss_data &&
730                 (Dwarf_Small *) space <
731                 dbg->de_debug_weaknames.dss_data +
732                 dbg->de_debug_weaknames.dss_size)
733                 return;
734 
735 #ifdef DWARF_SIMPLE_MALLOC
736             _dwarf_simple_malloc_delete_from_list(dbg, space, type);
737 #endif
738             free(space);
739             return;
740         }
741 
742         if (type == DW_DLA_LIST ||
743             type == DW_DLA_FRAME_BLOCK ||
744             type == DW_DLA_LOC_BLOCK || type == DW_DLA_ADDR ||
745             type == DW_DLA_RANGES ||
746             type == DW_DLA_HASH_TABLE_ENTRY) {
747 
748 #ifdef DWARF_SIMPLE_MALLOC
749             _dwarf_simple_malloc_delete_from_list(dbg, space, type);
750 #endif
751             free(space);
752             return;
753         }
754         /* else is an alloc type that is not used */
755         /* app or internal error */
756 #ifdef DWARF_SIMPLE_MALLOC
757         _dwarf_simple_malloc_botch(4);
758 #endif
759         return;
760 
761     }
762     if (index_into_allocated[type].specialdestructor) {
763         index_into_allocated[type].specialdestructor(space);
764     }
765 #ifdef DWARF_SIMPLE_MALLOC
766     _dwarf_simple_malloc_delete_from_list(dbg, space, type);
767     free(space);
768 #else /* !DWARF_SIMPLE_MALLOC */
769     alloc_hdr = &dbg->de_alloc_hdr[index];
770 
771     /* Get pointer to Dwarf_Alloc_Area this struct came from. See
772        dwarf_alloc.h ROUND_SIZE_WITH_POINTER stuff */
773     alloc_area = *(Dwarf_Alloc_Area *) ((char *) space - DW_RESERVE);
774 
775     /* ASSERT: alloc_area != NULL If NULL we could abort, let it
776        coredump below, or return, pretending all is well. We go on,
777        letting program crash. Is caller error. */
778 
779     /*
780        Check that the alloc_hdr field of the alloc_area we have is
781        pointing to the right alloc_hdr.  This is used to catch use of
782        incorrect deallocation code by the user. */
783     if (alloc_area->aa_alloc_hdr != alloc_hdr) {
784         /* If we get here, the user has called dwarf_dealloc wrongly or
785            there is some other disastrous error. By leaking mem here we
786            try to be safe... */
787 #ifdef DEBUG
788         fprintf(stderr,
789                 "libdwarf Internal error: type %d hdr mismatch %lx %lx "
790                 "area ptr %lx\n",
791                 (int) type,
792                 (long) alloc_area->aa_alloc_hdr,
793                 (long) alloc_hdr, (long) alloc_area);
794 #endif
795         return;
796     }
797 
798     alloc_hdr->ah_struct_user_holds--;
799     alloc_area->aa_free_structs_in_chunk++;
800 
801     /*
802        Give chunk back to malloc only when every struct is freed */
803     if (alloc_area->aa_free_structs_in_chunk ==
804         alloc_hdr->ah_structs_per_chunk) {
805         if (alloc_area->aa_prev != NULL) {
806             alloc_area->aa_prev->aa_next = alloc_area->aa_next;
807         } else {
808             alloc_hdr->ah_alloc_area_head = alloc_area->aa_next;
809         }
810 
811         if (alloc_area->aa_next != NULL) {
812             alloc_area->aa_next->aa_prev = alloc_area->aa_prev;
813         }
814 
815         alloc_hdr->ah_chunks_allocated--;
816 
817         if (alloc_area == alloc_hdr->ah_last_alloc_area) {
818             alloc_hdr->ah_last_alloc_area = NULL;
819         }
820         memset(alloc_area, 0, sizeof(*alloc_area));
821         free(alloc_area);
822     }
823 
824     else {
825         ((Dwarf_Free_List) space)->fl_next = alloc_area->aa_free_list;
826         alloc_area->aa_free_list = space;
827     }
828 #endif /* !DWARF_SIMPLE_MALLOC */
829 }
830 
831 
832 /*
833     Allocates space for a Dwarf_Debug_s struct,
834     since one does not exist.
835 */
836 Dwarf_Debug
837 _dwarf_get_debug(void
838     )
839 {
840     Dwarf_Debug dbg;
841 
842     dbg = (Dwarf_Debug) malloc(sizeof(struct Dwarf_Debug_s));
843     if (dbg == NULL)
844         return (NULL);
845     else
846         memset(dbg, 0, sizeof(struct Dwarf_Debug_s));
847     return (dbg);
848 }
849 
850 
851 /*
852     Sets up the Dwarf_Debug_s struct for all the
853     allocation types currently defined.
854     Allocation types DW_DLA_STRING, DW_DLA_LIST,
855     DW_DLA_FRAME_BLOCK, DW_DLA_LOC_BLOCK, DW_DLA_RANGES are
856     malloc'ed directly.
857 
858     This routine should be called after _dwarf_setup(),
859     so that information about the sizes of the Dwarf
860     sections can be used to decide the number of
861     structs of each type malloc'ed.
862 
863     Also DW_DLA_ELLIST, DW_DLA_BOUNDS, DW_DLA_TYPE,
864     DW_DLA_SUBSCR, DW_DLA_LINEBUF allocation types
865     are currently not used.
866     The ah_bytes_one_struct and ah_structs_per_chunk fields for
867     these types have been set to 1 for efficiency
868     in dwarf_get_alloc().
869 
870     Ah_alloc_num should be greater than 1 for all
871     types that are currently being used.
872 
873     Therefore, for these allocation types the
874     ah_bytes_one_struct, and ah_structs_per_chunk fields do not
875     need to be initialized.
876 
877     Being an internal routine, assume proper dbg.
878 */
879 
880 Dwarf_Debug
881 _dwarf_setup_debug(Dwarf_Debug dbg)
882 {
883     int i;
884 
885     for (i = 1; i <= MAX_DW_DLA; i++) {
886         const struct ial_s *ialp = &index_into_allocated[i];
887         unsigned int hdr_index = ialp->ia_al_num;
888         Dwarf_Word str_size = ialp->ia_struct_size;
889         Dwarf_Word str_count = ialp->ia_base_count;
890         Dwarf_Word rnded_size = ROUND_SIZE_WITH_POINTER(str_size);
891 
892         Dwarf_Alloc_Hdr alloc_hdr = &dbg->de_alloc_hdr[hdr_index];
893 
894         alloc_hdr->ah_bytes_one_struct = (Dwarf_Half) rnded_size;
895 
896         /* ah_structs_per_chunk must be >0 else we are in trouble */
897         alloc_hdr->ah_structs_per_chunk = str_count;
898         alloc_hdr->ah_bytes_malloc_per_chunk = rnded_size * str_count;
899     }
900     return (dbg);
901 }
902 
903 /*
904     This function prints out the statistics
905     collected on allocation of memory chunks.
906 */
907 void
908 dwarf_print_memory_stats(Dwarf_Debug dbg)
909 {
910     Dwarf_Alloc_Hdr alloc_hdr;
911     Dwarf_Shalf i;
912 
913     /*
914        Alloc types start at 1, not 0. Hence, the first NULL string, and
915        also a size of MAX_DW_DLA + 1. */
916     char *alloc_type_name[MAX_DW_DLA + 1] = {
917         "",
918         "DW_DLA_STRING",
919         "DW_DLA_LOC",
920         "DW_DLA_LOCDESC",
921         "DW_DLA_ELLIST",
922         "DW_DLA_BOUNDS",
923         "DW_DLA_BLOCK",
924         "DW_DLA_DEBUG",
925         "DW_DLA_DIE",
926         "DW_DLA_LINE",
927         "DW_DLA_ATTR",
928         "DW_DLA_TYPE",
929         "DW_DLA_SUBSCR",
930         "DW_DLA_GLOBAL",
931         "DW_DLA_ERROR",
932         "DW_DLA_LIST",
933         "DW_DLA_LINEBUF",
934         "DW_DLA_ARANGE",
935         "DW_DLA_ABBREV",
936         "DW_DLA_FRAME_OP",
937         "DW_DLA_CIE",
938         "DW_DLA_FDE",
939         "DW_DLA_LOC_BLOCK",
940         "DW_DLA_FRAME_BLOCK",
941         "DW_DLA_FUNC",
942         "DW_DLA_TYPENAME",
943         "DW_DLA_VAR",
944         "DW_DLA_WEAK",
945         "DW_DLA_ADDR",
946         "DW_DLA_RANGES",
947         "DW_DLA_ABBREV_LIST",
948         "DW_DLA_CHAIN",
949         "DW_DLA_CU_CONTEXT",
950         "DW_DLA_FRAME",
951         "DW_DLA_GLOBAL_CONTEXT",
952         "DW_DLA_FILE_ENTRY",
953         "DW_DLA_LINE_CONTEXT",
954         "DW_DLA_LOC_CHAIN",
955         "DW_DLA_HASH_TABLE",
956         "DW_DLA_FUNC_CONTEXT",
957         "DW_DLA_TYPENAME_CONTEXT",
958         "DW_DLA_VAR_CONTEXT",
959         "DW_DLA_WEAK_CONTEXT",
960         "DW_DLA_PUBTYPES_CONTEXT",
961         "DW_DLA_HASH_TABLE_ENTRY",
962     };
963 
964     if (dbg == NULL)
965         return;
966 
967     printf("Size of Dwarf_Debug        %4ld bytes\n",
968            (long) sizeof(*dbg));
969     printf("Size of Dwarf_Alloc_Hdr_s  %4ld bytes\n",
970            (long) sizeof(struct Dwarf_Alloc_Hdr_s));
971     printf("size of Dwarf_Alloc_Area_s %4ld bytes\n",
972            (long) sizeof(struct Dwarf_Alloc_Area_s));
973 
974     printf("   Alloc Type                   Curr  Structs byt   str\n");
975     printf("   ----------                   ----  ------- per   per\n");
976     for (i = 1; i <= MAX_DW_DLA; i++) {
977         int indx = index_into_allocated[i].ia_al_num;
978 
979         alloc_hdr = &dbg->de_alloc_hdr[indx];
980         if (alloc_hdr->ah_bytes_one_struct != 1) {
981             printf("%2d %-25s   %6d %8d %6d %6d\n",
982                    (int) i,
983                    alloc_type_name[i],
984                    (int) alloc_hdr->ah_chunks_allocated,
985                    (int) alloc_hdr->ah_struct_user_holds,
986                    (int) alloc_hdr->ah_bytes_malloc_per_chunk,
987                    (int) alloc_hdr->ah_structs_per_chunk);
988         }
989     }
990 }
991 
992 
993 #ifndef DWARF_SIMPLE_MALLOC
994 /*
995     This recursively frees
996     the chunks still allocated, and
997     forward chained through the aa_next
998     pointer.
999 */
1000 static void
1001 _dwarf_recursive_free(Dwarf_Alloc_Area alloc_area)
1002 {
1003     if (alloc_area->aa_next != NULL) {
1004         _dwarf_recursive_free(alloc_area->aa_next);
1005     }
1006 
1007     alloc_area->aa_next = 0;
1008     alloc_area->aa_prev = 0;
1009     free(alloc_area);
1010 }
1011 #endif
1012 
1013 /* In the 'rela' relocation case we might have malloc'd
1014    space to ensure it is read-write. In that case, free the space.  */
1015 static void
1016 rela_free(struct Dwarf_Section_s * sec)
1017 {
1018     if (sec->dss_data_was_malloc) {
1019         free(sec->dss_data);
1020     }
1021     sec->dss_data = 0;
1022     sec->dss_data_was_malloc = 0;
1023 }
1024 
1025 /*
1026     Used to free all space allocated for this Dwarf_Debug.
1027     The caller should assume that the Dwarf_Debug pointer
1028     itself is no longer valid upon return from this function.
1029 
1030     In case of difficulty, this function simply returns quietly.
1031 */
1032 int
1033 _dwarf_free_all_of_one_debug(Dwarf_Debug dbg)
1034 {
1035     Dwarf_Alloc_Hdr alloc_hdr;
1036     Dwarf_Shalf i;
1037     Dwarf_CU_Context context = 0;
1038     Dwarf_CU_Context nextcontext = 0;
1039 
1040     if (dbg == NULL)
1041         return (DW_DLV_ERROR);
1042 
1043     /* To do complete validation that we have no surprising missing or
1044        erroneous deallocs it is advisable to do the dwarf_deallocs here
1045        that are not things the user can otherwise request.
1046        Housecleaning.  */
1047 
1048     for (context = dbg->de_cu_context_list;
1049          context; context = nextcontext) {
1050         Dwarf_Hash_Table hash_table = context->cc_abbrev_hash_table;
1051         _dwarf_free_abbrev_hash_table_contents(dbg,hash_table);
1052         nextcontext = context->cc_next;
1053         dwarf_dealloc(dbg, hash_table, DW_DLA_HASH_TABLE);
1054         dwarf_dealloc(dbg, context, DW_DLA_CU_CONTEXT);
1055     }
1056 
1057     /* Housecleaning done. Now really free all the space. */
1058 #ifdef DWARF_SIMPLE_MALLOC
1059     if (dbg->de_simple_malloc_base) {
1060         struct simple_malloc_record_s *smp = dbg->de_simple_malloc_base;
1061 
1062         while (smp) {
1063             int i;
1064             struct simple_malloc_record_s *prev_smp = 0;
1065 
1066             for (i = 0; i < smp->sr_used; ++i) {
1067                 struct simple_malloc_entry_s *cur;
1068 
1069                 cur = &smp->sr_entry[i];
1070                 if (cur->se_addr != 0) {
1071                     free(cur->se_addr);
1072                     cur->se_addr = 0;
1073                 }
1074             }
1075             prev_smp = smp;
1076             smp = smp->sr_next;
1077             free(prev_smp);
1078         }
1079         dbg->de_simple_malloc_base = 0;
1080     }
1081 #else
1082     for (i = 1; i < ALLOC_AREA_REAL_TABLE_MAX; i++) {
1083         int indx = i;
1084 
1085         alloc_hdr = &dbg->de_alloc_hdr[indx];
1086         if (alloc_hdr->ah_alloc_area_head != NULL) {
1087             _dwarf_recursive_free(alloc_hdr->ah_alloc_area_head);
1088         }
1089     }
1090 
1091 #endif
1092     rela_free(&dbg->de_debug_info);
1093     rela_free(&dbg->de_debug_abbrev);
1094     rela_free(&dbg->de_debug_line);
1095     rela_free(&dbg->de_debug_loc);
1096     rela_free(&dbg->de_debug_aranges);
1097     rela_free(&dbg->de_debug_macinfo);
1098     rela_free(&dbg->de_debug_pubnames);
1099     rela_free(&dbg->de_debug_str);
1100     rela_free(&dbg->de_debug_frame);
1101     rela_free(&dbg->de_debug_frame_eh_gnu);
1102     rela_free(&dbg->de_debug_pubtypes);
1103     rela_free(&dbg->de_debug_funcnames);
1104     rela_free(&dbg->de_debug_typenames);
1105     rela_free(&dbg->de_debug_varnames);
1106     rela_free(&dbg->de_debug_weaknames);
1107     rela_free(&dbg->de_debug_ranges);
1108     dwarf_harmless_cleanout(&dbg->de_harmless_errors);
1109 
1110     memset(dbg, 0, sizeof(*dbg)); /* Prevent accidental use later. */
1111     free(dbg);
1112     return (DW_DLV_OK);
1113 }
1114 
1115 /* A special case: we have no dbg, no alloc header etc.
1116    So create something out of thin air that we can recognize
1117    in dwarf_dealloc.
1118    Something with the prefix (prefix space hidden from caller).
1119 
1120    Only applies to DW_DLA_ERROR, making up an error record.
1121 */
1122 
1123 struct Dwarf_Error_s *
1124 _dwarf_special_no_dbg_error_malloc(void)
1125 {
1126     /* the union unused things are to guarantee proper alignment */
1127     union u {
1128         Dwarf_Alloc_Area ptr_not_used;
1129         struct Dwarf_Error_s base_not_used;
1130         char data_space[sizeof(struct Dwarf_Error_s) +
1131                         (DW_RESERVE * 2)];
1132     };
1133     char *mem;
1134 
1135     mem = malloc(sizeof(union u));
1136 
1137     if (mem == 0) {
1138         return 0;
1139 
1140     }
1141     memset(mem, 0, sizeof(union u));
1142     mem += DW_RESERVE;
1143     return (struct Dwarf_Error_s *) mem;
1144 }
1145 
1146 /* The free side of  _dwarf_special_no_dbg_error_malloc()
1147 */
1148 static void
1149 _dwarf_free_special_error(Dwarf_Ptr space)
1150 {
1151     char *mem = (char *) space;
1152 
1153     mem -= DW_RESERVE;
1154     free(mem);
1155 }
1156 
1157 
1158 #ifdef DWARF_SIMPLE_MALLOC
1159 /* here solely for planting a breakpoint. */
1160 /* ARGSUSED */
1161 void
1162 _dwarf_simple_malloc_botch(int err)
1163 {
1164        fprintf(stderr,"simple malloc botch %d\n",err);
1165 }
1166 static void
1167 _dwarf_simple_malloc_add_to_list(Dwarf_Debug dbg,
1168                                  Dwarf_Ptr addr,
1169                                  unsigned long size, short alloc_type)
1170 {
1171     struct simple_malloc_record_s *cur;
1172     struct simple_malloc_entry_s *newentry;
1173 
1174     if (!dbg->de_simple_malloc_base) {
1175         /* First entry to this routine. */
1176         dbg->de_simple_malloc_base =
1177             malloc(sizeof(struct simple_malloc_record_s));
1178         if (!dbg->de_simple_malloc_base) {
1179             _dwarf_simple_malloc_botch(7);
1180             return;             /* no memory, give up */
1181         }
1182         memset(dbg->de_simple_malloc_base,
1183                0, sizeof(struct simple_malloc_record_s));
1184     }
1185     cur = dbg->de_simple_malloc_base;
1186 
1187     if (cur->sr_used >= DSM_BLOCK_COUNT) {
1188         /* Better not be > than as that means chaos */
1189 
1190         /* Create a new block to link at the head. */
1191 
1192         struct simple_malloc_record_s *newblock =
1193             malloc(sizeof(struct simple_malloc_record_s));
1194         if (!newblock) {
1195             _dwarf_simple_malloc_botch(8);
1196             return;             /* Can do nothing, out of memory */
1197         }
1198         memset(newblock, 0, sizeof(struct simple_malloc_record_s));
1199         /* Link the new block at the head of the chain, and make it
1200            'current' */
1201         dbg->de_simple_malloc_base = newblock;
1202         newblock->sr_next = cur;
1203         cur = newblock;
1204     }
1205     newentry = &cur->sr_entry[cur->sr_used];
1206     newentry->se_addr = addr;
1207     newentry->se_size = size;
1208     newentry->se_type = alloc_type;
1209     ++cur->sr_used;
1210 }
1211 
1212 /*
1213    DWARF_SIMPLE_MALLOC: testing the hypothesis that the existing
1214    malloc scheme here (see _dwarf_get_alloc()) is pointless complexity.
1215 
1216    DWARF_SIMPLE_MALLOC also makes it easy for a malloc-tracing
1217    tool to verify libdwarf malloc has no botches (though of course
1218    such does not test the complicated standard-libdwarf-alloc code).
1219 
1220    To properly answer the question, the simple-malloc allocate
1221    and delete should be something other than a simple list.
1222    Perhaps a heap, or perhaps a red-black tree.
1223 
1224 */
1225 static void
1226 _dwarf_simple_malloc_delete_from_list(Dwarf_Debug dbg,
1227                                       Dwarf_Ptr space, short alloc_type)
1228 {
1229     if (space == 0) {
1230         _dwarf_simple_malloc_botch(6);
1231     }
1232     if (dbg->de_simple_malloc_base) {
1233         struct simple_malloc_record_s *smp = dbg->de_simple_malloc_base;
1234 
1235         while (smp) {
1236             int i;
1237 
1238             for (i = 0; i < smp->sr_used; ++i) {
1239                 struct simple_malloc_entry_s *cur;
1240 
1241                 cur = &smp->sr_entry[i];
1242                 if (cur->se_addr == space) {
1243                     if (cur->se_type != alloc_type) {
1244                         _dwarf_simple_malloc_botch(0);
1245                     }
1246                     cur->se_addr = 0;
1247                     return;
1248                 }
1249             }
1250             smp = smp->sr_next;
1251         }
1252     }
1253     /* Never found the space. */
1254     _dwarf_simple_malloc_botch(1);
1255     return;
1256 
1257 }
1258 #endif
1259