/src/binutils-gdb/libiberty/objalloc.c

Source (jump to first uncovered line)
/* objalloc.c -- routines to allocate memory for objects
   Copyright (C) 1997-2023 Free Software Foundation, Inc.
   Written by Ian Lance Taylor, Cygnus Solutions.

This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2, or (at your option) any
later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, 51 Franklin Street - Fifth Floor,
Boston, MA 02110-1301, USA.  */

#include "config.h"
#include "ansidecl.h"

#include "objalloc.h"

/* Get a definition for NULL.  */
#include <stdio.h>

#if VMS
#include <stdlib.h>
#include <unixlib.h>
#else

/* Get a definition for size_t.  */
#include <stddef.h>

#ifdef HAVE_STDLIB_H
#include <stdlib.h>
#else
/* For systems with larger pointers than ints, this must be declared.  */
extern void *malloc (size_t);
extern void free (void *);
#endif

#endif

/* These routines allocate space for an object.  Freeing allocated
   space may or may not free all more recently allocated space.

   We handle large and small allocation requests differently.  If we
   don't have enough space in the current block, and the allocation
   request is for more than 512 bytes, we simply pass it through to
   malloc.  */

/* The objalloc structure is defined in objalloc.h.  */

/* This structure appears at the start of each chunk.  */

struct objalloc_chunk
{
  /* Next chunk.  */
  struct objalloc_chunk *next;
  /* If this chunk contains large objects, this is the value of
     current_ptr when this chunk was allocated.  If this chunk
     contains small objects, this is NULL.  */
  char *current_ptr;
};

/* The aligned size of objalloc_chunk.  */

#define CHUNK_HEADER_SIZE         \
  ((sizeof (struct objalloc_chunk) + OBJALLOC_ALIGN - 1) \
   &~ (OBJALLOC_ALIGN - 1))

/* We ask for this much memory each time we create a chunk which is to
   hold small objects.  */

#define CHUNK_SIZE (4096 - 32)

/* A request for this amount or more is just passed through to malloc.  */

#define BIG_REQUEST (512)

/* Create an objalloc structure.  */

struct objalloc *
objalloc_create (void)
{
  struct objalloc *ret;
  struct objalloc_chunk *chunk;

  ret = (struct objalloc *) malloc (sizeof *ret);
  if (ret == NULL)
    return NULL;

  ret->chunks = (void *) malloc (CHUNK_SIZE);
  if (ret->chunks == NULL)
    {
      free (ret);
      return NULL;
    }

  chunk = (struct objalloc_chunk *) ret->chunks;
  chunk->next = NULL;
  chunk->current_ptr = NULL;

  ret->current_ptr = (char *) chunk + CHUNK_HEADER_SIZE;
  ret->current_space = CHUNK_SIZE - CHUNK_HEADER_SIZE;

  return ret;
}

/* Allocate space from an objalloc structure.  */

void *
_objalloc_alloc (struct objalloc *o, unsigned long original_len)
{
  unsigned long len = original_len;

  /* We avoid confusion from zero sized objects by always allocating
     at least 1 byte.  */
  if (len == 0)
    len = 1;

  len = (len + OBJALLOC_ALIGN - 1) &~ (OBJALLOC_ALIGN - 1);

  /* Check for overflow in the alignment operation above and the
     malloc argument below. */
  if (len + CHUNK_HEADER_SIZE < original_len)
    return NULL;

  if (len <= o->current_space)
    {
      o->current_ptr += len;
      o->current_space -= len;
      return (void *) (o->current_ptr - len);
    }

  if (len >= BIG_REQUEST)
    {
      char *ret;
      struct objalloc_chunk *chunk;

      ret = (char *) malloc (CHUNK_HEADER_SIZE + len);
      if (ret == NULL)
  return NULL;

      chunk = (struct objalloc_chunk *) ret;
      chunk->next = (struct objalloc_chunk *) o->chunks;
      chunk->current_ptr = o->current_ptr;

      o->chunks = (void *) chunk;

      return (void *) (ret + CHUNK_HEADER_SIZE);
    }
  else
    {
      struct objalloc_chunk *chunk;

      chunk = (struct objalloc_chunk *) malloc (CHUNK_SIZE);
      if (chunk == NULL)
  return NULL;
      chunk->next = (struct objalloc_chunk *) o->chunks;
      chunk->current_ptr = NULL;

      o->current_ptr = (char *) chunk + CHUNK_HEADER_SIZE;
      o->current_space = CHUNK_SIZE - CHUNK_HEADER_SIZE;

      o->chunks = (void *) chunk;

      return objalloc_alloc (o, len);
    }
}

/* Free an entire objalloc structure.  */

void
objalloc_free (struct objalloc *o)
{
  struct objalloc_chunk *l;

  l = (struct objalloc_chunk *) o->chunks;
  while (l != NULL)
    {
      struct objalloc_chunk *next;

      next = l->next;
      free (l);
      l = next;
    }

  free (o);
}

/* Free a block from an objalloc structure.  This also frees all more
   recently allocated blocks.  */

void
objalloc_free_block (struct objalloc *o, void *block)
{
  struct objalloc_chunk *p, *small;
  char *b = (char *) block;

  /* First set P to the chunk which contains the block we are freeing,
     and set Q to the last small object chunk we see before P.  */
  small = NULL;
  for (p = (struct objalloc_chunk *) o->chunks; p != NULL; p = p->next)
    {
      if (p->current_ptr == NULL)
  {
    if (b > (char *) p && b < (char *) p + CHUNK_SIZE)
      break;
    small = p;
  }
      else
  {
    if (b == (char *) p + CHUNK_HEADER_SIZE)
      break;
  }
    }

  /* If we can't find the chunk, the caller has made a mistake.  */
  if (p == NULL)
    abort ();

  if (p->current_ptr == NULL)
    {
      struct objalloc_chunk *q;
      struct objalloc_chunk *first;

      /* The block is in a chunk containing small objects.  We can
   free every chunk through SMALL, because they have certainly
   been allocated more recently.  After SMALL, we will not see
   any chunks containing small objects; we can free any big
   chunk if the current_ptr is greater than or equal to B.  We
   can then reset the new current_ptr to B.  */

      first = NULL;
      q = (struct objalloc_chunk *) o->chunks;
      while (q != p)
  {
    struct objalloc_chunk *next;

    next = q->next;
    if (small != NULL)
      {
        if (small == q)
    small = NULL;
        free (q);
      }
    else if (q->current_ptr > b)
      free (q);
    else if (first == NULL)
      first = q;

    q = next;
  }

      if (first == NULL)
  first = p;
      o->chunks = (void *) first;

      /* Now start allocating from this small block again.  */
      o->current_ptr = b;
      o->current_space = ((char *) p + CHUNK_SIZE) - b;
    }
  else
    {
      struct objalloc_chunk *q;
      char *current_ptr;

      /* This block is in a large chunk by itself.  We can free
         everything on the list up to and including this block.  We
         then start allocating from the next chunk containing small
         objects, setting current_ptr from the value stored with the
         large chunk we are freeing.  */

      current_ptr = p->current_ptr;
      p = p->next;

      q = (struct objalloc_chunk *) o->chunks;
      while (q != p)
  {
    struct objalloc_chunk *next;

    next = q->next;
    free (q);
    q = next;
  }

      o->chunks = (void *) p;

      while (p->current_ptr != NULL)
  p = p->next;

      o->current_ptr = current_ptr;
      o->current_space = ((char *) p + CHUNK_SIZE) - current_ptr;
    }
}

Coverage Report

Created: 2023-06-29 07:06

Line	Count	Source (jump to first uncovered line)
1		/* objalloc.c -- routines to allocate memory for objects
2		Copyright (C) 1997-2023 Free Software Foundation, Inc.
3		Written by Ian Lance Taylor, Cygnus Solutions.
4
5		This program is free software; you can redistribute it and/or modify it
6		under the terms of the GNU General Public License as published by the
7		Free Software Foundation; either version 2, or (at your option) any
8		later version.
9
10		This program is distributed in the hope that it will be useful,
11		but WITHOUT ANY WARRANTY; without even the implied warranty of
12		MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13		GNU General Public License for more details.
14
15		You should have received a copy of the GNU General Public License
16		along with this program; if not, write to the Free Software
17		Foundation, 51 Franklin Street - Fifth Floor,
18		Boston, MA 02110-1301, USA. */
19
20		#include "config.h"
21		#include "ansidecl.h"
22
23		#include "objalloc.h"
24
25		/* Get a definition for NULL. */
26		#include <stdio.h>
27
28		#if VMS
29		#include <stdlib.h>
30		#include <unixlib.h>
31		#else
32
33		/* Get a definition for size_t. */
34		#include <stddef.h>
35
36		#ifdef HAVE_STDLIB_H
37		#include <stdlib.h>
38		#else
39		/* For systems with larger pointers than ints, this must be declared. */
40		extern void *malloc (size_t);
41		extern void free (void *);
42		#endif
43
44		#endif
45
46		/* These routines allocate space for an object. Freeing allocated
47		space may or may not free all more recently allocated space.
48
49		We handle large and small allocation requests differently. If we
50		don't have enough space in the current block, and the allocation
51		request is for more than 512 bytes, we simply pass it through to
52		malloc. */
53
54		/* The objalloc structure is defined in objalloc.h. */
55
56		/* This structure appears at the start of each chunk. */
57
58		struct objalloc_chunk
59		{
60		/* Next chunk. */
61		struct objalloc_chunk *next;
62		/* If this chunk contains large objects, this is the value of
63		current_ptr when this chunk was allocated. If this chunk
64		contains small objects, this is NULL. */
65		char *current_ptr;
66		};
67
68		/* The aligned size of objalloc_chunk. */
69
70		#define CHUNK_HEADER_SIZE \
71	4.24M	((sizeof (struct objalloc_chunk) + OBJALLOC_ALIGN - 1) \
72	4.24M	&~ (OBJALLOC_ALIGN - 1))
73
74		/* We ask for this much memory each time we create a chunk which is to
75		hold small objects. */
76
77	24.7M	#define CHUNK_SIZE (4096 - 32)
78
79		/* A request for this amount or more is just passed through to malloc. */
80
81	1.17M	#define BIG_REQUEST (512)
82
83		/* Create an objalloc structure. */
84
85		struct objalloc *
86		objalloc_create (void)
87	110k	{
88	110k	struct objalloc *ret;
89	110k	struct objalloc_chunk *chunk;
90
91	110k	ret = (struct objalloc ) malloc (sizeof ret);
92	110k	if (ret == NULL)
93	0	return NULL;
94
95	110k	ret->chunks = (void *) malloc (CHUNK_SIZE);
96	110k	if (ret->chunks == NULL)
97	0	{
98	0	free (ret);
99	0	return NULL;
100	0	}
101
102	110k	chunk = (struct objalloc_chunk *) ret->chunks;
103	110k	chunk->next = NULL;
104	110k	chunk->current_ptr = NULL;
105
106	110k	ret->current_ptr = (char *) chunk + CHUNK_HEADER_SIZE;
107	110k	ret->current_space = CHUNK_SIZE - CHUNK_HEADER_SIZE;
108
109	110k	return ret;
110	110k	}
111
112		/* Allocate space from an objalloc structure. */
113
114		void *
115		_objalloc_alloc (struct objalloc *o, unsigned long original_len)
116	1.17M	{
117	1.17M	unsigned long len = original_len;
118
119		/* We avoid confusion from zero sized objects by always allocating
120		at least 1 byte. */
121	1.17M	if (len == 0)
122	0	len = 1;
123
124	1.17M	len = (len + OBJALLOC_ALIGN - 1) &~ (OBJALLOC_ALIGN - 1);
125
126		/* Check for overflow in the alignment operation above and the
127		malloc argument below. */
128	1.17M	if (len + CHUNK_HEADER_SIZE < original_len)
129	0	return NULL;
130
131	1.17M	if (len <= o->current_space)
132	0	{
133	0	o->current_ptr += len;
134	0	o->current_space -= len;
135	0	return (void *) (o->current_ptr - len);
136	0	}
137
138	1.17M	if (len >= BIG_REQUEST)
139	349k	{
140	349k	char *ret;
141	349k	struct objalloc_chunk *chunk;
142
143	349k	ret = (char *) malloc (CHUNK_HEADER_SIZE + len);
144	349k	if (ret == NULL)
145	0	return NULL;
146
147	349k	chunk = (struct objalloc_chunk *) ret;
148	349k	chunk->next = (struct objalloc_chunk *) o->chunks;
149	349k	chunk->current_ptr = o->current_ptr;
150
151	349k	o->chunks = (void *) chunk;
152
153	349k	return (void *) (ret + CHUNK_HEADER_SIZE);
154	349k	}
155	823k	else
156	823k	{
157	823k	struct objalloc_chunk *chunk;
158
159	823k	chunk = (struct objalloc_chunk *) malloc (CHUNK_SIZE);
160	823k	if (chunk == NULL)
161	0	return NULL;
162	823k	chunk->next = (struct objalloc_chunk *) o->chunks;
163	823k	chunk->current_ptr = NULL;
164
165	823k	o->current_ptr = (char *) chunk + CHUNK_HEADER_SIZE;
166	823k	o->current_space = CHUNK_SIZE - CHUNK_HEADER_SIZE;
167
168	823k	o->chunks = (void *) chunk;
169
170	823k	return objalloc_alloc (o, len);
171	823k	}
172	1.17M	}
173
174		/* Free an entire objalloc structure. */
175
176		void
177		objalloc_free (struct objalloc *o)
178	110k	{
179	110k	struct objalloc_chunk *l;
180
181	110k	l = (struct objalloc_chunk *) o->chunks;
182	1.03M	while (l != NULL)
183	924k	{
184	924k	struct objalloc_chunk *next;
185
186	924k	next = l->next;
187	924k	free (l);
188	924k	l = next;
189	924k	}
190
191	110k	free (o);
192	110k	}
193
194		/* Free a block from an objalloc structure. This also frees all more
195		recently allocated blocks. */
196
197		void
198		objalloc_free_block (struct objalloc o, void block)
199	11.3M	{
200	11.3M	struct objalloc_chunk p, small;
201	11.3M	char b = (char ) block;
202
203		/* First set P to the chunk which contains the block we are freeing,
204		and set Q to the last small object chunk we see before P. */
205	11.3M	small = NULL;
206	12.1M	for (p = (struct objalloc_chunk *) o->chunks; p != NULL; p = p->next)
207	12.1M	{
208	12.1M	if (p->current_ptr == NULL)
209	11.6M	{
210	11.6M	if (b > (char ) p && b < (char ) p + CHUNK_SIZE)
211	11.3M	break;
212	223k	small = p;
213	223k	}
214	506k	else
215	506k	{
216	506k	if (b == (char *) p + CHUNK_HEADER_SIZE)
217	1.03k	break;
218	506k	}
219	12.1M	}
220
221		/* If we can't find the chunk, the caller has made a mistake. */
222	11.3M	if (p == NULL)
223	0	abort ();
224
225	11.3M	if (p->current_ptr == NULL)
226	11.3M	{
227	11.3M	struct objalloc_chunk *q;
228	11.3M	struct objalloc_chunk *first;
229
230		/* The block is in a chunk containing small objects. We can
231		free every chunk through SMALL, because they have certainly
232		been allocated more recently. After SMALL, we will not see
233		any chunks containing small objects; we can free any big
234		chunk if the current_ptr is greater than or equal to B. We
235		can then reset the new current_ptr to B. */
236
237	11.3M	first = NULL;
238	11.3M	q = (struct objalloc_chunk *) o->chunks;
239	12.1M	while (q != p)
240	726k	{
241	726k	struct objalloc_chunk *next;
242
243	726k	next = q->next;
244	726k	if (small != NULL)
245	309k	{
246	309k	if (small == q)
247	8.70k	small = NULL;
248	309k	free (q);
249	309k	}
250	416k	else if (q->current_ptr > b)
251	46.8k	free (q);
252	369k	else if (first == NULL)
253	240k	first = q;
254
255	726k	q = next;
256	726k	}
257
258	11.3M	if (first == NULL)
259	11.1M	first = p;
260	11.3M	o->chunks = (void *) first;
261
262		/* Now start allocating from this small block again. */
263	11.3M	o->current_ptr = b;
264	11.3M	o->current_space = ((char *) p + CHUNK_SIZE) - b;
265	11.3M	}
266	1.03k	else
267	1.03k	{
268	1.03k	struct objalloc_chunk *q;
269	1.03k	char *current_ptr;
270
271		/* This block is in a large chunk by itself. We can free
272		everything on the list up to and including this block. We
273		then start allocating from the next chunk containing small
274		objects, setting current_ptr from the value stored with the
275		large chunk we are freeing. */
276
277	1.03k	current_ptr = p->current_ptr;
278	1.03k	p = p->next;
279
280	1.03k	q = (struct objalloc_chunk *) o->chunks;
281	4.56k	while (q != p)
282	3.53k	{
283	3.53k	struct objalloc_chunk *next;
284
285	3.53k	next = q->next;
286	3.53k	free (q);
287	3.53k	q = next;
288	3.53k	}
289
290	1.03k	o->chunks = (void *) p;
291
292	2.39k	while (p->current_ptr != NULL)
293	1.35k	p = p->next;
294
295	1.03k	o->current_ptr = current_ptr;
296	1.03k	o->current_space = ((char *) p + CHUNK_SIZE) - current_ptr;
297	1.03k	}
298	11.3M	}