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[/] [or1k/] [trunk/] [gdb-5.0/] [mmalloc/] [mmalloc.c] - Blame information for rev 1772

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1 106 markom
/* Memory allocator `malloc'.
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   Copyright 1990, 1991, 1992 Free Software Foundation
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   Written May 1989 by Mike Haertel.
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   Heavily modified Mar 1992 by Fred Fish for mmap'd version.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Library General Public License as
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published by the Free Software Foundation; either version 2 of the
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License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
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Library General Public License for more details.
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You should have received a copy of the GNU Library General Public
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License along with the GNU C Library; see the file COPYING.LIB.  If
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not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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Boston, MA 02111-1307, USA.
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   The author may be reached (Email) at the address mike@ai.mit.edu,
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   or (US mail) as Mike Haertel c/o Free Software Foundation. */
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#include <string.h>     /* Prototypes for memcpy, memmove, memset, etc */
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#include "mmprivate.h"
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/* Prototypes for local functions */
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31
static int initialize PARAMS ((struct mdesc *));
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static PTR morecore PARAMS ((struct mdesc *, size_t));
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static PTR align PARAMS ((struct mdesc *, size_t));
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/* Aligned allocation.  */
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static PTR
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align (mdp, size)
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  struct mdesc *mdp;
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  size_t size;
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{
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  PTR result;
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  unsigned long int adj;
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  result = mdp -> morecore (mdp, size);
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  adj = RESIDUAL (result, BLOCKSIZE);
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  if (adj != 0)
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    {
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      adj = BLOCKSIZE - adj;
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      mdp -> morecore (mdp, adj);
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      result = (char *) result + adj;
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    }
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  return (result);
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}
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/* Set everything up and remember that we have.  */
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static int
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initialize (mdp)
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  struct mdesc *mdp;
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{
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  mdp -> heapsize = HEAP / BLOCKSIZE;
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  mdp -> heapinfo = (malloc_info *)
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    align (mdp, mdp -> heapsize * sizeof (malloc_info));
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  if (mdp -> heapinfo == NULL)
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    {
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      return (0);
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    }
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  memset ((PTR)mdp -> heapinfo, 0, mdp -> heapsize * sizeof (malloc_info));
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  mdp -> heapinfo[0].free.size = 0;
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  mdp -> heapinfo[0].free.next = mdp -> heapinfo[0].free.prev = 0;
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  mdp -> heapindex = 0;
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  mdp -> heapbase = (char *) mdp -> heapinfo;
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  mdp -> flags |= MMALLOC_INITIALIZED;
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  return (1);
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}
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78
/* Get neatly aligned memory, initializing or
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   growing the heap info table as necessary. */
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81
static PTR
82
morecore (mdp, size)
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  struct mdesc *mdp;
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  size_t size;
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{
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  PTR result;
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  malloc_info *newinfo, *oldinfo;
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  size_t newsize;
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90
  result = align (mdp, size);
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  if (result == NULL)
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    {
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      return (NULL);
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    }
95
 
96
  /* Check if we need to grow the info table.  */
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  if ((size_t) BLOCK ((char *) result + size) > mdp -> heapsize)
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    {
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      newsize = mdp -> heapsize;
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      while ((size_t) BLOCK ((char *) result + size) > newsize)
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        {
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          newsize *= 2;
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        }
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      newinfo = (malloc_info *) align (mdp, newsize * sizeof (malloc_info));
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      if (newinfo == NULL)
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        {
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          mdp -> morecore (mdp, -size);
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          return (NULL);
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        }
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      memset ((PTR) newinfo, 0, newsize * sizeof (malloc_info));
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      memcpy ((PTR) newinfo, (PTR) mdp -> heapinfo,
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              mdp -> heapsize * sizeof (malloc_info));
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      oldinfo = mdp -> heapinfo;
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      newinfo[BLOCK (oldinfo)].busy.type = 0;
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      newinfo[BLOCK (oldinfo)].busy.info.size
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        = BLOCKIFY (mdp -> heapsize * sizeof (malloc_info));
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      mdp -> heapinfo = newinfo;
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      __mmalloc_free (mdp, (PTR)oldinfo);
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      mdp -> heapsize = newsize;
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    }
121
 
122
  mdp -> heaplimit = BLOCK ((char *) result + size);
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  return (result);
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}
125
 
126
/* Allocate memory from the heap.  */
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128
PTR
129
mmalloc (md, size)
130
  PTR md;
131
  size_t size;
132
{
133
  struct mdesc *mdp;
134
  PTR result;
135
  size_t block, blocks, lastblocks, start;
136
  register size_t i;
137
  struct list *next;
138
  register size_t log;
139
 
140
  if (size == 0)
141
    {
142
      return (NULL);
143
    }
144
 
145
  mdp = MD_TO_MDP (md);
146
 
147
  if (mdp -> mmalloc_hook != NULL)
148
    {
149
      return ((*mdp -> mmalloc_hook) (md, size));
150
    }
151
 
152
  if (!(mdp -> flags & MMALLOC_INITIALIZED))
153
    {
154
      if (!initialize (mdp))
155
        {
156
          return (NULL);
157
        }
158
    }
159
 
160
  if (size < sizeof (struct list))
161
    {
162
      size = sizeof (struct list);
163
    }
164
 
165
  /* Determine the allocation policy based on the request size.  */
166
  if (size <= BLOCKSIZE / 2)
167
    {
168
      /* Small allocation to receive a fragment of a block.
169
         Determine the logarithm to base two of the fragment size. */
170
      log = 1;
171
      --size;
172
      while ((size /= 2) != 0)
173
        {
174
          ++log;
175
        }
176
 
177
      /* Look in the fragment lists for a
178
         free fragment of the desired size. */
179
      next = mdp -> fraghead[log].next;
180
      if (next != NULL)
181
        {
182
          /* There are free fragments of this size.
183
             Pop a fragment out of the fragment list and return it.
184
             Update the block's nfree and first counters. */
185
          result = (PTR) next;
186
          next -> prev -> next = next -> next;
187
          if (next -> next != NULL)
188
            {
189
              next -> next -> prev = next -> prev;
190
            }
191
          block = BLOCK (result);
192
          if (--mdp -> heapinfo[block].busy.info.frag.nfree != 0)
193
            {
194
              mdp -> heapinfo[block].busy.info.frag.first =
195
                RESIDUAL (next -> next, BLOCKSIZE) >> log;
196
            }
197
 
198
          /* Update the statistics.  */
199
          mdp -> heapstats.chunks_used++;
200
          mdp -> heapstats.bytes_used += 1 << log;
201
          mdp -> heapstats.chunks_free--;
202
          mdp -> heapstats.bytes_free -= 1 << log;
203
        }
204
      else
205
        {
206
          /* No free fragments of the desired size, so get a new block
207
             and break it into fragments, returning the first.  */
208
          result = mmalloc (md, BLOCKSIZE);
209
          if (result == NULL)
210
            {
211
              return (NULL);
212
            }
213
 
214
          /* Link all fragments but the first into the free list.  */
215
          for (i = 1; i < (size_t) (BLOCKSIZE >> log); ++i)
216
            {
217
              next = (struct list *) ((char *) result + (i << log));
218
              next -> next = mdp -> fraghead[log].next;
219
              next -> prev = &mdp -> fraghead[log];
220
              next -> prev -> next = next;
221
              if (next -> next != NULL)
222
                {
223
                  next -> next -> prev = next;
224
                }
225
            }
226
 
227
          /* Initialize the nfree and first counters for this block.  */
228
          block = BLOCK (result);
229
          mdp -> heapinfo[block].busy.type = log;
230
          mdp -> heapinfo[block].busy.info.frag.nfree = i - 1;
231
          mdp -> heapinfo[block].busy.info.frag.first = i - 1;
232
 
233
          mdp -> heapstats.chunks_free += (BLOCKSIZE >> log) - 1;
234
          mdp -> heapstats.bytes_free += BLOCKSIZE - (1 << log);
235
          mdp -> heapstats.bytes_used -= BLOCKSIZE - (1 << log);
236
        }
237
    }
238
  else
239
    {
240
      /* Large allocation to receive one or more blocks.
241
         Search the free list in a circle starting at the last place visited.
242
         If we loop completely around without finding a large enough
243
         space we will have to get more memory from the system.  */
244
      blocks = BLOCKIFY(size);
245
      start = block = MALLOC_SEARCH_START;
246
      while (mdp -> heapinfo[block].free.size < blocks)
247
        {
248
          block = mdp -> heapinfo[block].free.next;
249
          if (block == start)
250
            {
251
              /* Need to get more from the system.  Check to see if
252
                 the new core will be contiguous with the final free
253
                 block; if so we don't need to get as much.  */
254
              block = mdp -> heapinfo[0].free.prev;
255
              lastblocks = mdp -> heapinfo[block].free.size;
256
              if (mdp -> heaplimit != 0 &&
257
                  block + lastblocks == mdp -> heaplimit &&
258
                  mdp -> morecore (mdp, 0) == ADDRESS(block + lastblocks) &&
259
                  (morecore (mdp, (blocks - lastblocks) * BLOCKSIZE)) != NULL)
260
                {
261
                  /* Which block we are extending (the `final free
262
                     block' referred to above) might have changed, if
263
                     it got combined with a freed info table.  */
264
                  block = mdp -> heapinfo[0].free.prev;
265
 
266
                  mdp -> heapinfo[block].free.size += (blocks - lastblocks);
267
                  mdp -> heapstats.bytes_free +=
268
                      (blocks - lastblocks) * BLOCKSIZE;
269
                  continue;
270
                }
271
              result = morecore(mdp, blocks * BLOCKSIZE);
272
              if (result == NULL)
273
                {
274
                  return (NULL);
275
                }
276
              block = BLOCK (result);
277
              mdp -> heapinfo[block].busy.type = 0;
278
              mdp -> heapinfo[block].busy.info.size = blocks;
279
              mdp -> heapstats.chunks_used++;
280
              mdp -> heapstats.bytes_used += blocks * BLOCKSIZE;
281
              return (result);
282
            }
283
        }
284
 
285
      /* At this point we have found a suitable free list entry.
286
         Figure out how to remove what we need from the list. */
287
      result = ADDRESS(block);
288
      if (mdp -> heapinfo[block].free.size > blocks)
289
        {
290
          /* The block we found has a bit left over,
291
             so relink the tail end back into the free list. */
292
          mdp -> heapinfo[block + blocks].free.size
293
            = mdp -> heapinfo[block].free.size - blocks;
294
          mdp -> heapinfo[block + blocks].free.next
295
            = mdp -> heapinfo[block].free.next;
296
          mdp -> heapinfo[block + blocks].free.prev
297
            = mdp -> heapinfo[block].free.prev;
298
          mdp -> heapinfo[mdp -> heapinfo[block].free.prev].free.next
299
            = mdp -> heapinfo[mdp -> heapinfo[block].free.next].free.prev
300
              = mdp -> heapindex = block + blocks;
301
        }
302
      else
303
        {
304
          /* The block exactly matches our requirements,
305
             so just remove it from the list. */
306
          mdp -> heapinfo[mdp -> heapinfo[block].free.next].free.prev
307
            = mdp -> heapinfo[block].free.prev;
308
          mdp -> heapinfo[mdp -> heapinfo[block].free.prev].free.next
309
            = mdp -> heapindex = mdp -> heapinfo[block].free.next;
310
          mdp -> heapstats.chunks_free--;
311
        }
312
 
313
      mdp -> heapinfo[block].busy.type = 0;
314
      mdp -> heapinfo[block].busy.info.size = blocks;
315
      mdp -> heapstats.chunks_used++;
316
      mdp -> heapstats.bytes_used += blocks * BLOCKSIZE;
317
      mdp -> heapstats.bytes_free -= blocks * BLOCKSIZE;
318
    }
319
 
320
  return (result);
321
}
322
 
323
/* When using this package, provide a version of malloc/realloc/free built
324
   on top of it, so that if we use the default sbrk() region we will not
325
   collide with another malloc package trying to do the same thing, if
326
   the application contains any "hidden" calls to malloc/realloc/free (such
327
   as inside a system library). */
328
 
329
PTR
330
malloc (size)
331
  size_t size;
332
{
333
  PTR result;
334
 
335
  result = mmalloc ((PTR) NULL, size);
336
  return (result);
337
}

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