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36 .\" @(#)malloc.3 8.1 (Berkeley) 6/4/93
37 .\" $FreeBSD: src/lib/libc/stdlib/malloc.3,v 1.49 2001/11/05 00:39:27 dd Exp $
38 .\"
39 .Dd August 27, 1996
40 .Dt MALLOC 3
41 .Os
42 .Sh NAME
43 .Nm malloc , calloc , realloc , free , reallocf
44 .Nd general purpose memory allocation functions
45 .Sh LIBRARY
46 .Lb libc
47 .Sh SYNOPSIS
48 .In stdlib.h
49 .Ft void *
50 .Fn malloc "size_t size"
51 .Ft void *
52 .Fn calloc "size_t number" "size_t size"
53 .Ft void *
54 .Fn realloc "void *ptr" "size_t size"
55 .Ft void *
56 .Fn reallocf "void *ptr" "size_t size"
57 .Ft void
58 .Fn free "void *ptr"
59 .Ft char *
60 .Va _malloc_options
61 .Ft void
62 .Fn \*(lp*_malloc_message\*(rp "char *p1" "char *p2" "char *p3" "char *p4"
63 .Sh DESCRIPTION
64 The
65 .Fn malloc
66 function allocates
67 .Fa size
68 bytes of memory.
69 The allocated space is suitably aligned (after possible pointer coercion)
70 for storage of any type of object.
71 If the space is at least
72 .Em pagesize
73 bytes in length (see
74 .Xr getpagesize 3 ) ,
75 the returned memory will be page boundary aligned as well.
76 If
77 .Fn malloc
78 fails, a
79 .Dv NULL
80 pointer is returned.
81 .Pp
82 Note that
83 .Fn malloc
84 does
85 .Em NOT
86 normally initialize the returned memory to zero bytes.
87 .Pp
88 The
89 .Fn calloc
90 function allocates space for
91 .Fa number
92 objects,
93 each
94 .Fa size
95 bytes in length.
96 The result is identical to calling
97 .Fn malloc
98 with an argument of
99 .Dq "number * size" ,
100 with the exception that the allocated memory is explicitly initialized
101 to zero bytes.
102 .Pp
103 The
104 .Fn realloc
105 function changes the size of the previously allocated memory referenced by
106 .Fa ptr
107 to
108 .Fa size
109 bytes.
110 The contents of the memory are unchanged up to the lesser of the new and
111 old sizes.
112 If the new size is larger,
113 the value of the newly allocated portion of the memory is undefined.
114 If the requested memory cannot be allocated,
115 .Dv NULL
116 is returned and
117 the memory referenced by
118 .Fa ptr
119 is valid and unchanged.
120 If
121 .Fa ptr
122 is
123 .Dv NULL ,
124 the
125 .Fn realloc
126 function behaves identically to
127 .Fn malloc
128 for the specified size.
129 .Pp
130 The
131 .Fn reallocf
132 function call is identical to the realloc function call, except that it
133 will free the passed pointer when the requested memory cannot be allocated.
134 This is a
135 .Fx
136 specific API designed to ease the problems with traditional coding styles
137 for realloc causing memory leaks in libraries.
138 .Pp
139 The
140 .Fn free
141 function causes the allocated memory referenced by
142 .Fa ptr
143 to be made available for future allocations.
144 If
145 .Fa ptr
146 is
147 .Dv NULL ,
148 no action occurs.
149 .Sh TUNING
150 Once, when the first call is made to one of these memory allocation
151 routines, various flags will be set or reset, which affect the
152 workings of this allocation implementation.
153 .Pp
154 The ``name'' of the file referenced by the symbolic link named
155 .Pa /etc/malloc.conf ,
156 the value of the environment variable
157 .Ev MALLOC_OPTIONS ,
158 and the string pointed to by the global variable
159 .Va _malloc_options
160 will be interpreted, in that order, character by character as flags.
161 .Pp
162 Most flags are single letters,
163 where uppercase indicates that the behavior is set, or on,
164 and lowercase means that the behavior is not set, or off.
165 .Bl -tag -width indent
166 .It A
167 All warnings (except for the warning about unknown
168 flags being set) become fatal.
169 The process will call
170 .Xr abort 3
171 in these cases.
172 .It J
173 Each byte of new memory allocated by
174 .Fn malloc ,
175 .Fn realloc
176 or
177 .Fn reallocf
178 as well as all memory returned by
179 .Fn free ,
180 .Fn realloc
181 or
182 .Fn reallocf
183 will be initialized to 0xd0.
184 This options also sets the
185 .Dq R
186 option.
187 This is intended for debugging and will impact performance negatively.
188 .It H
189 Pass a hint to the kernel about pages unused by the allocation functions.
190 This will help performance if the system is paging excessively. This
191 option is off by default.
192 .It R
193 Causes the
194 .Fn realloc
195 and
196 .Fn reallocf
197 functions to always reallocate memory even if the initial allocation was
198 sufficiently large.
199 This can substantially aid in compacting memory.
200 .It U
201 Generate
202 .Dq utrace
203 entries for
204 .Xr ktrace 1 ,
205 for all operations.
206 Consult the source for details on this option.
207 .It V
208 Attempting to allocate zero bytes will return a
209 .Dv NULL
210 pointer instead of
211 a valid pointer.
212 (The default behavior is to make a minimal allocation and return a
213 pointer to it.)
214 This option is provided for System V compatibility.
215 This option is incompatible with the
216 .Dq X
217 option.
218 .It X
219 Rather than return failure for any allocation function,
220 display a diagnostic message on stderr and cause the program to drop
221 core (using
222 .Xr abort 3 ) .
223 This option should be set at compile time by including the following in
224 the source code:
225 .Bd -literal -offset indent
226 _malloc_options = "X";
227 .Ed
228 .It Z
229 This option implicitly sets the
230 .Dq J
231 and
232 .Dq R
233 options, and then zeros out the bytes that were requested.
234 This is intended for debugging and will impact performance negatively.
235 .It <
236 Reduce the size of the cache by a factor of two.
237 The default cache size is 16 pages.
238 This option can be specified multiple times.
239 .It >
240 Double the size of the cache by a factor of two.
241 The default cache size is 16 pages.
242 This option can be specified multiple times.
243 .El
244 .Pp
245 The
246 .Dq J
247 and
248 .Dq Z
249 options are intended for testing and debugging.
250 An application which changes its behavior when these options are used
251 is flawed.
252 .Sh EXAMPLES
253 To set a systemwide reduction of cache size, and to dump core whenever
254 a problem occurs:
255 .Pp
256 .Bd -literal -offset indent
257 ln -s 'A<' /etc/malloc.conf
258 .Ed
259 .Pp
260 To specify in the source that a program does no return value checking
261 on calls to these functions:
262 .Bd -literal -offset indent
263 _malloc_options = "X";
264 .Ed
265 .Sh ENVIRONMENT
266 The following environment variables affect the execution of the allocation
267 functions:
268 .Bl -tag -width ".Ev MALLOC_OPTIONS"
269 .It Ev MALLOC_OPTIONS
270 If the environment variable
271 .Ev MALLOC_OPTIONS
272 is set, the characters it contains will be interpreted as flags to the
273 allocation functions.
274 .El
275 .Sh RETURN VALUES
276 The
277 .Fn malloc
278 and
279 .Fn calloc
280 functions return a pointer to the allocated memory if successful; otherwise
281 a
282 .Dv NULL
283 pointer is returned and
284 .Va errno
285 is set to
286 .Er ENOMEM .
287 .Pp
288 The
289 .Fn realloc
290 and
291 .Fn reallocf
292 functions return a pointer, possibly identical to
293 .Fa ptr ,
294 to the allocated memory
295 if successful; otherwise a
296 .Dv NULL
297 pointer is returned, in which case the
298 memory referenced by
299 .Fa ptr
300 is still available and intact.
301 In the case of memory allocation failure,
302 .Va errno
303 is set to
304 .Er ENOMEM .
305 .Pp
306 The
307 .Fn free
308 function returns no value.
309 .Sh DEBUGGING MALLOC PROBLEMS
310 The major difference between this implementation and other allocation
311 implementations is that the free pages are not accessed unless allocated,
312 and are aggressively returned to the kernel for reuse.
313 .Bd -ragged -offset indent
314 Most allocation implementations will store a data structure containing a
315 linked list in the free chunks of memory,
316 used to tie all the free memory together.
317 That can be suboptimal,
318 as every time the free-list is traversed,
319 the otherwise unused, and likely paged out,
320 pages are faulted into primary memory.
321 On systems which are paging,
322 this can result in a factor of five increase in the number of page-faults
323 done by a process.
324 .Ed
325 .Pp
326 A side effect of this architecture is that many minor transgressions on
327 the interface which would traditionally not be detected are in fact
328 detected. As a result, programs that have been running happily for
329 years may suddenly start to complain loudly, when linked with this
330 allocation implementation.
331 .Pp
332 The first and most important thing to do is to set the
333 .Dq A
334 option.
335 This option forces a coredump (if possible) at the first sign of trouble,
336 rather than the normal policy of trying to continue if at all possible.
337 .Pp
338 It is probably also a good idea to recompile the program with suitable
339 options and symbols for debugger support.
340 .Pp
341 If the program starts to give unusual results, coredump or generally behave
342 differently without emitting any of the messages listed in the next
343 section, it is likely because it depends on the storage being filled with
344 zero bytes. Try running it with
345 .Dq Z
346 option set;
347 if that improves the situation, this diagnosis has been confirmed.
348 If the program still misbehaves,
349 the likely problem is accessing memory outside the allocated area,
350 more likely after than before the allocated area.
351 .Pp
352 Alternatively, if the symptoms are not easy to reproduce, setting the
353 .Dq J
354 option may help provoke the problem.
355 .Pp
356 In truly difficult cases, the
357 .Dq U
358 option, if supported by the kernel, can provide a detailed trace of
359 all calls made to these functions.
360 .Pp
361 Unfortunately this implementation does not provide much detail about
362 the problems it detects, the performance impact for storing such information
363 would be prohibitive.
364 There are a number of allocation implementations available on the 'Net
365 which focus on detecting and pinpointing problems by trading performance
366 for extra sanity checks and detailed diagnostics.
367 .Sh DIAGNOSTIC MESSAGES
368 If
369 .Fn malloc ,
370 .Fn calloc ,
371 .Fn realloc
372 or
373 .Fn free
374 detect an error or warning condition,
375 a message will be printed to file descriptor STDERR_FILENO.
376 Errors will result in the process dumping core.
377 If the
378 .Dq A
379 option is set, all warnings are treated as errors.
380 .Pp
381 The
382 .Va _malloc_message
383 variable allows the programmer to override the function which emits
384 the text strings forming the errors and warnings if for some reason
385 the stderr filedescriptor is not suitable for this.
386 Please note that doing anything which tries to allocate memory in
387 this function will assure death of the process.
388 .Pp
389 The following is a brief description of possible error messages and
390 their meanings:
391 .Pp
392 .Bl -diag
393 .It "(ES): mumble mumble mumble"
394 The allocation functions were compiled with
395 .Dq EXTRA_SANITY
396 defined, and an error was found during the additional error checking.
397 Consult the source code for further information.
398 .It "mmap(2) failed, check limits"
399 This most likely means that the system is dangerously overloaded or that
400 the process' limits are incorrectly specified.
401 .It "freelist is destroyed"
402 The internal free-list has been corrupted.
403 .It "out of memory"
404 The
405 .Dq X
406 option was specified and an allocation of memory failed.
407 .El
408 .Pp
409 The following is a brief description of possible warning messages and
410 their meanings:
411 .Bl -diag
412 .It "chunk/page is already free"
413 The process attempted to
414 .Fn free
415 memory which had already been freed.
416 .It "junk pointer, ..."
417 A pointer specified to one of the allocation functions points outside the
418 bounds of the memory of which they are aware.
419 .It "malloc() has never been called"
420 No memory has been allocated,
421 yet something is being freed or
422 realloc'ed.
423 .It "modified (chunk-/page-) pointer"
424 The pointer passed to
425 .Fn free
426 or
427 .Fn realloc
428 has been modified.
429 .It "pointer to wrong page"
430 The pointer that
431 .Fn free ,
432 .Fn realloc ,
433 or
434 .Fn reallocf
435 is trying to free does not reference a possible page.
436 .It "recursive call"
437 A process has attempted to call an allocation function recursively.
438 This is not permitted. In particular, signal handlers should not
439 attempt to allocate memory.
440 .It "unknown char in MALLOC_OPTIONS"
441 An unknown option was specified.
442 Even with the
443 .Dq A
444 option set, this warning is still only a warning.
445 .El
446 .Sh SEE ALSO
447 .Xr brk 2 ,
448 .Xr mmap 2 ,
449 .Xr alloca 3 ,
450 .Xr getpagesize 3 ,
451 .Xr memory 3
452 .Pa /usr/share/doc/papers/malloc.ascii.gz
453 .Sh STANDARDS
454 The
455 .Fn malloc ,
456 .Fn calloc ,
457 .Fn realloc
458 and
459 .Fn free
460 functions conform to
461 .St -isoC .
462 .Sh HISTORY
463 The present allocation implementation started out as a filesystem for a
464 drum attached to a 20bit binary challenged computer which was built
465 with discrete germanium transistors. It has since graduated to
466 handle primary storage rather than secondary.
467 It first appeared in its new shape and ability in
468 .Fx 2.2 .
469 .Pp
470 The
471 .Xr reallocf 3
472 function first appeared in
473 .Fx 3.0 .
474 .Sh AUTHORS
475 .An Poul-Henning Kamp Aq phk@FreeBSD.org
476 .Sh BUGS
477 The messages printed in case of problems provide no detail about the
478 actual values.
479 .Pp
480 It can be argued that returning a
481 .Dv NULL
482 pointer when asked to
483 allocate zero bytes is a silly response to a silly question.