xref: /freebsd/share/man/man9/malloc.9 (revision 6bfca4dcab07dad45a805879d954876b353c0810)
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29.\" $NetBSD: malloc.9,v 1.3 1996/11/11 00:05:11 lukem Exp $
30.\"
31.Dd October 12, 2022
32.Dt MALLOC 9
33.Os
34.Sh NAME
35.Nm malloc ,
36.Nm mallocarray ,
37.Nm free ,
38.Nm zfree ,
39.Nm realloc ,
40.Nm reallocf ,
41.Nm malloc_usable_size ,
42.Nm malloc_aligned ,
43.Nm malloc_exec ,
44.Nm MALLOC_DECLARE ,
45.Nm MALLOC_DEFINE ,
46.Nm malloc_domainset ,
47.Nm malloc_domainset_aligned ,
48.Nm malloc_domainset_exec ,
49.Nm mallocarray_domainset
50.Nd kernel memory management routines
51.Sh SYNOPSIS
52.In sys/types.h
53.In sys/malloc.h
54.Ft void *
55.Fn malloc "size_t size" "struct malloc_type *type" "int flags"
56.Ft void *
57.Fn mallocarray "size_t nmemb" "size_t size" "struct malloc_type *type" "int flags"
58.Ft void
59.Fn free "void *addr" "struct malloc_type *type"
60.Ft void
61.Fn zfree "void *addr" "struct malloc_type *type"
62.Ft void *
63.Fn realloc "void *addr" "size_t size" "struct malloc_type *type" "int flags"
64.Ft void *
65.Fn reallocf "void *addr" "size_t size" "struct malloc_type *type" "int flags"
66.Ft size_t
67.Fn malloc_usable_size "const void *addr"
68.Ft void *
69.Fo malloc_aligned
70.Fa "size_t size"
71.Fa "size_t align"
72.Fa "struct malloc_type *type"
73.Fa "int flags"
74.Fc
75.Ft void *
76.Fn malloc_exec "size_t size" "struct malloc_type *type" "int flags"
77.Fn MALLOC_DECLARE type
78.In sys/param.h
79.In sys/malloc.h
80.In sys/kernel.h
81.Fn MALLOC_DEFINE type shortdesc longdesc
82.In sys/param.h
83.In sys/domainset.h
84.In sys/malloc.h
85.Ft void *
86.Fn malloc_domainset "size_t size" "struct malloc_type *type" "struct domainset *ds" "int flags"
87.Ft void *
88.Fo malloc_domainset_aligned
89.Fa "size_t size"
90.Fa "size_t align"
91.Fa "struct malloc_type *type"
92.Fa "struct domainset *ds"
93.Fa "int flags"
94.Fc
95.Ft void *
96.Fn malloc_domainset_exec "size_t size" "struct malloc_type *type" "struct domainset *ds" "int flags"
97.Ft void *
98.Fn mallocarray_domainset "size_t nmemb" "size_t size" "struct malloc_type *type" "struct domainset *ds" "int flags"
99.Sh DESCRIPTION
100The
101.Fn malloc
102function allocates uninitialized memory in kernel address space for an
103object whose size is specified by
104.Fa size .
105.Pp
106The
107.Fn malloc_domainset
108variant allocates memory from a specific
109.Xr numa 4
110domain using the specified domain selection policy.
111See
112.Xr domainset 9
113for some example policies.
114.Pp
115The
116.Fn malloc_aligned
117and
118.Fn malloc_domainset_aligned
119variants return allocations aligned as specified by
120.Fa align ,
121which must be non-zero, a power of two, and less than or equal to the page size.
122.Pp
123Both
124.Fn malloc_exec
125and
126.Fn malloc_domainset_exec
127can be used to return executable memory.
128Not all platforms enforce a distinction between executable and non-executable
129memory.
130.Pp
131The
132.Fn mallocarray
133function allocates uninitialized memory in kernel address space for an
134array of
135.Fa nmemb
136entries whose size is specified by
137.Fa size .
138.Pp
139The
140.Fn mallocarray_domainset
141variant allocates memory from a specific
142.Xr numa 4
143domain using the specified domain selection policy.
144See
145.Xr domainset 9
146for some example policies.
147.Pp
148The
149.Fn free
150function releases memory at address
151.Fa addr
152that was previously allocated by
153.Fn malloc
154for re-use.
155The memory is not zeroed.
156If
157.Fa addr
158is
159.Dv NULL ,
160then
161.Fn free
162does nothing.
163.Pp
164Like
165.Fn free ,
166the
167.Fn zfree
168function releases memory at address
169.Fa addr
170that was previously allocated by
171.Fn malloc
172for re-use.
173However,
174.Fn zfree
175will zero the memory before it is released.
176.Pp
177The
178.Fn realloc
179function changes the size of the previously allocated memory referenced by
180.Fa addr
181to
182.Fa size
183bytes.
184The contents of the memory are unchanged up to the lesser of the new and
185old sizes.
186Note that the returned value may differ from
187.Fa addr .
188If the requested memory cannot be allocated,
189.Dv NULL
190is returned and the memory referenced by
191.Fa addr
192is valid and unchanged.
193If
194.Fa addr
195is
196.Dv NULL ,
197the
198.Fn realloc
199function behaves identically to
200.Fn malloc
201for the specified size.
202.Pp
203The
204.Fn reallocf
205function is identical to
206.Fn realloc
207except that it
208will free the passed pointer when the requested memory cannot be allocated.
209.Pp
210The
211.Fn malloc_usable_size
212function returns the usable size of the allocation pointed to by
213.Fa addr .
214The return value may be larger than the size that was requested during
215allocation.
216.Pp
217Unlike its standard C library counterpart
218.Pq Xr malloc 3 ,
219the kernel version takes two more arguments.
220The
221.Fa flags
222argument further qualifies
223.Fn malloc Ns 's
224operational characteristics as follows:
225.Bl -tag -width indent
226.It Dv M_ZERO
227Causes the allocated memory to be set to all zeros.
228.It Dv M_NODUMP
229For allocations greater than page size, causes the allocated
230memory to be excluded from kernel core dumps.
231.It Dv M_NOWAIT
232Causes
233.Fn malloc ,
234.Fn realloc ,
235and
236.Fn reallocf
237to return
238.Dv NULL
239if the request cannot be immediately fulfilled due to resource shortage.
240Note that
241.Dv M_NOWAIT
242is required when running in an interrupt context.
243.It Dv M_WAITOK
244Indicates that it is OK to wait for resources.
245If the request cannot be immediately fulfilled, the current process is put
246to sleep to wait for resources to be released by other processes.
247The
248.Fn malloc ,
249.Fn mallocarray ,
250.Fn realloc ,
251and
252.Fn reallocf
253functions cannot return
254.Dv NULL
255if
256.Dv M_WAITOK
257is specified.
258If the multiplication of
259.Fa nmemb
260and
261.Fa size
262would cause an integer overflow, the
263.Fn mallocarray
264function induces a panic.
265.It Dv M_USE_RESERVE
266Indicates that the system can use its reserve of memory to satisfy the
267request.
268This option should only be used in combination with
269.Dv M_NOWAIT
270when an allocation failure cannot be tolerated by the caller without
271catastrophic effects on the system.
272.El
273.Pp
274Exactly one of either
275.Dv M_WAITOK
276or
277.Dv M_NOWAIT
278must be specified.
279.Pp
280The
281.Fa type
282argument is used to perform statistics on memory usage, and for
283basic sanity checks.
284It can be used to identify multiple allocations.
285The statistics can be examined by
286.Sq vmstat -m .
287.Pp
288A
289.Fa type
290is defined using
291.Vt "struct malloc_type"
292via the
293.Fn MALLOC_DECLARE
294and
295.Fn MALLOC_DEFINE
296macros.
297.Bd -literal -offset indent
298/* sys/something/foo_extern.h */
299
300MALLOC_DECLARE(M_FOOBUF);
301
302/* sys/something/foo_main.c */
303
304MALLOC_DEFINE(M_FOOBUF, "foobuffers", "Buffers to foo data into the ether");
305
306/* sys/something/foo_subr.c */
307
308\&...
309buf = malloc(sizeof(*buf), M_FOOBUF, M_NOWAIT);
310
311.Ed
312.Pp
313In order to use
314.Fn MALLOC_DEFINE ,
315one must include
316.In sys/param.h
317(instead of
318.In sys/types.h )
319and
320.In sys/kernel.h .
321.Sh CONTEXT
322.Fn malloc ,
323.Fn realloc
324and
325.Fn reallocf
326may not be called from fast interrupts handlers.
327When called from threaded interrupts,
328.Fa flags
329must contain
330.Dv M_NOWAIT .
331.Pp
332.Fn malloc ,
333.Fn realloc
334and
335.Fn reallocf
336may sleep when called with
337.Dv M_WAITOK .
338.Fn free
339never sleeps.
340However,
341.Fn malloc ,
342.Fn realloc ,
343.Fn reallocf
344and
345.Fn free
346may not be called in a critical section or while holding a spin lock.
347.Pp
348Any calls to
349.Fn malloc
350(even with
351.Dv M_NOWAIT )
352or
353.Fn free
354when holding a
355.Xr vnode 9
356interlock, will cause a LOR (Lock Order Reversal) due to the
357intertwining of VM Objects and Vnodes.
358.Sh IMPLEMENTATION NOTES
359The memory allocator allocates memory in chunks that have size a power
360of two for requests up to the size of a page of memory.
361For larger requests, one or more pages is allocated.
362While it should not be relied upon, this information may be useful for
363optimizing the efficiency of memory use.
364.Sh RETURN VALUES
365The
366.Fn malloc ,
367.Fn realloc ,
368and
369.Fn reallocf
370functions return a kernel virtual address that is suitably aligned for
371storage of any type of object, or
372.Dv NULL
373if the request could not be satisfied (implying that
374.Dv M_NOWAIT
375was set).
376.Sh DIAGNOSTICS
377A kernel compiled with the
378.Dv INVARIANTS
379configuration option attempts to detect memory corruption caused by
380such things as writing outside the allocated area and imbalanced calls to the
381.Fn malloc
382and
383.Fn free
384functions.
385Failing consistency checks will cause a panic or a system console
386message.
387.Sh SEE ALSO
388.Xr numa 4 ,
389.Xr vmstat 8 ,
390.Xr contigmalloc 9 ,
391.Xr domainset 9 ,
392.Xr memguard 9 ,
393.Xr vnode 9
394.Sh HISTORY
395.Fn zfree
396first appeared in
397.Fx 13.0 .
398