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All Rights Reserved. 20.\" Copyright 2017 Nexenta Systems, Inc. 21.\" Copyright 2019 OmniOS Community Edition (OmniOSce) Association. 22.\" 23.Dd September 12, 2019 24.Dt MALLOC 3C 25.Os 26.Sh NAME 27.Nm malloc , 28.Nm calloc , 29.Nm free , 30.Nm freezero , 31.Nm memalign , 32.Nm realloc , 33.Nm reallocf , 34.Nm reallocarray , 35.Nm recallocarray , 36.Nm valloc , 37.Nm alloca 38.Nd memory allocator 39.Sh SYNOPSIS 40.In stdlib.h 41.Ft void * 42.Fo malloc 43.Fa "size_t size" 44.Fc 45.Ft void * 46.Fo calloc 47.Fa "size_t nelem" 48.Fa "size_t elsize" 49.Fc 50.Ft void 51.Fo free 52.Fa "void *ptr" 53.Fc 54.Ft void 55.Fo freezero 56.Fa "void *ptr" 57.Fa "size_t size" 58.Fc 59.Ft void * 60.Fo memalign 61.Fa "size_t alignment" 62.Fa "size_t size" 63.Fc 64.Ft void * 65.Fo realloc 66.Fa "void *ptr" 67.Fa "size_t size" 68.Fc 69.Ft void * 70.Fo reallocf 71.Fa "void *ptr" 72.Fa "size_t size" 73.Fc 74.Ft void * 75.Fo reallocarray 76.Fa "void *ptr" 77.Fa "size_t nelem" 78.Fa "size_t elsize" 79.Fc 80.Ft void * 81.Fo recallocarray 82.Fa "void *ptr" 83.Fa "size_t oldnelem" 84.Fa "size_t newnelem" 85.Fa "size_t elsize" 86.Fc 87.Ft void * 88.Fo valloc 89.Fa "size_t size" 90.Fc 91.In alloca.h 92.Ft void * 93.Fo alloca 94.Fa "size_t size" 95.Fc 96.Sh DESCRIPTION 97The 98.Fn malloc 99and 100.Fn free 101functions provide a simple, general-purpose memory allocation package. 102The 103.Fn malloc 104function returns a pointer to a block of at least 105.Fa size 106bytes suitably aligned for any use. 107If the space assigned by 108.Fn malloc 109is overrun, the results are undefined. 110.Pp 111The argument to 112.Fn free 113is a pointer to a block previously allocated by 114.Fn malloc , 115.Fn calloc , 116.Fn realloc , 117.Fn reallocf , 118.Fn reallocarray , 119or 120.Fn recallocarray . 121After 122.Fn free 123is executed, this space is made available for further allocation by the 124application, though not returned to the system. 125Memory is returned to the system only upon termination of the application. 126If 127.Fa ptr 128is a null pointer, no action occurs. 129If a random number is passed to 130.Fn free , 131the results are undefined. 132.Pp 133The 134.Fn freezero 135function is similar to the 136.Fn free 137function except it ensures memory is explicitly discarded. 138If 139.Fa ptr 140is 141.Dv NULL , 142no action occurs. 143If 144.Fa ptr 145is not 146.Dv NULL , 147the 148.Fa size 149argument must be equal or smaller than the size of the earlier allocation that 150returned 151.Fa ptr . 152.Fn freezero 153guarantees the memory range starting at 154.Fa ptr 155with length 156.Fa size 157is discarded while deallocating the whole object originally allocated. 158.Pp 159The 160.Fn calloc 161function allocates space for an array of 162.Fa nelem 163elements of size 164.Fa elsize . 165The space is initialized to zeros. 166.Pp 167The 168.Fn memalign 169function allocates 170.Fa size 171bytes on a specified alignment boundary and returns a pointer to the allocated 172block. 173The value of the returned address is guaranteed to be an even multiple of 174.Fa alignment . 175The value of 176.Fa alignment 177must be a power of two and must be greater than or equal to the size of a word. 178.Pp 179The 180.Fn realloc 181function changes the size of the block pointed to by 182.Fa ptr 183to 184.Fa size 185bytes and returns a pointer to the 186.Pq possibly moved 187block. 188The contents will be unchanged up to the lesser of the new and old sizes. 189If the new size of the block requires movement of the block, the space for the 190previous instantiation of the block is freed. 191If the new size is larger, the contents of the newly allocated portion of the 192block are unspecified. 193If 194.Fa ptr 195is 196.Dv NULL , 197.Fn realloc 198behaves like 199.Fn malloc 200for the specified size. 201If 202.Fa size 203is 0 and 204.Fa ptr 205is not a null pointer, the space pointed to is freed. 206.Pp 207The 208.Fn reallocf 209function behaves in the same way as 210.Fn realloc 211except that the passed pointer is freed automatically on failure. 212.Pp 213The 214.Fn reallocarray 215function is similar to 216.Fn realloc , 217but operates on 218.Fa nelem 219elements of size 220.Fa elsize 221and checks for overflow in 222.Fa nelem Ns * Ns Fa elsize 223calculation. 224.Pp 225The 226.Fn recallocarray 227function is similar to 228.Fn reallocarray 229except it ensures newly allocated memory is cleared similar to 230.Fn calloc . 231If 232.Fa ptr 233is 234.Dv NULL , 235.Fa oldnelem 236is ignored and the call is equivalent to 237.Fn calloc . 238If 239.Fa ptr 240is not 241.Dv NULL , 242.Fa oldnelem 243must be a value such that 244.Fa oldnelem Ns * Ns Fa elsize 245is the size of the earlier allocation that returned 246.Fa ptr , 247otherwise the behaviour is undefined. 248.Pp 249The 250.Fn valloc 251function has the same effect as 252.Fn malloc , 253except that the allocated memory will be aligned to a multiple of the value 254returned by 255.Nm sysconf Ns Pq Dv _SC_PAGESIZE . 256.Pp 257The 258.Fn alloca 259function allocates 260.Fa size 261bytes of space in the stack frame of the caller, and returns a pointer to the 262allocated block. 263This temporary space is automatically freed when the caller returns. 264If the allocated block is beyond the current stack limit, the resulting behavior 265is undefined. 266.Sh RETURN VALUES 267Upon successful completion, each of the allocation functions returns a pointer 268to space suitably aligned 269.Pq after possible pointer coercion 270for storage of any type of object. 271.Pp 272If there is no available memory, 273.Fn malloc , 274.Fn calloc , 275.Fn realloc , 276.Fn reallocf , 277.Fn reallocarray , 278.Fn recallocarray , 279.Fn memalign , 280and 281.Fn valloc 282return a null pointer. 283.Pp 284When 285.Fn realloc 286is called with 287.Fa size 288> 0 and returns 289.Dv NULL , 290the block pointed to by 291.Fa ptr 292is left intact. 293By contrast, when 294.Fn reallocf 295is called with 296.Fa size 297> 0 and returns 298.Dv NULL , 299the block pointed to by 300.Fa ptr 301will have been freed. 302.Pp 303If 304.Fa size , 305.Fa nelem , 306or 307.Fa elsize 308is 0, either a null pointer or a unique pointer that can be passed to 309.Fn free 310is returned. 311.Pp 312If 313.Fn malloc , 314.Fn calloc , 315.Fn realloc , 316.Fn reallocf , 317.Fn reallocarray , 318or 319.Fn recallocarray 320returns unsuccessfully, 321.Va errno 322will be set to indicate the error. 323The 324.Fn free 325and 326.Fn freezero 327functions do not set 328.Va errno . 329.Sh ERRORS 330The 331.Fn malloc , 332.Fn calloc , 333.Fn realloc , 334.Fn reallocf , 335and 336.Fn reallocarray 337functions will fail if: 338.Bl -tag -width Er 339.It Er ENOMEM 340The physical limits of the system are exceeded by 341.Fa size 342bytes of memory which cannot be allocated, or there's integer overflow in 343.Fn reallocarray . 344.It Er EAGAIN 345There is not enough memory available to allocate 346.Fa size 347bytes of memory; but the application could try again later. 348.El 349.Pp 350The 351.Fn recallocarray 352function will fail if: 353.Bl -tag -width Er 354.It Er EINVAL 355.Fa ptr 356is not 357.Dv NULL 358and multiplying 359.Fa oldnelem 360and 361.Fa elsize 362results in integer overflow. 363.El 364.Sh USAGE 365Portable applications should avoid using 366.Fn valloc 367but should instead use 368.Fn malloc 369or 370.Xr mmap 2 . 371On systems with a large page size, the number of successful 372.Fn valloc 373operations might be 0. 374.Pp 375These default memory allocation routines are safe for use in multithreaded 376applications but are not scalable. 377Concurrent accesses by multiple threads are single-threaded through the use of a 378single lock. 379Multithreaded applications that make heavy use of dynamic memory allocation 380should be linked with allocation libraries designed for concurrent access, such 381as 382.Xr libumem 3LIB 383or 384.Xr libmtmalloc 3LIB . 385Applications that want to avoid using heap allocations 386.Pq with Xr brk 2 387can do so by using either 388.Xr libumem 3LIB 389or 390.Xr libmapmalloc 3LIB . 391The allocation libraries 392.Xr libmalloc 3LIB 393and 394.Xr libbsdmalloc 3LIB 395are available for special needs. 396.Pp 397Comparative features of the various allocation libraries can be found in the 398.Xr umem_alloc 3MALLOC 399manual page. 400.Sh INTERFACE STABILITY 401The 402.Fn malloc , 403.Fn calloc , 404.Fn free , 405.Fn realloc , 406.Fn valloc 407functions are 408.Sy Standard. 409.Pp 410The 411.Fn freezero , 412.Fn reallocf , 413.Fn reallocarray , 414and 415.Fn recallocarray 416functions are 417.Sy Committed . 418.Pp 419The 420.Fn memalign 421and 422.Fn alloca 423functions are 424.Sy Stable . 425.Sh MT-LEVEL 426.Sy Safe. 427.Sh SEE ALSO 428.Xr brk 2 , 429.Xr getrlimit 2 , 430.Xr libbsdmalloc 3LIB , 431.Xr libmalloc 3LIB , 432.Xr libmapmalloc 3LIB , 433.Xr libmtmalloc 3LIB , 434.Xr libumem 3LIB , 435.Xr umem_alloc 3MALLOC , 436.Xr watchmalloc 3MALLOC , 437.Xr attributes 5 438.Sh WARNINGS 439Undefined results will occur if the size requested for a block of memory 440exceeds the maximum size of a process's heap, which can be obtained with 441.Xr getrlimit 2 . 442.Pp 443The 444.Fn alloca 445function is machine-, compiler-, and most of all, system-dependent. 446Its use is strongly discouraged. 447