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IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE .\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL .\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS .\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) .\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT .\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY .\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF .\" SUCH DAMAGE. .\" .\" $OpenBSD: malloc.3,v 1.118 2018/11/08 05:58:21 otto Exp $ .\" .Dd $Mdocdate: November 8 2018 $ .Dt MALLOC 3 .Os .Sh NAME .Nm malloc , .Nm calloc , .Nm realloc , .Nm free , .Nm reallocarray , .Nm recallocarray , .Nm freezero , .Nm aligned_alloc .Nd memory allocation and deallocation .Sh SYNOPSIS .In stdlib.h .Ft void * .Fn malloc "size_t size" .Ft void * .Fn calloc "size_t nmemb" "size_t size" .Ft void * .Fn realloc "void *ptr" "size_t size" .Ft void .Fn free "void *ptr" .Ft void * .Fn reallocarray "void *ptr" "size_t nmemb" "size_t size" .Ft void * .Fn recallocarray "void *ptr" "size_t oldnmemb" "size_t nmemb" "size_t size" .Ft void .Fn freezero "void *ptr" "size_t size" .Ft void * .Fn aligned_alloc "size_t alignment" "size_t size" .Vt char *malloc_options ; .Sh DESCRIPTION The standard functions .Fn malloc , .Fn calloc , and .Fn realloc allocate .Em objects , regions of memory to store values. The .Fn malloc function allocates uninitialized space for an object of the specified .Fa size . .Fn malloc maintains multiple lists of free objects according to size, allocating from the appropriate list or requesting memory from the kernel. The allocated space is suitably aligned (after possible pointer coercion) for storage of any type of object. .Pp The .Fn calloc function allocates space for an array of .Fa nmemb objects, each of the specified .Fa size . The space is initialized to zero. .Pp The .Fn realloc function changes the size of the object pointed to by .Fa ptr to .Fa size bytes and returns a pointer to the (possibly moved) object. If .Fa ptr is not .Dv NULL , it must be a pointer returned by an earlier call to an allocation or reallocation function that was not freed in between. The contents of the object are unchanged up to the lesser of the new and old sizes. If the new size is larger, the value of the newly allocated portion of the object is indeterminate and uninitialized. If the space cannot be allocated, the object pointed to by .Fa ptr is unchanged. If .Fa ptr is .Dv NULL , .Fn realloc behaves like .Fn malloc and allocates a new object. .Pp The .Fn free function causes the space pointed to by .Fa ptr to be either placed on a list of free blocks to make it available for future allocation or, when appropriate, to be returned to the kernel using .Xr munmap 2 . If .Fa ptr is .Dv NULL , no action occurs. If .Fa ptr was previously freed by .Fn free or a reallocation function, the behavior is undefined and the double free is a security concern. .Pp Designed for safe allocation of arrays, the .Fn reallocarray function is similar to .Fn realloc except it operates on .Fa nmemb members of size .Fa size and checks for integer overflow in the calculation .Fa nmemb * .Fa size . .Pp Used for the allocation of memory holding sensitive data, the .Fn recallocarray and .Fn freezero functions guarantee that memory becoming unallocated is explicitly .Em discarded , meaning pages of memory are disposed via .Xr munmap 2 and cached free objects are cleared with .Xr explicit_bzero 3 . .Pp The .Fn recallocarray function is similar to .Fn reallocarray except it ensures newly allocated memory is cleared similar to .Fn calloc . If .Fa ptr is .Dv NULL , .Fa oldnmemb is ignored and the call is equivalent to .Fn calloc . If .Fa ptr is not .Dv NULL , .Fa oldnmemb must be a value such that .Fa oldnmemb * .Fa size is the size of the earlier allocation that returned .Fa ptr , otherwise the behaviour is undefined. .Pp The .Fn freezero function is similar to the .Fn free function except it ensures memory is explicitly discarded. If .Fa ptr is .Dv NULL , no action occurs. If .Fa ptr is not .Dv NULL , the .Fa size argument must be equal to or smaller than the size of the earlier allocation that returned .Fa ptr . .Fn freezero guarantees the memory range starting at .Fa ptr with length .Fa size is discarded while deallocating the whole object originally allocated. .Pp The .Fn aligned_alloc function allocates .Fa size bytes of memory such that the allocation's base address is a multiple of .Fa alignment . The requested .Fa alignment must be a power of 2. If .Fa size is not a multiple of .Fa alignment , behavior is undefined. .Sh RETURN VALUES Upon successful completion, the allocation functions return a pointer to the allocated space; otherwise, .Dv NULL is returned and .Va errno is set to .Er ENOMEM . The function .Fn aligned_alloc returns .Dv NULL and sets .Va errno to .Er EINVAL if .Fa alignment is not a power of 2. .Pp If .Fa nmemb or .Fa size is equal to 0, a unique pointer to an access protected, zero sized object is returned. Access via this pointer will generate a .Dv SIGSEGV exception. .Pp If multiplying .Fa nmemb and .Fa size results in integer overflow, .Fn calloc , .Fn reallocarray and .Fn recallocarray return .Dv NULL and set .Va errno to .Er ENOMEM . .Pp If .Fa ptr is not .Dv NULL and multiplying .Fa oldnmemb and .Fa size results in integer overflow .Fn recallocarray returns .Dv NULL and sets .Va errno to .Er EINVAL . .Sh IDIOMS Consider .Fn calloc or the extensions .Fn reallocarray and .Fn recallocarray when there is multiplication in the .Fa size argument of .Fn malloc or .Fn realloc . For example, avoid this common idiom as it may lead to integer overflow: .Bd -literal -offset indent if ((p = malloc(num * size)) == NULL) err(1, NULL); .Ed .Pp A drop-in replacement is the .Ox extension .Fn reallocarray : .Bd -literal -offset indent if ((p = reallocarray(NULL, num, size)) == NULL) err(1, NULL); .Ed .Pp Alternatively, .Fn calloc may be used at the cost of initialization overhead. .Pp When using .Fn realloc , be careful to avoid the following idiom: .Bd -literal -offset indent size += 50; if ((p = realloc(p, size)) == NULL) return (NULL); .Ed .Pp Do not adjust the variable describing how much memory has been allocated until the allocation has been successful. This can cause aberrant program behavior if the incorrect size value is used. In most cases, the above sample will also result in a leak of memory. As stated earlier, a return value of .Dv NULL indicates that the old object still remains allocated. Better code looks like this: .Bd -literal -offset indent newsize = size + 50; if ((newp = realloc(p, newsize)) == NULL) { free(p); p = NULL; size = 0; return (NULL); } p = newp; size = newsize; .Ed .Pp As with .Fn malloc , it is important to ensure the new size value will not overflow; i.e. avoid allocations like the following: .Bd -literal -offset indent if ((newp = realloc(p, num * size)) == NULL) { ... .Ed .Pp Instead, use .Fn reallocarray : .Bd -literal -offset indent if ((newp = reallocarray(p, num, size)) == NULL) { ... .Ed .Pp Calling .Fn realloc with a .Dv NULL .Fa ptr is equivalent to calling .Fn malloc . Instead of this idiom: .Bd -literal -offset indent if (p == NULL) newp = malloc(newsize); else newp = realloc(p, newsize); .Ed .Pp Use the following: .Bd -literal -offset indent newp = realloc(p, newsize); .Ed .Pp The .Fn recallocarray function should be used for resizing objects containing sensitive data like keys. To avoid leaking information, it guarantees memory is cleared before placing it on the internal free list. Deallocation of such an object should be done by calling .Fn freezero . .Sh ENVIRONMENT .Bl -tag -width "MALLOC_OPTIONS" .It Ev MALLOC_OPTIONS String of flags documented in .Xr malloc.conf 5 . .El .Sh EXAMPLES If .Fn malloc must be used with multiplication, be sure to test for overflow: .Bd -literal -offset indent size_t num, size; \&... /* Check for size_t overflow */ if (size && num > SIZE_MAX / size) errc(1, EOVERFLOW, "overflow"); if ((p = malloc(num * size)) == NULL) err(1, NULL); .Ed .Pp The above test is not sufficient in all cases. For example, multiplying ints requires a different set of checks: .Bd -literal -offset indent int num, size; \&... /* Avoid invalid requests */ if (size < 0 || num < 0) errc(1, EOVERFLOW, "overflow"); /* Check for signed int overflow */ if (size && num > INT_MAX / size) errc(1, EOVERFLOW, "overflow"); if ((p = malloc(num * size)) == NULL) err(1, NULL); .Ed .Pp Assuming the implementation checks for integer overflow as .Ox does, it is much easier to use .Fn calloc , .Fn reallocarray , or .Fn recallocarray . .Pp The above examples could be simplified to: .Bd -literal -offset indent if ((p = reallocarray(NULL, num, size)) == NULL) err(1, NULL); .Ed .Pp or at the cost of initialization: .Bd -literal -offset indent if ((p = calloc(num, size)) == NULL) err(1, NULL); .Ed .Sh DIAGNOSTICS If any of the functions detect an error condition, a message will be printed to file descriptor 2 (not using stdio). Errors will result in the process being aborted. .Pp Here is a brief description of the error messages and what they mean: .Bl -tag -width Ds .It Dq out of memory If the .Cm X option is specified it is an error for the allocation functions to return .Dv NULL . .It Dq bogus pointer (double free?) An attempt to .Fn free or reallocate an unallocated pointer was made. .It Dq chunk is already free There was an attempt to free a chunk that had already been freed. .It Dq use after free A chunk has been modified after it was freed. .It Dq modified chunk-pointer The pointer passed to .Fn free or a reallocation function has been modified. .It Dq chunk canary corrupted address offset@length A byte after the requested size has been overwritten, indicating a heap overflow. The offset at which corruption was detected is printed before the @, and the requested length of the allocation after the @. .It Dq recorded old size oldsize != size .Fn recallocarray has detected that the given old size does not equal the recorded size in its meta data. Enabling option .Cm C allows .Fn recallocarray to catch more of these cases. .It Dq recursive call An attempt was made to call recursively into these functions, i.e., from a signal handler. This behavior is not supported. In particular, signal handlers should .Em not use any of the .Fn malloc functions nor utilize any other functions which may call .Fn malloc (e.g., .Xr stdio 3 routines). .It Dq unknown char in MALLOC_OPTIONS We found something we didn't understand. .It any other error .Fn malloc detected an internal error; consult sources and/or wizards. .El .Sh SEE ALSO .Xr brk 2 , .Xr mmap 2 , .Xr munmap 2 , .Xr alloca 3 , .Xr getpagesize 3 , .Xr posix_memalign 3 , .Xr sysconf 3 , .Xr malloc.conf 5 .Sh STANDARDS The .Fn malloc , .Fn calloc , .Fn realloc , and .Fn free functions conform to .St -ansiC . The .Fn aligned_alloc function conforms to .St -isoC-2011 . .Pp If .Fa nmemb or .Fa size are 0, the return value is implementation defined; other conforming implementations may return .Dv NULL in this case. .Pp The .Ev MALLOC_OPTIONS environment variable, the .Va vm.malloc_conf sysctl and the .Sx DIAGNOSTICS output are extensions to the standard. .Sh HISTORY A .Fn free internal kernel function and a predecessor to .Fn malloc , .Fn alloc , first appeared in .At v1 . C library functions .Fn alloc and .Fn free appeared in .At v6 . The functions .Fn malloc , .Fn calloc , and .Fn realloc first appeared in .At v7 . .Pp A new implementation by Chris Kingsley was introduced in .Bx 4.2 , followed by a complete rewrite by Poul-Henning Kamp which appeared in .Fx 2.2 and was included in .Ox 2.0 . These implementations were all .Xr sbrk 2 based. In .Ox 3.8 , Thierry Deval rewrote .Nm to use the .Xr mmap 2 system call, making the page addresses returned by .Nm random. A rewrite by Otto Moerbeek introducing a new central data structure and more randomization appeared in .Ox 4.4 . .Pp The .Fn reallocarray function appeared in .Ox 5.6 . The .Fn recallocarray function appeared in .Ox 6.1 . The .Fn freezero function appeared in .Ox 6.2 . The .Fn aligned_alloc function appeared in .Ox 6.5 . .Sh CAVEATS When using .Fn malloc , be wary of signed integer and .Vt size_t overflow especially when there is multiplication in the .Fa size argument. .Pp Signed integer overflow will cause undefined behavior which compilers typically handle by wrapping back around to negative numbers. Depending on the input, this can result in allocating more or less memory than intended. .Pp An unsigned overflow has defined behavior which will wrap back around and return less memory than intended. .Pp A signed or unsigned integer overflow is a .Em security risk if less memory is returned than intended. Subsequent code may corrupt the heap by writing beyond the memory that was allocated. An attacker may be able to leverage this heap corruption to execute arbitrary code. .Pp Consider using .Fn calloc , .Fn reallocarray or .Fn recallocarray instead of using multiplication in .Fn malloc and .Fn realloc to avoid these problems on .Ox .