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SunOS 5.10 - man page for umem_nofail_callback (sunos section 3malloc)

umem_alloc(3MALLOC)					Memory Allocation Library Functions				       umem_alloc(3MALLOC)

NAME
umem_alloc, umem_zalloc, umem_free, umem_nofail_callback - fast, scalable memory allocation
SYNOPSIS
cc [ flag ... ] file... -lumem [ library ... ] #include <umem.h> void *umem_alloc(size_t size, int flags); void *umem_zalloc(size_t size, int flags); void umem_free(void *buf, size_t size); void umem_nofail_callback((int (*callback)(void)); void *malloc(size_t size); void *calloc(size_t nelem, size_t elsize); void free(void *ptr); void *memalign(size_t alignment, size_t size); void *realloc(void *ptr, size_t size); void *valloc(size_t size);
DESCRIPTION
The umem_alloc() function returns a pointer to a block of size bytes suitably aligned for any variable type. The initial contents of memory allocated using umem_alloc() is undefined. The flags argument determines the behavior of umem_alloc() if it is unable to fulfill the request. The flags argument can take the following values: UMEM_DEFAULT Return NULL on failure. UMEM_NOFAIL Call an optional callback (set with umem_nofail_callback()) on failure. The callback takes no arguments and can finish by: o returning UMEM_CALLBACK_RETRY, in which case the allocation will be retried. If the allocation fails, the callback will be invoked again. o returning UMEM_CALLBACK_EXIT(status), in which case exit(2) is invoked with status as its argument. The exit() func- tion is called only once. If multiple threads return from the UMEM_NOFAIL callback with UMEM_CALLBACK_EXIT(status), one will call exit() while the other blocks until exit() terminates the program. o invoking a context-changing function (setcontext(2)) or a non-local jump (longjmp(3C) or siglongjmp(3C), or ending the current thread of control (thr_exit(3C) or pthread_exit(3C). The application is responsible for any necessary cleanup. The state of libumem remains consistent. If no callback has been set or the callback has been set to NULL, umem_alloc(..., UMEM_NOFAIL) behaves as though the call- back returned UMEM_CALLBACK_EXIT(255). The libumem library can call callbacks from any place that a UMEM_NOFAIL allocation is issued. In multithreaded applica- tions, callbacks are expected to perform their own concurrency management. The function call umem_alloc(0, flag) always returns NULL. The function call umem_free(NULL, 0) is allowed. The umem_zalloc() function has the same semantics as umem_alloc(), but the block of memory is initialized to zeros before it is returned. The umem_free() function frees blocks previously allocated using umem_alloc() and umem_zalloc(). The buffer address and size must exactly match the original allocation. Memory must not be returned piecemeal. The umem_nofail_callback() function sets the process-wide UMEM_NOFAIL callback. See the description of UMEM_NOFAIL for more information. The malloc(), calloc(), free(), memalign(), realloc(), and valloc() functions are are as described in malloc(3C). The libumem library pro- vides these functions for backwards-compatibility with the standard functions.
ENVIRONMENT VARIABLES
See umem_debug(3MALLOC) for environment variables that effect the debugging features of the libumem library. UMEM_OPTIONS Contains a list of comma-separated options. Unrecognized options are ignored. The options that are supported are: backend=sbrk Set the underlying function used to allocate memory. This option can be set to sbrk (the default) for an backend=mmap sbrk(2)-based source or mmap for an mmap(2)-based source. If set to a value that is not supported, sbrk will be used.
EXAMPLES
Example 1: Using the umem_alloc() function. #include <stdio.h> #include <umem.h> ... char *buf = umem_alloc(1024, UMEM_DEFAULT); if (buf == NULL) { fprintf(stderr, "out of memory\n"); return(1); } /* cannot assume anything about buf's contents */ ... umem_free(buf, 1024); ... Example 2: Using the umem_zalloc() function #include <stdio.h> #include <umem.h> ... char *buf = umem_zalloc(1024, UMEM_DEFAULT); if (buf == NULL) { fprintf(stderr, "out of memory\n"); return(1); } /* buf contains zeros */ ... umem_free(buf, 1024); ... Example 3: Using UMEM_NOFAIL #include <stdlib.h> #include <stdio.h> #include <umem.h> /* * Note that the allocation code below does not have to * check for umem_alloc() returning NULL */ int my_failure_handler(void) { (void) fprintf(stderr, "out of memory\n"); return (UMEM_CALLBACK_EXIT(255)); } ... umem_nofail_callback(my_failure_handler); ... int i; char *buf[100]; for (i = 0; i < 100; i++) buf[i] = umem_alloc(1024 * 1024, UMEM_NOFAIL); ... for (i = 0; i < 100; i++) umem_free(buf[i], 1024 * 1024); ... Example 4: Using UMEM_NOFAIL in a multithreaded application #define _REENTRANT #include <thread.h> #include <stdio.h> #include <umem.h> void * start_func(void *the_arg) { int *info = (int *)the_arg; char *buf = umem_alloc(1024 * 1024, UMEM_NOFAIL); /* does not need to check for buf == NULL */ buf[0] = 0; ... /* * if there were other UMEM_NOFAIL allocations, * we would need to arrange for buf to be * umem_free()ed upon failure. */ ... umem_free(buf, 1024 * 1024); return (the_arg); } ... int my_failure_handler(void) { /* terminate the current thread with status NULL */ thr_exit(NULL); } ... umem_nofail_callback(my_failure_handler); ... int my_arg; thread_t tid; void *status; (void) thr_create(NULL, NULL, start_func, &my_arg, 0, NULL); ... while (thr_join(0, &tid, &status) != 0) ; if (status == NULL) { (void) fprintf(stderr, "thread %d ran out of memory\n", tid); } ...
ATTRIBUTES
See attributes(5) for descriptions of the following attributes: +-----------------------------+-----------------------------+ | ATTRIBUTE TYPE | ATTRIBUTE VALUE | +-----------------------------+-----------------------------+ |Interface Stability |See below. | +-----------------------------+-----------------------------+ |MT-Level |MT-Safe | +-----------------------------+-----------------------------+ The malloc(), calloc(), free(), realloc(), and valloc() functions are Standard. The memalign() function is Stable. The umem_alloc(), umem_zalloc(), umem_free(), and umem_nofail_callback() functions are Evolving.
SEE ALSO
exit(2), mmap(2), sbrk(2), bsdmalloc(3MALLOC), libumem(3LIB), longjmp(3C), malloc(3C), malloc(3MALLOC), mapmalloc(3MALLOC), pthread_exit(3C), thr_exit(3C), umem_cache_create(3MALLOC), umem_debug(3MALLOC), watchmalloc(3MALLOC), attributes(5), standards(5) Solaris Modular Debugger Guide
WARNINGS
Any of the following can cause undefined results: o Passing a pointer returned from umem_alloc() or umem_zalloc() to free() or realloc(). o Passing a pointer returned from malloc(), calloc(), valloc(), memalign(), or realloc() to umem_free(). o Writing past the end of a buffer allocated using umem_alloc() or umem_zalloc() o Performing UMEM_NOFAIL allocations from an atexit(3C) handler. If the UMEM_NOFAIL callback performs UMEM_NOFAIL allocations, infinite recursion can occur.
NOTES
The following list compares the features of the malloc(3C), bsdmalloc(3MALLOC), malloc(3MALLOC), mtmalloc(3MALLOC) , and the libumem func- tions. o The malloc(3C), bsdmalloc(3MALLOC), and malloc(3MALLOC) functions have no support for concurrency. The libumem and mtmalloc(3MALLOC) functions support concurrent allocations. o The bsdmalloc(3MALLOC) functions afford better performance but are space-inefficient. o The malloc(3MALLOC) functions are space-efficient but have slower performance. o The standard, fully SCD-compliant malloc(3C) functions are a trade-off between performance and space-efficiency. o The mtmalloc(3MALLOC) functions provide fast, concurrent malloc() implementations that are not space-efficient. o The libumem functions provide a fast, concurrent allocation implementation that in most cases is more space-efficient than mtmal- loc(3MALLOC). SunOS 5.10 26 Aug 2002 umem_alloc(3MALLOC)

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