'\" t .\" Copyright (c) 2012 by Michael Kerrisk .\" .\" SPDX-License-Identifier: Linux-man-pages-copyleft .\" .TH malloc_info 3 2024-05-02 "Linux man-pages 6.8" .SH NAME malloc_info \- export malloc state to a stream .SH LIBRARY Standard C library .RI ( libc ", " \-lc ) .SH SYNOPSIS .nf .B #include .P .BI "int malloc_info(int " options ", FILE *" stream ); .fi .SH DESCRIPTION The .BR malloc_info () function exports an XML string that describes the current state of the memory-allocation implementation in the caller. The string is printed on the file stream .IR stream . The exported string includes information about all arenas (see .BR malloc (3)). .P As currently implemented, .I options must be zero. .SH RETURN VALUE On success, .BR malloc_info () returns 0. On failure, it returns \-1, and .I errno is set to indicate the error. .SH ERRORS .TP .B EINVAL .I options was nonzero. .SH ATTRIBUTES For an explanation of the terms used in this section, see .BR attributes (7). .TS allbox; lbx lb lb l l l. Interface Attribute Value T{ .na .nh .BR malloc_info () T} Thread safety MT-Safe .TE .SH STANDARDS GNU. .SH HISTORY glibc 2.10. .SH NOTES The memory-allocation information is provided as an XML string (rather than a C structure) because the information may change over time (according to changes in the underlying implementation). The output XML string includes a version field. .P The .BR open_memstream (3) function can be used to send the output of .BR malloc_info () directly into a buffer in memory, rather than to a file. .P The .BR malloc_info () function is designed to address deficiencies in .BR malloc_stats (3) and .BR mallinfo (3). .SH EXAMPLES The program below takes up to four command-line arguments, of which the first three are mandatory. The first argument specifies the number of threads that the program should create. All of the threads, including the main thread, allocate the number of blocks of memory specified by the second argument. The third argument controls the size of the blocks to be allocated. The main thread creates blocks of this size, the second thread created by the program allocates blocks of twice this size, the third thread allocates blocks of three times this size, and so on. .P The program calls .BR malloc_info () twice to display the memory-allocation state. The first call takes place before any threads are created or memory allocated. The second call is performed after all threads have allocated memory. .P In the following example, the command-line arguments specify the creation of one additional thread, and both the main thread and the additional thread allocate 10000 blocks of memory. After the blocks of memory have been allocated, .BR malloc_info () shows the state of two allocation arenas. .P .in +4n .EX .RB "$ " "getconf GNU_LIBC_VERSION" glibc 2.13 .RB "$ " "./a.out 1 10000 100" ============ Before allocating blocks ============ \& ============ After allocating blocks ============ .EE .in .SS Program source .\" SRC BEGIN (malloc_info.c) .EX #include #include #include #include #include #include \& static size_t blockSize; static size_t numThreads; static unsigned int numBlocks; \& static void * thread_func(void *arg) { int tn = (int) arg; \& /* The multiplier \[aq](2 + tn)\[aq] ensures that each thread (including the main thread) allocates a different amount of memory. */ \& for (unsigned int j = 0; j < numBlocks; j++) if (malloc(blockSize * (2 + tn)) == NULL) err(EXIT_FAILURE, "malloc\-thread"); \& sleep(100); /* Sleep until main thread terminates. */ return NULL; } \& int main(int argc, char *argv[]) { int sleepTime; pthread_t *thr; \& if (argc < 4) { fprintf(stderr, "%s num\-threads num\-blocks block\-size [sleep\-time]\en", argv[0]); exit(EXIT_FAILURE); } \& numThreads = atoi(argv[1]); numBlocks = atoi(argv[2]); blockSize = atoi(argv[3]); sleepTime = (argc > 4) ? atoi(argv[4]) : 0; \& thr = calloc(numThreads, sizeof(*thr)); if (thr == NULL) err(EXIT_FAILURE, "calloc"); \& printf("============ Before allocating blocks ============\en"); malloc_info(0, stdout); \& /* Create threads that allocate different amounts of memory. */ \& for (size_t tn = 0; tn < numThreads; tn++) { errno = pthread_create(&thr[tn], NULL, thread_func, (void *) tn); if (errno != 0) err(EXIT_FAILURE, "pthread_create"); \& /* If we add a sleep interval after the start\-up of each thread, the threads likely won\[aq]t contend for malloc mutexes, and therefore additional arenas won\[aq]t be allocated (see malloc(3)). */ \& if (sleepTime > 0) sleep(sleepTime); } \& /* The main thread also allocates some memory. */ \& for (unsigned int j = 0; j < numBlocks; j++) if (malloc(blockSize) == NULL) err(EXIT_FAILURE, "malloc"); \& sleep(2); /* Give all threads a chance to complete allocations. */ \& printf("\en============ After allocating blocks ============\en"); malloc_info(0, stdout); \& exit(EXIT_SUCCESS); } .EE .\" SRC END .SH SEE ALSO .BR mallinfo (3), .BR malloc (3), .BR malloc_stats (3), .BR mallopt (3), .BR open_memstream (3)