cdefs.h: fix "__clang_major" typo
[glibc.git] / malloc / memusage.c
blob6d71047154549f3769409a038adcbb0c663d2150
1 /* Profile heap and stack memory usage of running program.
2 Copyright (C) 1998-2023 Free Software Foundation, Inc.
3 This file is part of the GNU C Library.
5 The GNU C Library is free software; you can redistribute it and/or
6 modify it under the terms of the GNU Lesser General Public
7 License as published by the Free Software Foundation; either
8 version 2.1 of the License, or (at your option) any later version.
10 The GNU C Library is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 Lesser General Public License for more details.
15 You should have received a copy of the GNU Lesser General Public
16 License along with the GNU C Library; if not, see
17 <https://www.gnu.org/licenses/>. */
19 #include <assert.h>
20 #include <atomic.h>
21 #include <dlfcn.h>
22 #include <errno.h>
23 #include <fcntl.h>
24 #include <inttypes.h>
25 #include <signal.h>
26 #include <stdarg.h>
27 #include <stdbool.h>
28 #include <stdio.h>
29 #include <stdlib.h>
30 #include <string.h>
31 #include <unistd.h>
32 #include <stdint.h>
33 #include <sys/mman.h>
34 #include <sys/time.h>
36 #include <hp-timing.h>
37 #include <machine-sp.h>
38 #include <stackinfo.h> /* For _STACK_GROWS_UP */
40 /* Pointer to the real functions. These are determined used `dlsym'
41 when really needed. */
42 static void *(*mallocp)(size_t);
43 static void *(*reallocp) (void *, size_t);
44 static void *(*callocp) (size_t, size_t);
45 static void (*freep) (void *);
47 static void *(*mmapp) (void *, size_t, int, int, int, off_t);
48 static void *(*mmap64p) (void *, size_t, int, int, int, off64_t);
49 static int (*munmapp) (void *, size_t);
50 static void *(*mremapp) (void *, size_t, size_t, int, void *);
52 enum
54 idx_malloc = 0,
55 idx_realloc,
56 idx_calloc,
57 idx_free,
58 idx_mmap_r,
59 idx_mmap_w,
60 idx_mmap_a,
61 idx_mremap,
62 idx_munmap,
63 idx_last
67 struct header
69 size_t length;
70 size_t magic;
73 #define MAGIC 0xfeedbeaf
76 static unsigned long int calls[idx_last];
77 static unsigned long int failed[idx_last];
78 static size_t total[idx_last];
79 static size_t grand_total;
80 static unsigned long int histogram[65536 / 16];
81 static unsigned long int large;
82 static unsigned long int calls_total;
83 static unsigned long int inplace;
84 static unsigned long int decreasing;
85 static unsigned long int realloc_free;
86 static unsigned long int inplace_mremap;
87 static unsigned long int decreasing_mremap;
88 static size_t current_heap;
89 static size_t peak_use[3];
90 static __thread uintptr_t start_sp;
92 /* A few macros to make the source more readable. */
93 #define peak_heap peak_use[0]
94 #define peak_stack peak_use[1]
95 #define peak_total peak_use[2]
97 #define DEFAULT_BUFFER_SIZE 32768
98 static size_t buffer_size;
100 static int fd = -1;
102 static bool not_me;
103 static int initialized;
104 static bool trace_mmap;
105 extern const char *__progname;
107 struct entry
109 uint64_t heap;
110 uint64_t stack;
111 uint32_t time_low;
112 uint32_t time_high;
115 static struct entry buffer[2 * DEFAULT_BUFFER_SIZE];
116 static uint32_t buffer_cnt;
117 static struct entry first;
119 static void
120 gettime (struct entry *e)
122 #if HP_TIMING_INLINE
123 hp_timing_t now;
124 HP_TIMING_NOW (now);
125 e->time_low = now & 0xffffffff;
126 e->time_high = now >> 32;
127 #else
128 struct __timespec64 now;
129 uint64_t usecs;
130 __clock_gettime64 (CLOCK_REALTIME, &now);
131 usecs = (uint64_t)now.tv_nsec / 1000 + (uint64_t)now.tv_sec * 1000000;
132 e->time_low = usecs & 0xffffffff;
133 e->time_high = usecs >> 32;
134 #endif
137 /* Update the global data after a successful function call. */
138 static void
139 update_data (struct header *result, size_t len, size_t old_len)
141 if (result != NULL)
143 /* Record the information we need and mark the block using a
144 magic number. */
145 result->length = len;
146 result->magic = MAGIC;
149 /* Compute current heap usage and compare it with the maximum value. */
150 size_t heap
151 = catomic_exchange_and_add (&current_heap, len - old_len) + len - old_len;
152 catomic_max (&peak_heap, heap);
154 /* Compute current stack usage and compare it with the maximum
155 value. The base stack pointer might not be set if this is not
156 the main thread and it is the first call to any of these
157 functions. */
158 if (__glibc_unlikely (!start_sp))
159 start_sp = __thread_stack_pointer ();
161 uintptr_t sp = __thread_stack_pointer ();
162 #ifdef _STACK_GROWS_UP
163 /* This can happen in threads where we didn't catch the thread's
164 stack early enough. */
165 if (__glibc_unlikely (sp < start_sp))
166 start_sp = sp;
167 size_t current_stack = sp - start_sp;
168 #else
169 /* This can happen in threads where we didn't catch the thread's
170 stack early enough. */
171 if (__glibc_unlikely (sp > start_sp))
172 start_sp = sp;
173 size_t current_stack = start_sp - sp;
174 #endif
175 catomic_max (&peak_stack, current_stack);
177 /* Add up heap and stack usage and compare it with the maximum value. */
178 catomic_max (&peak_total, heap + current_stack);
180 /* Store the value only if we are writing to a file. */
181 if (fd != -1)
183 uint32_t idx = catomic_exchange_and_add (&buffer_cnt, 1);
184 if (idx + 1 >= 2 * buffer_size)
186 /* We try to reset the counter to the correct range. If
187 this fails because of another thread increasing the
188 counter it does not matter since that thread will take
189 care of the correction. */
190 uint32_t reset = (idx + 1) % (2 * buffer_size);
191 catomic_compare_and_exchange_val_acq (&buffer_cnt, reset, idx + 1);
192 if (idx >= 2 * buffer_size)
193 idx = reset - 1;
195 assert (idx < 2 * DEFAULT_BUFFER_SIZE);
197 buffer[idx].heap = current_heap;
198 buffer[idx].stack = current_stack;
199 gettime (&buffer[idx]);
201 /* Write out buffer if it is full. */
202 if (idx + 1 == buffer_size)
203 write (fd, buffer, buffer_size * sizeof (struct entry));
204 else if (idx + 1 == 2 * buffer_size)
205 write (fd, &buffer[buffer_size], buffer_size * sizeof (struct entry));
210 /* Interrupt handler. */
211 static void
212 int_handler (int signo)
214 /* Nothing gets allocated. Just record the stack pointer position. */
215 update_data (NULL, 0, 0);
219 /* Find out whether this is the program we are supposed to profile.
220 For this the name in the variable `__progname' must match the one
221 given in the environment variable MEMUSAGE_PROG_NAME. If the variable
222 is not present every program assumes it should be profiling.
224 If this is the program open a file descriptor to the output file.
225 We will write to it whenever the buffer overflows. The name of the
226 output file is determined by the environment variable MEMUSAGE_OUTPUT.
228 If the environment variable MEMUSAGE_BUFFER_SIZE is set its numerical
229 value determines the size of the internal buffer. The number gives
230 the number of elements in the buffer. By setting the number to one
231 one effectively selects unbuffered operation.
233 If MEMUSAGE_NO_TIMER is not present an alarm handler is installed
234 which at the highest possible frequency records the stack pointer. */
235 static void
236 me (void)
238 const char *env = getenv ("MEMUSAGE_PROG_NAME");
239 size_t prog_len = strlen (__progname);
241 initialized = -1;
242 mallocp = (void *(*)(size_t))dlsym (RTLD_NEXT, "malloc");
243 reallocp = (void *(*)(void *, size_t))dlsym (RTLD_NEXT, "realloc");
244 callocp = (void *(*)(size_t, size_t))dlsym (RTLD_NEXT, "calloc");
245 freep = (void (*)(void *))dlsym (RTLD_NEXT, "free");
247 mmapp = (void *(*)(void *, size_t, int, int, int, off_t))dlsym (RTLD_NEXT,
248 "mmap");
249 mmap64p =
250 (void *(*)(void *, size_t, int, int, int, off64_t))dlsym (RTLD_NEXT,
251 "mmap64");
252 mremapp = (void *(*)(void *, size_t, size_t, int, void *))dlsym (RTLD_NEXT,
253 "mremap");
254 munmapp = (int (*)(void *, size_t))dlsym (RTLD_NEXT, "munmap");
255 initialized = 1;
257 if (env != NULL)
259 /* Check for program name. */
260 size_t len = strlen (env);
261 if (len > prog_len || strcmp (env, &__progname[prog_len - len]) != 0
262 || (prog_len != len && __progname[prog_len - len - 1] != '/'))
263 not_me = true;
266 /* Only open the file if it's really us. */
267 if (!not_me && fd == -1)
269 const char *outname;
271 if (!start_sp)
272 start_sp = __thread_stack_pointer ();
274 outname = getenv ("MEMUSAGE_OUTPUT");
275 if (outname != NULL && outname[0] != '\0'
276 && (access (outname, R_OK | W_OK) == 0 || errno == ENOENT))
278 fd = creat64 (outname, 0666);
280 if (fd == -1)
281 /* Don't do anything in future calls if we cannot write to
282 the output file. */
283 not_me = true;
284 else
286 /* Write the first entry. */
287 first.heap = 0;
288 first.stack = 0;
289 gettime (&first);
290 /* Write it two times since we need the starting and end time. */
291 write (fd, &first, sizeof (first));
292 write (fd, &first, sizeof (first));
294 /* Determine the buffer size. We use the default if the
295 environment variable is not present. */
296 buffer_size = DEFAULT_BUFFER_SIZE;
297 const char *str_buffer_size = getenv ("MEMUSAGE_BUFFER_SIZE");
298 if (str_buffer_size != NULL)
300 buffer_size = atoi (str_buffer_size);
301 if (buffer_size == 0 || buffer_size > DEFAULT_BUFFER_SIZE)
302 buffer_size = DEFAULT_BUFFER_SIZE;
305 /* Possibly enable timer-based stack pointer retrieval. */
306 if (getenv ("MEMUSAGE_NO_TIMER") == NULL)
308 struct sigaction act;
310 act.sa_handler = (sighandler_t) &int_handler;
311 act.sa_flags = SA_RESTART;
312 sigfillset (&act.sa_mask);
314 if (sigaction (SIGPROF, &act, NULL) >= 0)
316 struct itimerval timer;
318 timer.it_value.tv_sec = 0;
319 timer.it_value.tv_usec = 1;
320 timer.it_interval = timer.it_value;
321 setitimer (ITIMER_PROF, &timer, NULL);
327 if (!not_me && getenv ("MEMUSAGE_TRACE_MMAP") != NULL)
328 trace_mmap = true;
333 /* Record the initial stack position. */
334 static void
335 __attribute__ ((constructor))
336 init (void)
338 start_sp = __thread_stack_pointer ();
339 if (!initialized)
340 me ();
344 /* `malloc' replacement. We keep track of the memory usage if this is the
345 correct program. */
346 void *
347 malloc (size_t len)
349 struct header *result = NULL;
351 /* Determine real implementation if not already happened. */
352 if (__glibc_unlikely (initialized <= 0))
354 if (initialized == -1)
355 return NULL;
357 me ();
360 /* If this is not the correct program just use the normal function. */
361 if (not_me)
362 return (*mallocp)(len);
364 /* Keep track of number of calls. */
365 catomic_increment (&calls[idx_malloc]);
366 /* Keep track of total memory consumption for `malloc'. */
367 catomic_add (&total[idx_malloc], len);
368 /* Keep track of total memory requirement. */
369 catomic_add (&grand_total, len);
370 /* Remember the size of the request. */
371 if (len < 65536)
372 catomic_increment (&histogram[len / 16]);
373 else
374 catomic_increment (&large);
375 /* Total number of calls of any of the functions. */
376 catomic_increment (&calls_total);
378 /* Do the real work. */
379 result = (struct header *) (*mallocp)(len + sizeof (struct header));
380 if (result == NULL)
382 catomic_increment (&failed[idx_malloc]);
383 return NULL;
386 /* Update the allocation data and write out the records if necessary. */
387 update_data (result, len, 0);
389 /* Return the pointer to the user buffer. */
390 return (void *) (result + 1);
394 /* `realloc' replacement. We keep track of the memory usage if this is the
395 correct program. */
396 void *
397 realloc (void *old, size_t len)
399 struct header *result = NULL;
400 struct header *real;
401 size_t old_len;
403 /* Determine real implementation if not already happened. */
404 if (__glibc_unlikely (initialized <= 0))
406 if (initialized == -1)
407 return NULL;
409 me ();
412 /* If this is not the correct program just use the normal function. */
413 if (not_me)
414 return (*reallocp)(old, len);
416 if (old == NULL)
418 /* This is really a `malloc' call. */
419 real = NULL;
420 old_len = 0;
422 else
424 real = ((struct header *) old) - 1;
425 if (real->magic != MAGIC)
426 /* This is no memory allocated here. */
427 return (*reallocp)(old, len);
429 old_len = real->length;
432 /* Keep track of number of calls. */
433 catomic_increment (&calls[idx_realloc]);
434 if (len > old_len)
436 /* Keep track of total memory consumption for `realloc'. */
437 catomic_add (&total[idx_realloc], len - old_len);
438 /* Keep track of total memory requirement. */
439 catomic_add (&grand_total, len - old_len);
442 if (len == 0 && old != NULL)
444 /* Special case. */
445 catomic_increment (&realloc_free);
446 /* Keep track of total memory freed using `free'. */
447 catomic_add (&total[idx_free], real->length);
449 /* Update the allocation data and write out the records if necessary. */
450 update_data (NULL, 0, old_len);
452 /* Do the real work. */
453 (*freep) (real);
455 return NULL;
458 /* Remember the size of the request. */
459 if (len < 65536)
460 catomic_increment (&histogram[len / 16]);
461 else
462 catomic_increment (&large);
463 /* Total number of calls of any of the functions. */
464 catomic_increment (&calls_total);
466 /* Do the real work. */
467 result = (struct header *) (*reallocp)(real, len + sizeof (struct header));
468 if (result == NULL)
470 catomic_increment (&failed[idx_realloc]);
471 return NULL;
474 /* Record whether the reduction/increase happened in place. */
475 if (real == result)
476 catomic_increment (&inplace);
477 /* Was the buffer increased? */
478 if (old_len > len)
479 catomic_increment (&decreasing);
481 /* Update the allocation data and write out the records if necessary. */
482 update_data (result, len, old_len);
484 /* Return the pointer to the user buffer. */
485 return (void *) (result + 1);
489 /* `calloc' replacement. We keep track of the memory usage if this is the
490 correct program. */
491 void *
492 calloc (size_t n, size_t len)
494 struct header *result;
495 size_t size = n * len;
497 /* Determine real implementation if not already happened. */
498 if (__glibc_unlikely (initialized <= 0))
500 if (initialized == -1)
501 return NULL;
503 me ();
506 /* If this is not the correct program just use the normal function. */
507 if (not_me)
508 return (*callocp)(n, len);
510 /* Keep track of number of calls. */
511 catomic_increment (&calls[idx_calloc]);
512 /* Keep track of total memory consumption for `calloc'. */
513 catomic_add (&total[idx_calloc], size);
514 /* Keep track of total memory requirement. */
515 catomic_add (&grand_total, size);
516 /* Remember the size of the request. */
517 if (size < 65536)
518 catomic_increment (&histogram[size / 16]);
519 else
520 catomic_increment (&large);
521 /* Total number of calls of any of the functions. */
522 ++calls_total;
524 /* Do the real work. */
525 result = (struct header *) (*mallocp)(size + sizeof (struct header));
526 if (result == NULL)
528 catomic_increment (&failed[idx_calloc]);
529 return NULL;
532 /* Update the allocation data and write out the records if necessary. */
533 update_data (result, size, 0);
535 /* Do what `calloc' would have done and return the buffer to the caller. */
536 return memset (result + 1, '\0', size);
540 /* `free' replacement. We keep track of the memory usage if this is the
541 correct program. */
542 void
543 free (void *ptr)
545 struct header *real;
547 /* Determine real implementation if not already happened. */
548 if (__glibc_unlikely (initialized <= 0))
550 if (initialized == -1)
551 return;
553 me ();
556 /* If this is not the correct program just use the normal function. */
557 if (not_me)
559 (*freep) (ptr);
560 return;
563 /* `free (NULL)' has no effect. */
564 if (ptr == NULL)
566 catomic_increment (&calls[idx_free]);
567 return;
570 /* Determine the pointer to the header. */
571 real = ((struct header *) ptr) - 1;
572 if (real->magic != MAGIC)
574 /* This block wasn't allocated here. */
575 (*freep) (ptr);
576 return;
579 /* Keep track of number of calls. */
580 catomic_increment (&calls[idx_free]);
581 /* Keep track of total memory freed using `free'. */
582 catomic_add (&total[idx_free], real->length);
584 /* Update the allocation data and write out the records if necessary. */
585 update_data (NULL, 0, real->length);
587 /* Do the real work. */
588 (*freep) (real);
592 /* `mmap' replacement. We do not have to keep track of the size since
593 `munmap' will get it as a parameter. */
594 void *
595 mmap (void *start, size_t len, int prot, int flags, int fd, off_t offset)
597 void *result = NULL;
599 /* Determine real implementation if not already happened. */
600 if (__glibc_unlikely (initialized <= 0))
602 if (initialized == -1)
603 return NULL;
605 me ();
608 /* Always get a block. We don't need extra memory. */
609 result = (*mmapp)(start, len, prot, flags, fd, offset);
611 if (!not_me && trace_mmap)
613 int idx = (flags & MAP_ANON
614 ? idx_mmap_a : prot & PROT_WRITE ? idx_mmap_w : idx_mmap_r);
616 /* Keep track of number of calls. */
617 catomic_increment (&calls[idx]);
618 /* Keep track of total memory consumption for `malloc'. */
619 catomic_add (&total[idx], len);
620 /* Keep track of total memory requirement. */
621 catomic_add (&grand_total, len);
622 /* Remember the size of the request. */
623 if (len < 65536)
624 catomic_increment (&histogram[len / 16]);
625 else
626 catomic_increment (&large);
627 /* Total number of calls of any of the functions. */
628 catomic_increment (&calls_total);
630 /* Check for failures. */
631 if (result == NULL)
632 catomic_increment (&failed[idx]);
633 else if (idx == idx_mmap_w)
634 /* Update the allocation data and write out the records if
635 necessary. Note the first parameter is NULL which means
636 the size is not tracked. */
637 update_data (NULL, len, 0);
640 /* Return the pointer to the user buffer. */
641 return result;
645 /* `mmap64' replacement. We do not have to keep track of the size since
646 `munmap' will get it as a parameter. */
647 void *
648 mmap64 (void *start, size_t len, int prot, int flags, int fd, off64_t offset)
650 void *result = NULL;
652 /* Determine real implementation if not already happened. */
653 if (__glibc_unlikely (initialized <= 0))
655 if (initialized == -1)
656 return NULL;
658 me ();
661 /* Always get a block. We don't need extra memory. */
662 result = (*mmap64p)(start, len, prot, flags, fd, offset);
664 if (!not_me && trace_mmap)
666 int idx = (flags & MAP_ANON
667 ? idx_mmap_a : prot & PROT_WRITE ? idx_mmap_w : idx_mmap_r);
669 /* Keep track of number of calls. */
670 catomic_increment (&calls[idx]);
671 /* Keep track of total memory consumption for `malloc'. */
672 catomic_add (&total[idx], len);
673 /* Keep track of total memory requirement. */
674 catomic_add (&grand_total, len);
675 /* Remember the size of the request. */
676 if (len < 65536)
677 catomic_increment (&histogram[len / 16]);
678 else
679 catomic_increment (&large);
680 /* Total number of calls of any of the functions. */
681 catomic_increment (&calls_total);
683 /* Check for failures. */
684 if (result == NULL)
685 catomic_increment (&failed[idx]);
686 else if (idx == idx_mmap_w)
687 /* Update the allocation data and write out the records if
688 necessary. Note the first parameter is NULL which means
689 the size is not tracked. */
690 update_data (NULL, len, 0);
693 /* Return the pointer to the user buffer. */
694 return result;
698 /* `mremap' replacement. We do not have to keep track of the size since
699 `munmap' will get it as a parameter. */
700 void *
701 mremap (void *start, size_t old_len, size_t len, int flags, ...)
703 void *result = NULL;
704 va_list ap;
706 va_start (ap, flags);
707 void *newaddr = (flags & MREMAP_FIXED) ? va_arg (ap, void *) : NULL;
708 va_end (ap);
710 /* Determine real implementation if not already happened. */
711 if (__glibc_unlikely (initialized <= 0))
713 if (initialized == -1)
714 return NULL;
716 me ();
719 /* Always get a block. We don't need extra memory. */
720 result = (*mremapp)(start, old_len, len, flags, newaddr);
722 if (!not_me && trace_mmap)
724 /* Keep track of number of calls. */
725 catomic_increment (&calls[idx_mremap]);
726 if (len > old_len)
728 /* Keep track of total memory consumption for `malloc'. */
729 catomic_add (&total[idx_mremap], len - old_len);
730 /* Keep track of total memory requirement. */
731 catomic_add (&grand_total, len - old_len);
733 /* Remember the size of the request. */
734 if (len < 65536)
735 catomic_increment (&histogram[len / 16]);
736 else
737 catomic_increment (&large);
738 /* Total number of calls of any of the functions. */
739 catomic_increment (&calls_total);
741 /* Check for failures. */
742 if (result == NULL)
743 catomic_increment (&failed[idx_mremap]);
744 else
746 /* Record whether the reduction/increase happened in place. */
747 if (start == result)
748 catomic_increment (&inplace_mremap);
749 /* Was the buffer increased? */
750 if (old_len > len)
751 catomic_increment (&decreasing_mremap);
753 /* Update the allocation data and write out the records if
754 necessary. Note the first parameter is NULL which means
755 the size is not tracked. */
756 update_data (NULL, len, old_len);
760 /* Return the pointer to the user buffer. */
761 return result;
765 /* `munmap' replacement. */
767 munmap (void *start, size_t len)
769 int result;
771 /* Determine real implementation if not already happened. */
772 if (__glibc_unlikely (initialized <= 0))
774 if (initialized == -1)
775 return -1;
777 me ();
780 /* Do the real work. */
781 result = (*munmapp)(start, len);
783 if (!not_me && trace_mmap)
785 /* Keep track of number of calls. */
786 catomic_increment (&calls[idx_munmap]);
788 if (__glibc_likely (result == 0))
790 /* Keep track of total memory freed using `free'. */
791 catomic_add (&total[idx_munmap], len);
793 /* Update the allocation data and write out the records if
794 necessary. */
795 update_data (NULL, 0, len);
797 else
798 catomic_increment (&failed[idx_munmap]);
801 return result;
805 /* Write some statistics to standard error. */
806 static void
807 __attribute__ ((destructor))
808 dest (void)
810 int percent, cnt;
811 unsigned long int maxcalls;
813 /* If we haven't done anything here just return. */
814 if (not_me)
815 return;
817 /* If we should call any of the memory functions don't do any profiling. */
818 not_me = true;
820 /* Finish the output file. */
821 if (fd != -1)
823 /* Write the partially filled buffer. */
824 if (buffer_cnt > buffer_size)
825 write (fd, buffer + buffer_size,
826 (buffer_cnt - buffer_size) * sizeof (struct entry));
827 else
828 write (fd, buffer, buffer_cnt * sizeof (struct entry));
830 /* Go back to the beginning of the file. We allocated two records
831 here when we opened the file. */
832 lseek (fd, 0, SEEK_SET);
833 /* Write out a record containing the total size. */
834 first.stack = peak_total;
835 write (fd, &first, sizeof (struct entry));
836 /* Write out another record containing the maximum for heap and
837 stack. */
838 first.heap = peak_heap;
839 first.stack = peak_stack;
840 gettime (&first);
841 write (fd, &first, sizeof (struct entry));
843 /* Close the file. */
844 close (fd);
845 fd = -1;
848 /* Write a colorful statistic. */
849 fprintf (stderr, "\n\
850 \e[01;32mMemory usage summary:\e[0;0m heap total: %llu, heap peak: %lu, stack peak: %lu\n\
851 \e[04;34m total calls total memory failed calls\e[0m\n\
852 \e[00;34m malloc|\e[0m %10lu %12llu %s%12lu\e[00;00m\n\
853 \e[00;34mrealloc|\e[0m %10lu %12llu %s%12lu\e[00;00m (nomove:%ld, dec:%ld, free:%ld)\n\
854 \e[00;34m calloc|\e[0m %10lu %12llu %s%12lu\e[00;00m\n\
855 \e[00;34m free|\e[0m %10lu %12llu\n",
856 (unsigned long long int) grand_total, (unsigned long int) peak_heap,
857 (unsigned long int) peak_stack,
858 (unsigned long int) calls[idx_malloc],
859 (unsigned long long int) total[idx_malloc],
860 failed[idx_malloc] ? "\e[01;41m" : "",
861 (unsigned long int) failed[idx_malloc],
862 (unsigned long int) calls[idx_realloc],
863 (unsigned long long int) total[idx_realloc],
864 failed[idx_realloc] ? "\e[01;41m" : "",
865 (unsigned long int) failed[idx_realloc],
866 (unsigned long int) inplace,
867 (unsigned long int) decreasing,
868 (unsigned long int) realloc_free,
869 (unsigned long int) calls[idx_calloc],
870 (unsigned long long int) total[idx_calloc],
871 failed[idx_calloc] ? "\e[01;41m" : "",
872 (unsigned long int) failed[idx_calloc],
873 (unsigned long int) calls[idx_free],
874 (unsigned long long int) total[idx_free]);
876 if (trace_mmap)
877 fprintf (stderr, "\
878 \e[00;34mmmap(r)|\e[0m %10lu %12llu %s%12lu\e[00;00m\n\
879 \e[00;34mmmap(w)|\e[0m %10lu %12llu %s%12lu\e[00;00m\n\
880 \e[00;34mmmap(a)|\e[0m %10lu %12llu %s%12lu\e[00;00m\n\
881 \e[00;34m mremap|\e[0m %10lu %12llu %s%12lu\e[00;00m (nomove: %ld, dec:%ld)\n\
882 \e[00;34m munmap|\e[0m %10lu %12llu %s%12lu\e[00;00m\n",
883 (unsigned long int) calls[idx_mmap_r],
884 (unsigned long long int) total[idx_mmap_r],
885 failed[idx_mmap_r] ? "\e[01;41m" : "",
886 (unsigned long int) failed[idx_mmap_r],
887 (unsigned long int) calls[idx_mmap_w],
888 (unsigned long long int) total[idx_mmap_w],
889 failed[idx_mmap_w] ? "\e[01;41m" : "",
890 (unsigned long int) failed[idx_mmap_w],
891 (unsigned long int) calls[idx_mmap_a],
892 (unsigned long long int) total[idx_mmap_a],
893 failed[idx_mmap_a] ? "\e[01;41m" : "",
894 (unsigned long int) failed[idx_mmap_a],
895 (unsigned long int) calls[idx_mremap],
896 (unsigned long long int) total[idx_mremap],
897 failed[idx_mremap] ? "\e[01;41m" : "",
898 (unsigned long int) failed[idx_mremap],
899 (unsigned long int) inplace_mremap,
900 (unsigned long int) decreasing_mremap,
901 (unsigned long int) calls[idx_munmap],
902 (unsigned long long int) total[idx_munmap],
903 failed[idx_munmap] ? "\e[01;41m" : "",
904 (unsigned long int) failed[idx_munmap]);
906 /* Write out a histoogram of the sizes of the allocations. */
907 fprintf (stderr, "\e[01;32mHistogram for block sizes:\e[0;0m\n");
909 /* Determine the maximum of all calls for each size range. */
910 maxcalls = large;
911 for (cnt = 0; cnt < 65536; cnt += 16)
912 if (histogram[cnt / 16] > maxcalls)
913 maxcalls = histogram[cnt / 16];
915 for (cnt = 0; cnt < 65536; cnt += 16)
916 /* Only write out the nonzero entries. */
917 if (histogram[cnt / 16] != 0)
919 percent = (histogram[cnt / 16] * 100) / calls_total;
920 fprintf (stderr, "%5d-%-5d%12lu ", cnt, cnt + 15,
921 (unsigned long int) histogram[cnt / 16]);
922 if (percent == 0)
923 fputs (" <1% \e[41;37m", stderr);
924 else
925 fprintf (stderr, "%3d%% \e[41;37m", percent);
927 /* Draw a bar with a length corresponding to the current
928 percentage. */
929 percent = (histogram[cnt / 16] * 50) / maxcalls;
930 while (percent-- > 0)
931 fputc ('=', stderr);
932 fputs ("\e[0;0m\n", stderr);
935 if (large != 0)
937 percent = (large * 100) / calls_total;
938 fprintf (stderr, " large %12lu ", (unsigned long int) large);
939 if (percent == 0)
940 fputs (" <1% \e[41;37m", stderr);
941 else
942 fprintf (stderr, "%3d%% \e[41;37m", percent);
943 percent = (large * 50) / maxcalls;
944 while (percent-- > 0)
945 fputc ('=', stderr);
946 fputs ("\e[0;0m\n", stderr);
949 /* Any following malloc/free etc. calls should generate statistics again,
950 because otherwise freeing something that has been malloced before
951 this destructor (including struct header in front of it) wouldn't
952 be properly freed. */
953 not_me = false;