Include bits/mathcalls.h for more _FloatN, _FloatNx types.
[glibc.git] / malloc / tst-mallocstate.c
blob53154ae58853c535e182b6307159911db778ca30
1 /* Emulate Emacs heap dumping to test malloc_set_state.
2 Copyright (C) 2001-2017 Free Software Foundation, Inc.
3 This file is part of the GNU C Library.
4 Contributed by Wolfram Gloger <wg@malloc.de>, 2001.
6 The GNU C Library is free software; you can redistribute it and/or
7 modify it under the terms of the GNU Lesser General Public
8 License as published by the Free Software Foundation; either
9 version 2.1 of the License, or (at your option) any later version.
11 The GNU C Library is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 Lesser General Public License for more details.
16 You should have received a copy of the GNU Lesser General Public
17 License along with the GNU C Library; if not, see
18 <http://www.gnu.org/licenses/>. */
20 #include <errno.h>
21 #include <stdbool.h>
22 #include <stdio.h>
23 #include <string.h>
24 #include <libc-symbols.h>
25 #include <shlib-compat.h>
26 #include <support/check.h>
27 #include <support/support.h>
28 #include <support/test-driver.h>
30 #include "malloc.h"
32 #if TEST_COMPAT (libc, GLIBC_2_0, GLIBC_2_25)
34 /* Make the compatibility symbols availabile to this test case. */
35 void *malloc_get_state (void);
36 compat_symbol_reference (libc, malloc_get_state, malloc_get_state, GLIBC_2_0);
37 int malloc_set_state (void *);
38 compat_symbol_reference (libc, malloc_set_state, malloc_set_state, GLIBC_2_0);
40 /* Maximum object size in the fake heap. */
41 enum { max_size = 64 };
43 /* Allocation actions. These are randomized actions executed on the
44 dumped heap (see allocation_tasks below). They are interspersed
45 with operations on the new heap (see heap_activity). */
46 enum allocation_action
48 action_free, /* Dumped and freed. */
49 action_realloc, /* Dumped and realloc'ed. */
50 action_realloc_same, /* Dumped and realloc'ed, same size. */
51 action_realloc_smaller, /* Dumped and realloc'ed, shrinked. */
52 action_count
55 /* Dumped heap. Initialize it, so that the object is placed into the
56 .data section, for increased realism. The size is an upper bound;
57 we use about half of the space. */
58 static size_t dumped_heap[action_count * max_size * max_size
59 / sizeof (size_t)] = {1};
61 /* Next free space in the dumped heap. Also top of the heap at the
62 end of the initialization procedure. */
63 static size_t *next_heap_chunk;
65 /* Copied from malloc.c and hooks.c. The version is deliberately
66 lower than the final version of malloc_set_state. */
67 # define NBINS 128
68 # define MALLOC_STATE_MAGIC 0x444c4541l
69 # define MALLOC_STATE_VERSION (0 * 0x100l + 4l)
70 static struct
72 long magic;
73 long version;
74 void *av[NBINS * 2 + 2];
75 char *sbrk_base;
76 int sbrked_mem_bytes;
77 unsigned long trim_threshold;
78 unsigned long top_pad;
79 unsigned int n_mmaps_max;
80 unsigned long mmap_threshold;
81 int check_action;
82 unsigned long max_sbrked_mem;
83 unsigned long max_total_mem;
84 unsigned int n_mmaps;
85 unsigned int max_n_mmaps;
86 unsigned long mmapped_mem;
87 unsigned long max_mmapped_mem;
88 int using_malloc_checking;
89 unsigned long max_fast;
90 unsigned long arena_test;
91 unsigned long arena_max;
92 unsigned long narenas;
93 } save_state =
95 .magic = MALLOC_STATE_MAGIC,
96 .version = MALLOC_STATE_VERSION,
99 /* Allocate a blob in the fake heap. */
100 static void *
101 dumped_heap_alloc (size_t length)
103 /* malloc needs three state bits in the size field, so the minimum
104 alignment is 8 even on 32-bit architectures. malloc_set_state
105 should be compatible with such heaps even if it currently
106 provides more alignment to applications. */
107 enum
109 heap_alignment = 8,
110 heap_alignment_mask = heap_alignment - 1
112 _Static_assert (sizeof (size_t) <= heap_alignment,
113 "size_t compatible with heap alignment");
115 /* Need at least this many bytes for metadata and application
116 data. */
117 size_t chunk_size = sizeof (size_t) + length;
118 /* Round up the allocation size to the heap alignment. */
119 chunk_size += heap_alignment_mask;
120 chunk_size &= ~heap_alignment_mask;
121 TEST_VERIFY_EXIT ((chunk_size & 3) == 0);
122 if (next_heap_chunk == NULL)
123 /* Initialize the top of the heap. Add one word of zero padding,
124 to match existing practice. */
126 dumped_heap[0] = 0;
127 next_heap_chunk = dumped_heap + 1;
129 else
130 /* The previous chunk is allocated. */
131 chunk_size |= 1;
132 *next_heap_chunk = chunk_size;
134 /* User data starts after the chunk header. */
135 void *result = next_heap_chunk + 1;
136 next_heap_chunk += chunk_size / sizeof (size_t);
138 /* Mark the previous chunk as used. */
139 *next_heap_chunk = 1;
140 return result;
143 /* Global seed variable for the random number generator. */
144 static unsigned long long global_seed;
146 /* Simple random number generator. The numbers are in the range from
147 0 to UINT_MAX (inclusive). */
148 static unsigned int
149 rand_next (unsigned long long *seed)
151 /* Linear congruential generated as used for MMIX. */
152 *seed = *seed * 6364136223846793005ULL + 1442695040888963407ULL;
153 return *seed >> 32;
156 /* Fill LENGTH bytes at BUFFER with random contents, as determined by
157 SEED. */
158 static void
159 randomize_buffer (unsigned char *buffer, size_t length,
160 unsigned long long seed)
162 for (size_t i = 0; i < length; ++i)
163 buffer[i] = rand_next (&seed);
166 /* Dumps the buffer to standard output, in hexadecimal. */
167 static void
168 dump_hex (unsigned char *buffer, size_t length)
170 for (int i = 0; i < length; ++i)
171 printf (" %02X", buffer[i]);
174 /* Set to true if an error is encountered. */
175 static bool errors = false;
177 /* Keep track of object allocations. */
178 struct allocation
180 unsigned char *data;
181 unsigned int size;
182 unsigned int seed;
185 /* Check that the allocation task allocation has the expected
186 contents. */
187 static void
188 check_allocation (const struct allocation *alloc, int index)
190 size_t size = alloc->size;
191 if (alloc->data == NULL)
193 printf ("error: NULL pointer for allocation of size %zu at %d, seed %u\n",
194 size, index, alloc->seed);
195 errors = true;
196 return;
199 unsigned char expected[4096];
200 if (size > sizeof (expected))
202 printf ("error: invalid allocation size %zu at %d, seed %u\n",
203 size, index, alloc->seed);
204 errors = true;
205 return;
207 randomize_buffer (expected, size, alloc->seed);
208 if (memcmp (alloc->data, expected, size) != 0)
210 printf ("error: allocation %d data mismatch, size %zu, seed %u\n",
211 index, size, alloc->seed);
212 printf (" expected:");
213 dump_hex (expected, size);
214 putc ('\n', stdout);
215 printf (" actual:");
216 dump_hex (alloc->data, size);
217 putc ('\n', stdout);
218 errors = true;
222 /* A heap allocation combined with pending actions on it. */
223 struct allocation_task
225 struct allocation allocation;
226 enum allocation_action action;
229 /* Allocation tasks. Initialized by init_allocation_tasks and used by
230 perform_allocations. */
231 enum { allocation_task_count = action_count * max_size };
232 static struct allocation_task allocation_tasks[allocation_task_count];
234 /* Fisher-Yates shuffle of allocation_tasks. */
235 static void
236 shuffle_allocation_tasks (void)
238 for (int i = 0; i < allocation_task_count - 1; ++i)
240 /* Pick pair in the tail of the array. */
241 int j = i + (rand_next (&global_seed)
242 % ((unsigned) (allocation_task_count - i)));
243 TEST_VERIFY_EXIT (j >= 0 && j < allocation_task_count);
244 /* Exchange. */
245 struct allocation_task tmp = allocation_tasks[i];
246 allocation_tasks[i] = allocation_tasks[j];
247 allocation_tasks[j] = tmp;
251 /* Set up the allocation tasks and the dumped heap. */
252 static void
253 initial_allocations (void)
255 /* Initialize in a position-dependent way. */
256 for (int i = 0; i < allocation_task_count; ++i)
257 allocation_tasks[i] = (struct allocation_task)
259 .allocation =
261 .size = 1 + (i / action_count),
262 .seed = i,
264 .action = i % action_count
267 /* Execute the tasks in a random order. */
268 shuffle_allocation_tasks ();
270 /* Initialize the contents of the dumped heap. */
271 for (int i = 0; i < allocation_task_count; ++i)
273 struct allocation_task *task = allocation_tasks + i;
274 task->allocation.data = dumped_heap_alloc (task->allocation.size);
275 randomize_buffer (task->allocation.data, task->allocation.size,
276 task->allocation.seed);
279 for (int i = 0; i < allocation_task_count; ++i)
280 check_allocation (&allocation_tasks[i].allocation, i);
283 /* Indicates whether init_heap has run. This variable needs to be
284 volatile because malloc is declared __THROW, which implies it is a
285 leaf function, but we expect it to run our hooks. */
286 static volatile bool heap_initialized;
288 /* Executed by glibc malloc, through __malloc_initialize_hook
289 below. */
290 static void
291 init_heap (void)
293 if (test_verbose)
294 printf ("info: performing heap initialization\n");
295 heap_initialized = true;
297 /* Populate the dumped heap. */
298 initial_allocations ();
300 /* Complete initialization of the saved heap data structure. */
301 save_state.sbrk_base = (void *) dumped_heap;
302 save_state.sbrked_mem_bytes = sizeof (dumped_heap);
303 /* Top pointer. Adjust so that it points to the start of struct
304 malloc_chunk. */
305 save_state.av[2] = (void *) (next_heap_chunk - 1);
307 /* Integrate the dumped heap into the process heap. */
308 TEST_VERIFY_EXIT (malloc_set_state (&save_state) == 0);
311 /* Interpose the initialization callback. */
312 void (*volatile __malloc_initialize_hook) (void) = init_heap;
314 /* Simulate occasional unrelated heap activity in the non-dumped
315 heap. */
316 enum { heap_activity_allocations_count = 32 };
317 static struct allocation heap_activity_allocations
318 [heap_activity_allocations_count] = {};
319 static int heap_activity_seed_counter = 1000 * 1000;
321 static void
322 heap_activity (void)
324 /* Only do this from time to time. */
325 if ((rand_next (&global_seed) % 4) == 0)
327 int slot = rand_next (&global_seed) % heap_activity_allocations_count;
328 struct allocation *alloc = heap_activity_allocations + slot;
329 if (alloc->data == NULL)
331 alloc->size = rand_next (&global_seed) % (4096U + 1);
332 alloc->data = xmalloc (alloc->size);
333 alloc->seed = heap_activity_seed_counter++;
334 randomize_buffer (alloc->data, alloc->size, alloc->seed);
335 check_allocation (alloc, 1000 + slot);
337 else
339 check_allocation (alloc, 1000 + slot);
340 free (alloc->data);
341 alloc->data = NULL;
346 static void
347 heap_activity_deallocate (void)
349 for (int i = 0; i < heap_activity_allocations_count; ++i)
350 free (heap_activity_allocations[i].data);
353 /* Perform a full heap check across the dumped heap allocation tasks,
354 and the simulated heap activity directly above. */
355 static void
356 full_heap_check (void)
358 /* Dumped heap. */
359 for (int i = 0; i < allocation_task_count; ++i)
360 if (allocation_tasks[i].allocation.data != NULL)
361 check_allocation (&allocation_tasks[i].allocation, i);
363 /* Heap activity allocations. */
364 for (int i = 0; i < heap_activity_allocations_count; ++i)
365 if (heap_activity_allocations[i].data != NULL)
366 check_allocation (heap_activity_allocations + i, i);
369 /* Used as an optimization barrier to force a heap allocation. */
370 __attribute__ ((noinline, noclone))
371 static void
372 my_free (void *ptr)
374 free (ptr);
377 static int
378 do_test (void)
380 my_free (malloc (1));
381 TEST_VERIFY_EXIT (heap_initialized);
383 /* The first pass performs the randomly generated allocation
384 tasks. */
385 if (test_verbose)
386 printf ("info: first pass through allocation tasks\n");
387 full_heap_check ();
389 /* Execute the post-undump tasks in a random order. */
390 shuffle_allocation_tasks ();
392 for (int i = 0; i < allocation_task_count; ++i)
394 heap_activity ();
395 struct allocation_task *task = allocation_tasks + i;
396 switch (task->action)
398 case action_free:
399 check_allocation (&task->allocation, i);
400 free (task->allocation.data);
401 task->allocation.data = NULL;
402 break;
404 case action_realloc:
405 check_allocation (&task->allocation, i);
406 task->allocation.data = xrealloc
407 (task->allocation.data, task->allocation.size + max_size);
408 check_allocation (&task->allocation, i);
409 break;
411 case action_realloc_same:
412 check_allocation (&task->allocation, i);
413 task->allocation.data = xrealloc
414 (task->allocation.data, task->allocation.size);
415 check_allocation (&task->allocation, i);
416 break;
418 case action_realloc_smaller:
419 check_allocation (&task->allocation, i);
420 size_t new_size = task->allocation.size - 1;
421 task->allocation.data = xrealloc (task->allocation.data, new_size);
422 if (new_size == 0)
424 if (task->allocation.data != NULL)
426 printf ("error: realloc with size zero did not deallocate\n");
427 errors = true;
429 /* No further action on this task. */
430 task->action = action_free;
432 else
434 task->allocation.size = new_size;
435 check_allocation (&task->allocation, i);
437 break;
439 case action_count:
440 FAIL_EXIT1 ("task->action should never be action_count");
442 full_heap_check ();
445 /* The second pass frees the objects which were allocated during the
446 first pass. */
447 if (test_verbose)
448 printf ("info: second pass through allocation tasks\n");
450 shuffle_allocation_tasks ();
451 for (int i = 0; i < allocation_task_count; ++i)
453 heap_activity ();
454 struct allocation_task *task = allocation_tasks + i;
455 switch (task->action)
457 case action_free:
458 /* Already freed, nothing to do. */
459 break;
461 case action_realloc:
462 case action_realloc_same:
463 case action_realloc_smaller:
464 check_allocation (&task->allocation, i);
465 free (task->allocation.data);
466 task->allocation.data = NULL;
467 break;
469 case action_count:
470 FAIL_EXIT1 ("task->action should never be action_count");
472 full_heap_check ();
475 heap_activity_deallocate ();
477 /* Check that the malloc_get_state stub behaves in the intended
478 way. */
479 errno = 0;
480 if (malloc_get_state () != NULL)
482 printf ("error: malloc_get_state succeeded\n");
483 errors = true;
485 if (errno != ENOSYS)
487 printf ("error: malloc_get_state: %m\n");
488 errors = true;
491 return errors;
493 #else
494 static int
495 do_test (void)
497 return 77;
499 #endif
501 #include <support/test-driver.c>