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server-skynet-source-3rd-je.../test/unit/junk.c
David Goldblatt 79f1ee2fc0 Move junking out of arena/tcache code. 
This is debug only and we keep it off the fast path.  Moving it here simplifies
the internal logic.

This never tries to junk on regions that were shrunk via xallocx.  I think this
is fine for two reasons:
- The shrunk-with-xallocx case is rare.
- We don't always do that anyway before this diff (it depends on the opt
  settings and extent hooks in effect).
2020-03-12 11:54:19 -07:00

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#include "test/jemalloc_test.h"
#define arraylen(arr) (sizeof(arr)/sizeof(arr[0]))
static size_t ptr_ind;
static void *volatile ptrs[100];
static void *last_junked_ptr;
static size_t last_junked_usize;
static void
reset() {
ptr_ind = 0;
last_junked_ptr = NULL;
last_junked_usize = 0;
}
static void
test_junk(void *ptr, size_t usize) {
last_junked_ptr = ptr;
last_junked_usize = usize;
}
static void
do_allocs(size_t size, bool zero, size_t lg_align) {
#define JUNK_ALLOC(...) \
do { \
assert(ptr_ind + 1 < arraylen(ptrs)); \
void *ptr = __VA_ARGS__; \
assert_ptr_not_null(ptr, ""); \
ptrs[ptr_ind++] = ptr; \
if (opt_junk_alloc && !zero) { \
expect_ptr_eq(ptr, last_junked_ptr, ""); \
expect_zu_eq(last_junked_usize, \
malloc_usable_size(ptr), ""); \
} \
} while (0)
if (!zero && lg_align == 0) {
JUNK_ALLOC(malloc(size));
}
if (!zero) {
JUNK_ALLOC(aligned_alloc(1 << lg_align, size));
}
#ifdef JEMALLOC_OVERRIDE_MEMALIGN
if (!zero) {
JUNK_ALLOC(je_memalign(1 << lg_align, size));
}
#endif
#ifdef JEMALLOC_OVERRIDE_VALLOC
if (!zero && lg_align == LG_PAGE) {
JUNK_ALLOC(je_valloc(size));
}
#endif
int zero_flag = zero ? MALLOCX_ZERO : 0;
JUNK_ALLOC(mallocx(size, zero_flag | MALLOCX_LG_ALIGN(lg_align)));
JUNK_ALLOC(mallocx(size, zero_flag | MALLOCX_LG_ALIGN(lg_align)
| MALLOCX_TCACHE_NONE));
if (lg_align >= LG_SIZEOF_PTR) {
void *memalign_result;
int err = posix_memalign(&memalign_result, (1 << lg_align),
size);
assert_d_eq(err, 0, "");
JUNK_ALLOC(memalign_result);
}
}
TEST_BEGIN(test_junk_alloc_free) {
bool zerovals[] = {false, true};
size_t sizevals[] = {
1, 8, 100, 1000, 100*1000
/*
* Memory allocation failure is a real possibility in 32-bit mode.
* Rather than try to check in the face of resource exhaustion, we just
* rely more on the 64-bit tests. This is a little bit white-box-y in
* the sense that this is only a good test strategy if we know that the
* junk pathways don't touch interact with the allocation selection
* mechanisms; but this is in fact the case.
*/
#if LG_SIZEOF_PTR == 3
, 10 * 1000 * 1000
#endif
};
size_t lg_alignvals[] = {
0, 4, 10, 15, 16, LG_PAGE
#if LG_SIZEOF_PTR == 3
, 20, 24
#endif
};
#define JUNK_FREE(...) \
do { \
do_allocs(size, zero, lg_align); \
for (size_t n = 0; n < ptr_ind; n++) { \
void *ptr = ptrs[n]; \
__VA_ARGS__; \
if (opt_junk_free) { \
assert_ptr_eq(ptr, last_junked_ptr, \
""); \
assert_zu_eq(usize, last_junked_usize, \
""); \
} \
reset(); \
} \
} while (0)
for (size_t i = 0; i < arraylen(zerovals); i++) {
for (size_t j = 0; j < arraylen(sizevals); j++) {
for (size_t k = 0; k < arraylen(lg_alignvals); k++) {
bool zero = zerovals[i];
size_t size = sizevals[j];
size_t lg_align = lg_alignvals[k];
size_t usize = nallocx(size,
MALLOCX_LG_ALIGN(lg_align));
JUNK_FREE(free(ptr));
JUNK_FREE(dallocx(ptr, 0));
JUNK_FREE(dallocx(ptr, MALLOCX_TCACHE_NONE));
JUNK_FREE(dallocx(ptr, MALLOCX_LG_ALIGN(
lg_align)));
JUNK_FREE(sdallocx(ptr, usize, MALLOCX_LG_ALIGN(
lg_align)));
JUNK_FREE(sdallocx(ptr, usize,
MALLOCX_TCACHE_NONE | MALLOCX_LG_ALIGN(lg_align)));
if (opt_zero_realloc_action
== zero_realloc_action_free) {
JUNK_FREE(realloc(ptr, 0));
}
}
}
}
}
TEST_END
TEST_BEGIN(test_realloc_expand) {
char *volatile ptr;
char *volatile expanded;
test_skip_if(!opt_junk_alloc);
/* Realloc */
ptr = malloc(SC_SMALL_MAXCLASS);
expanded = realloc(ptr, SC_LARGE_MINCLASS);
expect_ptr_eq(last_junked_ptr, &expanded[SC_SMALL_MAXCLASS], "");
expect_zu_eq(last_junked_usize,
SC_LARGE_MINCLASS - SC_SMALL_MAXCLASS, "");
free(expanded);
/* rallocx(..., 0) */
ptr = malloc(SC_SMALL_MAXCLASS);
expanded = rallocx(ptr, SC_LARGE_MINCLASS, 0);
expect_ptr_eq(last_junked_ptr, &expanded[SC_SMALL_MAXCLASS], "");
expect_zu_eq(last_junked_usize,
SC_LARGE_MINCLASS - SC_SMALL_MAXCLASS, "");
free(expanded);
/* rallocx(..., nonzero) */
ptr = malloc(SC_SMALL_MAXCLASS);
expanded = rallocx(ptr, SC_LARGE_MINCLASS, MALLOCX_TCACHE_NONE);
expect_ptr_eq(last_junked_ptr, &expanded[SC_SMALL_MAXCLASS], "");
expect_zu_eq(last_junked_usize,
SC_LARGE_MINCLASS - SC_SMALL_MAXCLASS, "");
free(expanded);
/* rallocx(..., MALLOCX_ZERO) */
ptr = malloc(SC_SMALL_MAXCLASS);
last_junked_ptr = (void *)-1;
last_junked_usize = (size_t)-1;
expanded = rallocx(ptr, SC_LARGE_MINCLASS, MALLOCX_ZERO);
expect_ptr_eq(last_junked_ptr, (void *)-1, "");
expect_zu_eq(last_junked_usize, (size_t)-1, "");
free(expanded);
/*
* Unfortunately, testing xallocx reliably is difficult to do portably
* (since allocations can be expanded / not expanded differently on
* different platforms. We rely on manual inspection there -- the
* xallocx pathway is easy to inspect, though.
*
* Likewise, we don't test the shrinking pathways. It's difficult to do
* so consistently (because of the risk of split failure or memory
* exhaustion, in which case no junking should happen). This is fine
* -- junking is a best-effort debug mechanism in the first place.
*/
}
TEST_END
int
main(void) {
junk_alloc_callback = &test_junk;
junk_free_callback = &test_junk;
return test(
test_junk_alloc_free,
test_realloc_expand);
}
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