server-skynet-source-3rd-je.../test/unit/decay.c

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#include "test/jemalloc_test.h"
const char *malloc_conf = "decay_time:1"
#ifdef JEMALLOC_TCACHE
",lg_tcache_max:0"
#endif
;
static nstime_monotonic_t *nstime_monotonic_orig;
static nstime_update_t *nstime_update_orig;
static unsigned nupdates_mock;
static nstime_t time_mock;
static bool monotonic_mock;
static bool
nstime_monotonic_mock(void) {
return monotonic_mock;
}
static bool
nstime_update_mock(nstime_t *time) {
nupdates_mock++;
if (monotonic_mock) {
nstime_copy(time, &time_mock);
}
return !monotonic_mock;
}
TEST_BEGIN(test_decay_ticks) {
ticker_t *decay_ticker;
unsigned tick0, tick1;
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size_t sz, large0;
void *p;
decay_ticker = decay_ticker_get(tsd_fetch(), 0);
assert_ptr_not_null(decay_ticker,
"Unexpected failure getting decay ticker");
sz = sizeof(size_t);
assert_d_eq(mallctl("arenas.lextent.0.size", (void *)&large0, &sz, NULL,
0), 0, "Unexpected mallctl failure");
/*
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* Test the standard APIs using a large size class, since we can't
* control tcache interactions for small size classes (except by
* completely disabling tcache for the entire test program).
*/
/* malloc(). */
tick0 = ticker_read(decay_ticker);
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p = malloc(large0);
assert_ptr_not_null(p, "Unexpected malloc() failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0, "Expected ticker to tick during malloc()");
/* free(). */
tick0 = ticker_read(decay_ticker);
free(p);
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0, "Expected ticker to tick during free()");
/* calloc(). */
tick0 = ticker_read(decay_ticker);
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p = calloc(1, large0);
assert_ptr_not_null(p, "Unexpected calloc() failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0, "Expected ticker to tick during calloc()");
free(p);
/* posix_memalign(). */
tick0 = ticker_read(decay_ticker);
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assert_d_eq(posix_memalign(&p, sizeof(size_t), large0), 0,
"Unexpected posix_memalign() failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0,
"Expected ticker to tick during posix_memalign()");
free(p);
/* aligned_alloc(). */
tick0 = ticker_read(decay_ticker);
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p = aligned_alloc(sizeof(size_t), large0);
assert_ptr_not_null(p, "Unexpected aligned_alloc() failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0,
"Expected ticker to tick during aligned_alloc()");
free(p);
/* realloc(). */
/* Allocate. */
tick0 = ticker_read(decay_ticker);
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p = realloc(NULL, large0);
assert_ptr_not_null(p, "Unexpected realloc() failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0, "Expected ticker to tick during realloc()");
/* Reallocate. */
tick0 = ticker_read(decay_ticker);
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p = realloc(p, large0);
assert_ptr_not_null(p, "Unexpected realloc() failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0, "Expected ticker to tick during realloc()");
/* Deallocate. */
tick0 = ticker_read(decay_ticker);
realloc(p, 0);
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0, "Expected ticker to tick during realloc()");
/*
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* Test the *allocx() APIs using large and small size classes, with
* tcache explicitly disabled.
*/
{
unsigned i;
size_t allocx_sizes[2];
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allocx_sizes[0] = large0;
allocx_sizes[1] = 1;
for (i = 0; i < sizeof(allocx_sizes) / sizeof(size_t); i++) {
sz = allocx_sizes[i];
/* mallocx(). */
tick0 = ticker_read(decay_ticker);
p = mallocx(sz, MALLOCX_TCACHE_NONE);
assert_ptr_not_null(p, "Unexpected mallocx() failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0,
"Expected ticker to tick during mallocx() (sz=%zu)",
sz);
/* rallocx(). */
tick0 = ticker_read(decay_ticker);
p = rallocx(p, sz, MALLOCX_TCACHE_NONE);
assert_ptr_not_null(p, "Unexpected rallocx() failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0,
"Expected ticker to tick during rallocx() (sz=%zu)",
sz);
/* xallocx(). */
tick0 = ticker_read(decay_ticker);
xallocx(p, sz, 0, MALLOCX_TCACHE_NONE);
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0,
"Expected ticker to tick during xallocx() (sz=%zu)",
sz);
/* dallocx(). */
tick0 = ticker_read(decay_ticker);
dallocx(p, MALLOCX_TCACHE_NONE);
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0,
"Expected ticker to tick during dallocx() (sz=%zu)",
sz);
/* sdallocx(). */
p = mallocx(sz, MALLOCX_TCACHE_NONE);
assert_ptr_not_null(p, "Unexpected mallocx() failure");
tick0 = ticker_read(decay_ticker);
sdallocx(p, sz, MALLOCX_TCACHE_NONE);
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0,
"Expected ticker to tick during sdallocx() "
"(sz=%zu)", sz);
}
}
/*
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* Test tcache fill/flush interactions for large and small size classes,
* using an explicit tcache.
*/
if (config_tcache) {
unsigned tcache_ind, i;
size_t tcache_sizes[2];
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tcache_sizes[0] = large0;
tcache_sizes[1] = 1;
sz = sizeof(unsigned);
assert_d_eq(mallctl("tcache.create", (void *)&tcache_ind, &sz,
NULL, 0), 0, "Unexpected mallctl failure");
for (i = 0; i < sizeof(tcache_sizes) / sizeof(size_t); i++) {
sz = tcache_sizes[i];
/* tcache fill. */
tick0 = ticker_read(decay_ticker);
p = mallocx(sz, MALLOCX_TCACHE(tcache_ind));
assert_ptr_not_null(p, "Unexpected mallocx() failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0,
"Expected ticker to tick during tcache fill "
"(sz=%zu)", sz);
/* tcache flush. */
dallocx(p, MALLOCX_TCACHE(tcache_ind));
tick0 = ticker_read(decay_ticker);
assert_d_eq(mallctl("tcache.flush", NULL, NULL,
(void *)&tcache_ind, sizeof(unsigned)), 0,
"Unexpected mallctl failure");
tick1 = ticker_read(decay_ticker);
assert_u32_ne(tick1, tick0,
"Expected ticker to tick during tcache flush "
"(sz=%zu)", sz);
}
}
}
TEST_END
TEST_BEGIN(test_decay_ticker) {
#define NPS 1024
int flags = (MALLOCX_ARENA(0) | MALLOCX_TCACHE_NONE);
void *ps[NPS];
uint64_t epoch;
uint64_t npurge0 = 0;
uint64_t npurge1 = 0;
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size_t sz, large;
unsigned i, nupdates0;
nstime_t time, decay_time, deadline;
/*
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* Allocate a bunch of large objects, pause the clock, deallocate the
* objects, restore the clock, then [md]allocx() in a tight loop to
* verify the ticker triggers purging.
*/
if (config_tcache) {
size_t tcache_max;
sz = sizeof(size_t);
assert_d_eq(mallctl("arenas.tcache_max", (void *)&tcache_max,
&sz, NULL, 0), 0, "Unexpected mallctl failure");
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large = nallocx(tcache_max + 1, flags);
} else {
sz = sizeof(size_t);
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assert_d_eq(mallctl("arenas.lextent.0.size", &large, &sz, NULL,
0), 0, "Unexpected mallctl failure");
}
assert_d_eq(mallctl("arena.0.purge", NULL, NULL, NULL, 0), 0,
"Unexpected mallctl failure");
assert_d_eq(mallctl("epoch", NULL, NULL, (void *)&epoch,
sizeof(uint64_t)), 0, "Unexpected mallctl failure");
sz = sizeof(uint64_t);
assert_d_eq(mallctl("stats.arenas.0.npurge", (void *)&npurge0, &sz,
NULL, 0), config_stats ? 0 : ENOENT, "Unexpected mallctl result");
for (i = 0; i < NPS; i++) {
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ps[i] = mallocx(large, flags);
assert_ptr_not_null(ps[i], "Unexpected mallocx() failure");
}
nupdates_mock = 0;
nstime_init(&time_mock, 0);
nstime_update(&time_mock);
monotonic_mock = true;
nstime_monotonic_orig = nstime_monotonic;
nstime_update_orig = nstime_update;
nstime_monotonic = nstime_monotonic_mock;
nstime_update = nstime_update_mock;
for (i = 0; i < NPS; i++) {
dallocx(ps[i], flags);
nupdates0 = nupdates_mock;
assert_d_eq(mallctl("arena.0.decay", NULL, NULL, NULL, 0), 0,
"Unexpected arena.0.decay failure");
assert_u_gt(nupdates_mock, nupdates0,
"Expected nstime_update() to be called");
}
nstime_monotonic = nstime_monotonic_orig;
nstime_update = nstime_update_orig;
nstime_init(&time, 0);
nstime_update(&time);
nstime_init2(&decay_time, opt_decay_time, 0);
nstime_copy(&deadline, &time);
nstime_add(&deadline, &decay_time);
do {
for (i = 0; i < DECAY_NTICKS_PER_UPDATE / 2; i++) {
void *p = mallocx(1, flags);
assert_ptr_not_null(p, "Unexpected mallocx() failure");
dallocx(p, flags);
}
assert_d_eq(mallctl("epoch", NULL, NULL, (void *)&epoch,
sizeof(uint64_t)), 0, "Unexpected mallctl failure");
sz = sizeof(uint64_t);
assert_d_eq(mallctl("stats.arenas.0.npurge", (void *)&npurge1,
&sz, NULL, 0), config_stats ? 0 : ENOENT,
"Unexpected mallctl result");
nstime_update(&time);
} while (nstime_compare(&time, &deadline) <= 0 && npurge1 == npurge0);
if (config_stats) {
assert_u64_gt(npurge1, npurge0, "Expected purging to occur");
}
#undef NPS
}
TEST_END
TEST_BEGIN(test_decay_nonmonotonic) {
#define NPS (SMOOTHSTEP_NSTEPS + 1)
int flags = (MALLOCX_ARENA(0) | MALLOCX_TCACHE_NONE);
void *ps[NPS];
uint64_t epoch;
uint64_t npurge0 = 0;
uint64_t npurge1 = 0;
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size_t sz, large0;
unsigned i, nupdates0;
sz = sizeof(size_t);
assert_d_eq(mallctl("arenas.lextent.0.size", (void *)&large0, &sz, NULL,
0), 0, "Unexpected mallctl failure");
assert_d_eq(mallctl("arena.0.purge", NULL, NULL, NULL, 0), 0,
"Unexpected mallctl failure");
assert_d_eq(mallctl("epoch", NULL, NULL, (void *)&epoch,
sizeof(uint64_t)), 0, "Unexpected mallctl failure");
sz = sizeof(uint64_t);
assert_d_eq(mallctl("stats.arenas.0.npurge", (void *)&npurge0, &sz,
NULL, 0), config_stats ? 0 : ENOENT, "Unexpected mallctl result");
nupdates_mock = 0;
nstime_init(&time_mock, 0);
nstime_update(&time_mock);
monotonic_mock = false;
nstime_monotonic_orig = nstime_monotonic;
nstime_update_orig = nstime_update;
nstime_monotonic = nstime_monotonic_mock;
nstime_update = nstime_update_mock;
for (i = 0; i < NPS; i++) {
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ps[i] = mallocx(large0, flags);
assert_ptr_not_null(ps[i], "Unexpected mallocx() failure");
}
for (i = 0; i < NPS; i++) {
dallocx(ps[i], flags);
nupdates0 = nupdates_mock;
assert_d_eq(mallctl("arena.0.decay", NULL, NULL, NULL, 0), 0,
"Unexpected arena.0.decay failure");
assert_u_gt(nupdates_mock, nupdates0,
"Expected nstime_update() to be called");
}
assert_d_eq(mallctl("epoch", NULL, NULL, (void *)&epoch,
sizeof(uint64_t)), 0, "Unexpected mallctl failure");
sz = sizeof(uint64_t);
assert_d_eq(mallctl("stats.arenas.0.npurge", (void *)&npurge1, &sz,
NULL, 0), config_stats ? 0 : ENOENT, "Unexpected mallctl result");
if (config_stats) {
assert_u64_eq(npurge0, npurge1, "Unexpected purging occurred");
}
nstime_monotonic = nstime_monotonic_orig;
nstime_update = nstime_update_orig;
#undef NPS
}
TEST_END
int
main(void) {
return test(
test_decay_ticks,
test_decay_ticker,
test_decay_nonmonotonic);
}