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#include "test/jemalloc_test.h"
#include "jemalloc/internal/decay.h"
TEST_BEGIN(test_decay_init) {
decay_t decay;
memset(&decay, 0, sizeof(decay));
nstime_t curtime;
nstime_init(&curtime, 0);
ssize_t decay_ms = 1000;
assert_true(decay_ms_valid(decay_ms), "");
expect_false(decay_init(&decay, &curtime, decay_ms),
"Failed to initialize decay");
expect_zd_eq(decay_ms_read(&decay), decay_ms,
"Decay_ms was initialized incorrectly");
expect_u64_ne(decay_epoch_duration_ns(&decay), 0,
"Epoch duration was initialized incorrectly");
}
TEST_END
TEST_BEGIN(test_decay_ms_valid) {
expect_false(decay_ms_valid(-7),
"Misclassified negative decay as valid");
expect_true(decay_ms_valid(-1),
"Misclassified -1 (never decay) as invalid decay");
expect_true(decay_ms_valid(8943),
"Misclassified valid decay");
if (SSIZE_MAX > NSTIME_SEC_MAX) {
expect_false(
decay_ms_valid((ssize_t)(NSTIME_SEC_MAX * KQU(1000) + 39)),
"Misclassified too large decay");
}
}
TEST_END
TEST_BEGIN(test_decay_npages_purge_in) {
decay_t decay;
memset(&decay, 0, sizeof(decay));
nstime_t curtime;
nstime_init(&curtime, 0);
uint64_t decay_ms = 1000;
nstime_t decay_nstime;
nstime_init(&decay_nstime, decay_ms * 1000 * 1000);
expect_false(decay_init(&decay, &curtime, (ssize_t)decay_ms),
"Failed to initialize decay");
size_t new_pages = 100;
nstime_t time;
nstime_copy(&time, &decay_nstime);
expect_u64_eq(decay_npages_purge_in(&decay, &time, new_pages),
new_pages, "Not all pages are expected to decay in decay_ms");
nstime_init(&time, 0);
expect_u64_eq(decay_npages_purge_in(&decay, &time, new_pages), 0,
"More than zero pages are expected to instantly decay");
nstime_copy(&time, &decay_nstime);
nstime_idivide(&time, 2);
expect_u64_eq(decay_npages_purge_in(&decay, &time, new_pages),
new_pages / 2, "Not half of pages decay in half the decay period");
}
TEST_END
TEST_BEGIN(test_decay_maybe_advance_epoch) {
decay_t decay;
memset(&decay, 0, sizeof(decay));
nstime_t curtime;
nstime_init(&curtime, 0);
uint64_t decay_ms = 1000;
bool err = decay_init(&decay, &curtime, (ssize_t)decay_ms);
expect_false(err, "");
bool advanced;
advanced = decay_maybe_advance_epoch(&decay, &curtime, 0);
expect_false(advanced, "Epoch advanced while time didn't");
nstime_t interval;
nstime_init(&interval, decay_epoch_duration_ns(&decay));
nstime_add(&curtime, &interval);
advanced = decay_maybe_advance_epoch(&decay, &curtime, 0);
expect_false(advanced, "Epoch advanced after first interval");
nstime_add(&curtime, &interval);
advanced = decay_maybe_advance_epoch(&decay, &curtime, 0);
expect_true(advanced, "Epoch didn't advance after two intervals");
}
TEST_END
TEST_BEGIN(test_decay_empty) {
/* If we never have any decaying pages, npages_limit should be 0. */
decay_t decay;
memset(&decay, 0, sizeof(decay));
nstime_t curtime;
nstime_init(&curtime, 0);
uint64_t decay_ms = 1000;
uint64_t decay_ns = decay_ms * 1000 * 1000;
bool err = decay_init(&decay, &curtime, (ssize_t)decay_ms);
assert_false(err, "");
uint64_t time_between_calls = decay_epoch_duration_ns(&decay) / 5;
int nepochs = 0;
for (uint64_t i = 0; i < decay_ns / time_between_calls * 10; i++) {
size_t dirty_pages = 0;
nstime_init(&curtime, i * time_between_calls);
bool epoch_advanced = decay_maybe_advance_epoch(&decay,
&curtime, dirty_pages);
if (epoch_advanced) {
nepochs++;
expect_zu_eq(decay_npages_limit_get(&decay), 0,
"Unexpectedly increased npages_limit");
}
}
expect_d_gt(nepochs, 0, "Epochs never advanced");
}
TEST_END
/*
* Verify that npages_limit correctly decays as the time goes.
*
* During first 'nepoch_init' epochs, add new dirty pages.
* After that, let them decay and verify npages_limit decreases.
* Then proceed with another 'nepoch_init' epochs and check that
* all dirty pages are flushed out of backlog, bringing npages_limit
* down to zero.
*/
TEST_BEGIN(test_decay) {
const uint64_t nepoch_init = 10;
decay_t decay;
memset(&decay, 0, sizeof(decay));
nstime_t curtime;
nstime_init(&curtime, 0);
uint64_t decay_ms = 1000;
uint64_t decay_ns = decay_ms * 1000 * 1000;
bool err = decay_init(&decay, &curtime, (ssize_t)decay_ms);
assert_false(err, "");
expect_zu_eq(decay_npages_limit_get(&decay), 0,
"Empty decay returned nonzero npages_limit");
nstime_t epochtime;
nstime_init(&epochtime, decay_epoch_duration_ns(&decay));
const size_t dirty_pages_per_epoch = 1000;
size_t dirty_pages = 0;
uint64_t epoch_ns = decay_epoch_duration_ns(&decay);
bool epoch_advanced = false;
/* Populate backlog with some dirty pages */
for (uint64_t i = 0; i < nepoch_init; i++) {
nstime_add(&curtime, &epochtime);
dirty_pages += dirty_pages_per_epoch;
epoch_advanced |= decay_maybe_advance_epoch(&decay, &curtime,
dirty_pages);
}
expect_true(epoch_advanced, "Epoch never advanced");
size_t npages_limit = decay_npages_limit_get(&decay);
expect_zu_gt(npages_limit, 0, "npages_limit is incorrectly equal "
"to zero after dirty pages have been added");
/* Keep dirty pages unchanged and verify that npages_limit decreases */
for (uint64_t i = nepoch_init; i * epoch_ns < decay_ns; ++i) {
nstime_add(&curtime, &epochtime);
epoch_advanced = decay_maybe_advance_epoch(&decay, &curtime,
dirty_pages);
if (epoch_advanced) {
size_t npages_limit_new = decay_npages_limit_get(&decay);
expect_zu_lt(npages_limit_new, npages_limit,
"napges_limit failed to decay");
npages_limit = npages_limit_new;
}
}
expect_zu_gt(npages_limit, 0, "npages_limit decayed to zero earlier "
"than decay_ms since last dirty page was added");
/* Completely push all dirty pages out of the backlog */
epoch_advanced = false;
for (uint64_t i = 0; i < nepoch_init; i++) {
nstime_add(&curtime, &epochtime);
epoch_advanced |= decay_maybe_advance_epoch(&decay, &curtime,
dirty_pages);
}
expect_true(epoch_advanced, "Epoch never advanced");
npages_limit = decay_npages_limit_get(&decay);
expect_zu_eq(npages_limit, 0, "npages_limit didn't decay to 0 after "
"decay_ms since last bump in dirty pages");
}
TEST_END
TEST_BEGIN(test_decay_ns_until_purge) {
const uint64_t nepoch_init = 10;
decay_t decay;
memset(&decay, 0, sizeof(decay));
nstime_t curtime;
nstime_init(&curtime, 0);
uint64_t decay_ms = 1000;
uint64_t decay_ns = decay_ms * 1000 * 1000;
bool err = decay_init(&decay, &curtime, (ssize_t)decay_ms);
assert_false(err, "");
nstime_t epochtime;
nstime_init(&epochtime, decay_epoch_duration_ns(&decay));
uint64_t ns_until_purge_empty = decay_ns_until_purge(&decay, 0, 0);
expect_u64_eq(ns_until_purge_empty, DECAY_UNBOUNDED_TIME_TO_PURGE,
"Failed to return unbounded wait time for zero threshold");
const size_t dirty_pages_per_epoch = 1000;
size_t dirty_pages = 0;
bool epoch_advanced = false;
for (uint64_t i = 0; i < nepoch_init; i++) {
nstime_add(&curtime, &epochtime);
dirty_pages += dirty_pages_per_epoch;
epoch_advanced |= decay_maybe_advance_epoch(&decay, &curtime,
dirty_pages);
}
expect_true(epoch_advanced, "Epoch never advanced");
uint64_t ns_until_purge_all = decay_ns_until_purge(&decay,
dirty_pages, dirty_pages);
expect_u64_ge(ns_until_purge_all, decay_ns,
"Incorrectly calculated time to purge all pages");
uint64_t ns_until_purge_none = decay_ns_until_purge(&decay,
dirty_pages, 0);
expect_u64_eq(ns_until_purge_none, decay_epoch_duration_ns(&decay) * 2,
"Incorrectly calculated time to purge 0 pages");
uint64_t npages_threshold = dirty_pages / 2;
uint64_t ns_until_purge_half = decay_ns_until_purge(&decay,
dirty_pages, npages_threshold);
nstime_t waittime;
nstime_init(&waittime, ns_until_purge_half);
nstime_add(&curtime, &waittime);
decay_maybe_advance_epoch(&decay, &curtime, dirty_pages);
size_t npages_limit = decay_npages_limit_get(&decay);
expect_zu_lt(npages_limit, dirty_pages,
"npages_limit failed to decrease after waiting");
size_t expected = dirty_pages - npages_limit;
int deviation = abs((int)expected - (int)(npages_threshold));
expect_d_lt(deviation, (int)(npages_threshold / 2),
"After waiting, number of pages is out of the expected interval "
"[0.5 * npages_threshold .. 1.5 * npages_threshold]");
}
TEST_END
int
main(void) {
return test(
test_decay_init,
test_decay_ms_valid,
test_decay_npages_purge_in,
test_decay_maybe_advance_epoch,
test_decay_empty,
test_decay,
test_decay_ns_until_purge);
}
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