mirror of
https://github.com/jemalloc/jemalloc.git
synced 2026-07-18 14:47:18 +03:00
New tests cover:
- background thread states after arena_reset
- background thread stats
- toggle background thread on and off during parallel stress
allocs/dallocs
- background thread fork behavior
Add background-thread fork unit test
test_fork_background_thread (in fork.c): with the background thread enabled,
fork and assert the child comes up with it disabled yet usable (re-enable +
alloc round-trips), while the parent keeps its threads. Placed in fork.c to
reuse its wait_for_child_exit helper and fork/WIN32 handling instead of
duplicating them in a separate file.
147 lines
4.4 KiB
C
147 lines
4.4 KiB
C
#include "test/jemalloc_test.h"
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const char *malloc_conf =
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"background_thread:false,narenas:1,max_background_threads:8";
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static unsigned
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max_test_narenas(void) {
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/*
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* 10 here is somewhat arbitrary, except insofar as we want to ensure
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* that the number of background threads is smaller than the number of
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* arenas. I'll ragequit long before we have to spin up 10 threads per
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* cpu to handle background purging, so this is a conservative
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* approximation.
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*/
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unsigned ret = 10 * ncpus;
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/* Limit the max to avoid VM exhaustion on 32-bit . */
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return ret > 256 ? 256 : ret;
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}
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TEST_BEGIN(test_deferred) {
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test_skip_if(!have_background_thread);
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unsigned id;
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size_t sz_u = sizeof(unsigned);
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for (unsigned i = 0; i < max_test_narenas(); i++) {
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expect_d_eq(mallctl("arenas.create", &id, &sz_u, NULL, 0), 0,
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"Failed to create arena");
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}
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bool enable = true;
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size_t sz_b = sizeof(bool);
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expect_d_eq(mallctl("background_thread", NULL, NULL, &enable, sz_b), 0,
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"Failed to enable background threads");
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enable = false;
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expect_d_eq(mallctl("background_thread", NULL, NULL, &enable, sz_b), 0,
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"Failed to disable background threads");
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}
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TEST_END
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TEST_BEGIN(test_max_background_threads) {
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test_skip_if(!have_background_thread);
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size_t max_n_thds;
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size_t opt_max_n_thds;
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size_t sz_m = sizeof(max_n_thds);
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expect_d_eq(mallctl("opt.max_background_threads", &opt_max_n_thds,
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&sz_m, NULL, 0),
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0, "Failed to get opt.max_background_threads");
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expect_d_eq(
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mallctl("max_background_threads", &max_n_thds, &sz_m, NULL, 0), 0,
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"Failed to get max background threads");
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expect_zu_eq(opt_max_n_thds, max_n_thds,
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"max_background_threads and "
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"opt.max_background_threads should match");
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expect_d_eq(
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mallctl("max_background_threads", NULL, NULL, &max_n_thds, sz_m), 0,
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"Failed to set max background threads");
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size_t size_zero = 0;
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expect_d_ne(
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mallctl("max_background_threads", NULL, NULL, &size_zero, sz_m), 0,
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"Should not allow zero background threads");
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unsigned id;
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size_t sz_u = sizeof(unsigned);
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for (unsigned i = 0; i < max_test_narenas(); i++) {
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expect_d_eq(mallctl("arenas.create", &id, &sz_u, NULL, 0), 0,
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"Failed to create arena");
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}
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bool enable = true;
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size_t sz_b = sizeof(bool);
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expect_d_eq(mallctl("background_thread", NULL, NULL, &enable, sz_b), 0,
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"Failed to enable background threads");
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expect_zu_eq(n_background_threads, max_n_thds,
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"Number of background threads should not change.\n");
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size_t new_max_thds = max_n_thds - 1;
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if (new_max_thds > 0) {
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expect_d_eq(mallctl("max_background_threads", NULL, NULL,
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&new_max_thds, sz_m),
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0, "Failed to set max background threads");
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expect_zu_eq(n_background_threads, new_max_thds,
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"Number of background threads should decrease by 1.\n");
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}
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new_max_thds = 1;
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expect_d_eq(
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mallctl("max_background_threads", NULL, NULL, &new_max_thds, sz_m),
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0, "Failed to set max background threads");
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expect_d_ne(
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mallctl("max_background_threads", NULL, NULL, &size_zero, sz_m), 0,
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"Should not allow zero background threads");
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expect_zu_eq(n_background_threads, new_max_thds,
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"Number of background threads should be 1.\n");
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}
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TEST_END
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static atomic_b_t stress_stop;
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static void
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set_background_thread(bool enable) {
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size_t sz = sizeof(bool);
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expect_d_eq(mallctl("background_thread", NULL, NULL, &enable, sz), 0,
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"Failed to set background_thread");
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}
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static void *
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stress_worker(void *arg) {
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(void)arg;
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while (!atomic_load_b(&stress_stop, ATOMIC_RELAXED)) {
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void *p = mallocx(PAGE, MALLOCX_TCACHE_NONE);
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if (p != NULL) {
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dallocx(p, MALLOCX_TCACHE_NONE);
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}
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}
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return NULL;
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}
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TEST_BEGIN(test_toggle_stress_with_concurrent_alloc) {
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test_skip_if(!have_background_thread);
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atomic_store_b(&stress_stop, false, ATOMIC_RELAXED);
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thd_t thd;
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thd_create(&thd, stress_worker, NULL);
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for (unsigned i = 0; i < 200; i++) {
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set_background_thread(true);
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expect_zu_gt(n_background_threads, 0,
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"Background threads should be non-zero after enable "
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"(cycle %u)", i);
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set_background_thread(false);
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expect_zu_eq(n_background_threads, 0,
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"Background threads should be zero after disable "
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"(cycle %u)", i);
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}
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atomic_store_b(&stress_stop, true, ATOMIC_RELAXED);
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thd_join(thd, NULL);
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}
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TEST_END
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int
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main(void) {
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return test_no_reentrancy(test_deferred, test_max_background_threads,
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test_toggle_stress_with_concurrent_alloc);
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}
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