392 lines
13 KiB
C
392 lines
13 KiB
C
#include "test/jemalloc_test.h"
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#include "jemalloc/internal/prof_recent.h"
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/* As specified in the shell script */
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#define OPT_ALLOC_MAX 3
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/* Invariant before and after every test (when config_prof is on) */
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static void confirm_prof_setup(tsd_t *tsd) {
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/* Options */
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assert_true(opt_prof, "opt_prof not on");
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assert_true(opt_prof_active, "opt_prof_active not on");
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assert_zd_eq(opt_prof_recent_alloc_max, OPT_ALLOC_MAX,
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"opt_prof_recent_alloc_max not set correctly");
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/* Dynamics */
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assert_true(prof_active, "prof_active not on");
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assert_zd_eq(prof_recent_alloc_max_ctl_read(tsd), OPT_ALLOC_MAX,
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"prof_recent_alloc_max not set correctly");
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}
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TEST_BEGIN(test_confirm_setup) {
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test_skip_if(!config_prof);
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confirm_prof_setup(tsd_fetch());
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}
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TEST_END
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TEST_BEGIN(test_prof_recent_off) {
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test_skip_if(config_prof);
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const ssize_t past_ref = 0, future_ref = 0;
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const size_t len_ref = sizeof(ssize_t);
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ssize_t past = past_ref, future = future_ref;
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size_t len = len_ref;
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#define ASSERT_SHOULD_FAIL(opt, a, b, c, d) do { \
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assert_d_eq(mallctl("experimental.prof_recent." opt, a, b, c, \
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d), ENOENT, "Should return ENOENT when config_prof is off");\
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assert_zd_eq(past, past_ref, "output was touched"); \
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assert_zu_eq(len, len_ref, "output length was touched"); \
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assert_zd_eq(future, future_ref, "input was touched"); \
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} while (0)
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ASSERT_SHOULD_FAIL("alloc_max", NULL, NULL, NULL, 0);
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ASSERT_SHOULD_FAIL("alloc_max", &past, &len, NULL, 0);
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ASSERT_SHOULD_FAIL("alloc_max", NULL, NULL, &future, len);
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ASSERT_SHOULD_FAIL("alloc_max", &past, &len, &future, len);
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#undef ASSERT_SHOULD_FAIL
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}
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TEST_END
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TEST_BEGIN(test_prof_recent_on) {
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test_skip_if(!config_prof);
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ssize_t past, future;
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size_t len = sizeof(ssize_t);
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tsd_t *tsd = tsd_fetch();
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confirm_prof_setup(tsd);
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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NULL, NULL, NULL, 0), 0, "no-op mallctl should be allowed");
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confirm_prof_setup(tsd);
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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&past, &len, NULL, 0), 0, "Read error");
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assert_zd_eq(past, OPT_ALLOC_MAX, "Wrong read result");
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future = OPT_ALLOC_MAX + 1;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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NULL, NULL, &future, len), 0, "Write error");
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future = -1;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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&past, &len, &future, len), 0, "Read/write error");
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assert_zd_eq(past, OPT_ALLOC_MAX + 1, "Wrong read result");
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future = -2;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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&past, &len, &future, len), EINVAL,
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"Invalid write should return EINVAL");
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assert_zd_eq(past, OPT_ALLOC_MAX + 1,
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"Output should not be touched given invalid write");
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future = OPT_ALLOC_MAX;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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&past, &len, &future, len), 0, "Read/write error");
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assert_zd_eq(past, -1, "Wrong read result");
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future = OPT_ALLOC_MAX + 2;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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&past, &len, &future, len * 2), EINVAL,
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"Invalid write should return EINVAL");
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assert_zd_eq(past, -1,
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"Output should not be touched given invalid write");
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confirm_prof_setup(tsd);
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}
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TEST_END
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/* Reproducible sequence of request sizes */
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#define NTH_REQ_SIZE(n) ((n) * 97 + 101)
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static void confirm_malloc(tsd_t *tsd, void *p) {
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assert_ptr_not_null(p, "malloc failed unexpectedly");
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edata_t *e = iealloc(TSDN_NULL, p);
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assert_ptr_not_null(e, "NULL edata for living pointer");
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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prof_recent_t *n = edata_prof_recent_alloc_get(tsd, e);
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assert_ptr_not_null(n, "Record in edata should not be NULL");
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assert_ptr_not_null(n->alloc_tctx,
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"alloc_tctx in record should not be NULL");
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assert_ptr_eq(e, n->alloc_edata,
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"edata pointer in record is not correct");
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assert_ptr_null(n->dalloc_tctx, "dalloc_tctx in record should be NULL");
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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}
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static void confirm_record_size(tsd_t *tsd, prof_recent_t *n, unsigned kth) {
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malloc_mutex_assert_owner(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_zu_eq(n->size, NTH_REQ_SIZE(kth),
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"Recorded allocation size is wrong");
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}
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static void confirm_record_living(tsd_t *tsd, prof_recent_t *n) {
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malloc_mutex_assert_owner(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_ptr_not_null(n->alloc_tctx,
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"alloc_tctx in record should not be NULL");
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assert_ptr_not_null(n->alloc_edata,
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"Recorded edata should not be NULL for living pointer");
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assert_ptr_eq(n, edata_prof_recent_alloc_get(tsd, n->alloc_edata),
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"Record in edata is not correct");
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assert_ptr_null(n->dalloc_tctx, "dalloc_tctx in record should be NULL");
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}
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static void confirm_record_released(tsd_t *tsd, prof_recent_t *n) {
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malloc_mutex_assert_owner(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_ptr_not_null(n->alloc_tctx,
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"alloc_tctx in record should not be NULL");
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assert_ptr_null(n->alloc_edata,
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"Recorded edata should be NULL for released pointer");
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assert_ptr_not_null(n->dalloc_tctx,
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"dalloc_tctx in record should not be NULL for released pointer");
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}
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TEST_BEGIN(test_prof_recent_alloc) {
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test_skip_if(!config_prof);
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bool b;
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unsigned i, c;
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size_t req_size;
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void *p;
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prof_recent_t *n;
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ssize_t future;
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tsd_t *tsd = tsd_fetch();
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confirm_prof_setup(tsd);
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/*
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* First batch of 2 * OPT_ALLOC_MAX allocations. After the
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* (OPT_ALLOC_MAX - 1)'th allocation the recorded allocations should
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* always be the last OPT_ALLOC_MAX allocations coming from here.
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*/
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for (i = 0; i < 2 * OPT_ALLOC_MAX; ++i) {
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req_size = NTH_REQ_SIZE(i);
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p = malloc(req_size);
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confirm_malloc(tsd, p);
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if (i < OPT_ALLOC_MAX - 1) {
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malloc_mutex_lock(tsd_tsdn(tsd),
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&prof_recent_alloc_mtx);
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assert_ptr_ne(prof_recent_alloc_begin(tsd),
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prof_recent_alloc_end(tsd),
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"Empty recent allocation");
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malloc_mutex_unlock(tsd_tsdn(tsd),
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&prof_recent_alloc_mtx);
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free(p);
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/*
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* The recorded allocations may still include some
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* other allocations before the test run started,
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* so keep allocating without checking anything.
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*/
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continue;
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}
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c = 0;
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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for (n = prof_recent_alloc_begin(tsd);
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n != prof_recent_alloc_end(tsd);
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n = prof_recent_alloc_next(tsd, n)) {
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++c;
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confirm_record_size(tsd, n, i + c - OPT_ALLOC_MAX);
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if (c == OPT_ALLOC_MAX) {
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confirm_record_living(tsd, n);
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} else {
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confirm_record_released(tsd, n);
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}
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}
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_u_eq(c, OPT_ALLOC_MAX,
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"Incorrect total number of allocations");
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free(p);
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}
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confirm_prof_setup(tsd);
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b = false;
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assert_d_eq(mallctl("prof.active", NULL, NULL, &b, sizeof(bool)), 0,
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"mallctl for turning off prof_active failed");
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/*
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* Second batch of OPT_ALLOC_MAX allocations. Since prof_active is
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* turned off, this batch shouldn't be recorded.
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*/
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for (; i < 3 * OPT_ALLOC_MAX; ++i) {
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req_size = NTH_REQ_SIZE(i);
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p = malloc(req_size);
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assert_ptr_not_null(p, "malloc failed unexpectedly");
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c = 0;
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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for (n = prof_recent_alloc_begin(tsd);
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n != prof_recent_alloc_end(tsd);
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n = prof_recent_alloc_next(tsd, n)) {
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confirm_record_size(tsd, n, c + OPT_ALLOC_MAX);
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confirm_record_released(tsd, n);
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++c;
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}
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_u_eq(c, OPT_ALLOC_MAX,
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"Incorrect total number of allocations");
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free(p);
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}
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b = true;
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assert_d_eq(mallctl("prof.active", NULL, NULL, &b, sizeof(bool)), 0,
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"mallctl for turning on prof_active failed");
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confirm_prof_setup(tsd);
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/*
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* Third batch of OPT_ALLOC_MAX allocations. Since prof_active is
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* turned back on, they should be recorded, and in the list of recorded
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* allocations they should follow the first batch rather than the
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* second batch.
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*/
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for (; i < 4 * OPT_ALLOC_MAX; ++i) {
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req_size = NTH_REQ_SIZE(i);
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p = malloc(req_size);
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confirm_malloc(tsd, p);
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c = 0;
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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for (n = prof_recent_alloc_begin(tsd);
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n != prof_recent_alloc_end(tsd);
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n = prof_recent_alloc_next(tsd, n)) {
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++c;
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confirm_record_size(tsd, n,
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/* Is the allocation from the third batch? */
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i + c - OPT_ALLOC_MAX >= 3 * OPT_ALLOC_MAX ?
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/* If yes, then it's just recorded. */
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i + c - OPT_ALLOC_MAX :
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/*
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* Otherwise, it should come from the first batch
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* instead of the second batch.
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*/
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i + c - 2 * OPT_ALLOC_MAX);
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if (c == OPT_ALLOC_MAX) {
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confirm_record_living(tsd, n);
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} else {
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confirm_record_released(tsd, n);
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}
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}
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_u_eq(c, OPT_ALLOC_MAX,
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"Incorrect total number of allocations");
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free(p);
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}
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/* Increasing the limit shouldn't alter the list of records. */
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future = OPT_ALLOC_MAX + 1;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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NULL, NULL, &future, sizeof(ssize_t)), 0, "Write error");
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c = 0;
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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for (n = prof_recent_alloc_begin(tsd);
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n != prof_recent_alloc_end(tsd);
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n = prof_recent_alloc_next(tsd, n)) {
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confirm_record_size(tsd, n, c + 3 * OPT_ALLOC_MAX);
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confirm_record_released(tsd, n);
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++c;
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}
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_u_eq(c, OPT_ALLOC_MAX,
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"Incorrect total number of allocations");
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/*
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* Decreasing the limit shouldn't alter the list of records as long as
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* the new limit is still no less than the length of the list.
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*/
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future = OPT_ALLOC_MAX;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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NULL, NULL, &future, sizeof(ssize_t)), 0, "Write error");
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c = 0;
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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for (n = prof_recent_alloc_begin(tsd);
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n != prof_recent_alloc_end(tsd);
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n = prof_recent_alloc_next(tsd, n)) {
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confirm_record_size(tsd, n, c + 3 * OPT_ALLOC_MAX);
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confirm_record_released(tsd, n);
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++c;
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}
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_u_eq(c, OPT_ALLOC_MAX,
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"Incorrect total number of allocations");
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/*
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* Decreasing the limit should shorten the list of records if the new
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* limit is less than the length of the list.
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*/
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future = OPT_ALLOC_MAX - 1;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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NULL, NULL, &future, sizeof(ssize_t)), 0, "Write error");
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c = 0;
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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for (n = prof_recent_alloc_begin(tsd);
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n != prof_recent_alloc_end(tsd);
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n = prof_recent_alloc_next(tsd, n)) {
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++c;
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confirm_record_size(tsd, n, c + 3 * OPT_ALLOC_MAX);
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confirm_record_released(tsd, n);
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}
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_u_eq(c, OPT_ALLOC_MAX - 1,
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"Incorrect total number of allocations");
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/* Setting to unlimited shouldn't alter the list of records. */
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future = -1;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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NULL, NULL, &future, sizeof(ssize_t)), 0, "Write error");
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c = 0;
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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for (n = prof_recent_alloc_begin(tsd);
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n != prof_recent_alloc_end(tsd);
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n = prof_recent_alloc_next(tsd, n)) {
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++c;
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confirm_record_size(tsd, n, c + 3 * OPT_ALLOC_MAX);
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confirm_record_released(tsd, n);
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}
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert_u_eq(c, OPT_ALLOC_MAX - 1,
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"Incorrect total number of allocations");
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/* Downshift to only one record. */
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future = 1;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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NULL, NULL, &future, sizeof(ssize_t)), 0, "Write error");
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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n = prof_recent_alloc_begin(tsd);
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assert(n != prof_recent_alloc_end(tsd));
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confirm_record_size(tsd, n, 4 * OPT_ALLOC_MAX - 1);
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confirm_record_released(tsd, n);
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n = prof_recent_alloc_next(tsd, n);
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assert(n == prof_recent_alloc_end(tsd));
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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/* Completely turn off. */
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future = 0;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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NULL, NULL, &future, sizeof(ssize_t)), 0, "Write error");
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert(prof_recent_alloc_begin(tsd) == prof_recent_alloc_end(tsd));
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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/* Restore the settings. */
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future = OPT_ALLOC_MAX;
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assert_d_eq(mallctl("experimental.prof_recent.alloc_max",
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NULL, NULL, &future, sizeof(ssize_t)), 0, "Write error");
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malloc_mutex_lock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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assert(prof_recent_alloc_begin(tsd) == prof_recent_alloc_end(tsd));
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malloc_mutex_unlock(tsd_tsdn(tsd), &prof_recent_alloc_mtx);
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confirm_prof_setup(tsd);
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}
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TEST_END
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#undef NTH_REQ_SIZE
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int
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main(void) {
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return test(
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test_confirm_setup,
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test_prof_recent_off,
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test_prof_recent_on,
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test_prof_recent_alloc);
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}
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