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

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#include "test/jemalloc_test.h"
#include "jemalloc/internal/hpa.h"
#define SHARD_IND 111
#define ALLOC_MAX (HUGEPAGE / 4)
typedef struct test_data_s test_data_t;
struct test_data_s {
/*
* Must be the first member -- we convert back and forth between the
* test_data_t and the hpa_shard_t;
*/
hpa_shard_t shard;
hpa_central_t central;
base_t *base;
edata_cache_t shard_edata_cache;
emap_t emap;
};
static hpa_shard_opts_t test_hpa_shard_opts_default = {
/* slab_max_alloc */
ALLOC_MAX,
/* hugification threshold */
HUGEPAGE,
/* dirty_mult */
FXP_INIT_PERCENT(25),
/* deferral_allowed */
false,
/* hugify_delay_ms */
10 * 1000,
};
static hpa_shard_t *
create_test_data(hpa_hooks_t *hooks, hpa_shard_opts_t *opts) {
bool err;
base_t *base = base_new(TSDN_NULL, /* ind */ SHARD_IND,
&ehooks_default_extent_hooks, /* metadata_use_hooks */ true);
assert_ptr_not_null(base, "");
test_data_t *test_data = malloc(sizeof(test_data_t));
assert_ptr_not_null(test_data, "");
test_data->base = base;
err = edata_cache_init(&test_data->shard_edata_cache, base);
assert_false(err, "");
err = emap_init(&test_data->emap, test_data->base, /* zeroed */ false);
assert_false(err, "");
err = hpa_central_init(&test_data->central, test_data->base, hooks);
assert_false(err, "");
err = hpa_shard_init(&test_data->shard, &test_data->central,
&test_data->emap, test_data->base, &test_data->shard_edata_cache,
SHARD_IND, opts);
assert_false(err, "");
return (hpa_shard_t *)test_data;
}
static void
destroy_test_data(hpa_shard_t *shard) {
test_data_t *test_data = (test_data_t *)shard;
base_delete(TSDN_NULL, test_data->base);
free(test_data);
}
TEST_BEGIN(test_alloc_max) {
test_skip_if(!hpa_supported());
hpa_shard_t *shard = create_test_data(&hpa_hooks_default,
&test_hpa_shard_opts_default);
tsdn_t *tsdn = tsd_tsdn(tsd_fetch());
edata_t *edata;
/* Small max */
bool deferred_work_generated = false;
edata = pai_alloc(tsdn, &shard->pai, ALLOC_MAX, PAGE, false, false,
&deferred_work_generated);
expect_ptr_not_null(edata, "Allocation of small max failed");
edata = pai_alloc(tsdn, &shard->pai, ALLOC_MAX + PAGE, PAGE, false,
false, &deferred_work_generated);
expect_ptr_null(edata, "Allocation of larger than small max succeeded");
destroy_test_data(shard);
}
TEST_END
typedef struct mem_contents_s mem_contents_t;
struct mem_contents_s {
uintptr_t my_addr;
size_t size;
edata_t *my_edata;
rb_node(mem_contents_t) link;
};
static int
mem_contents_cmp(const mem_contents_t *a, const mem_contents_t *b) {
return (a->my_addr > b->my_addr) - (a->my_addr < b->my_addr);
}
typedef rb_tree(mem_contents_t) mem_tree_t;
rb_gen(static, mem_tree_, mem_tree_t, mem_contents_t, link,
mem_contents_cmp);
static void
node_assert_ordered(mem_contents_t *a, mem_contents_t *b) {
assert_zu_lt(a->my_addr, a->my_addr + a->size, "Overflow");
assert_zu_le(a->my_addr + a->size, b->my_addr, "");
}
static void
node_check(mem_tree_t *tree, mem_contents_t *contents) {
edata_t *edata = contents->my_edata;
assert_ptr_eq(contents, (void *)contents->my_addr, "");
assert_ptr_eq(contents, edata_base_get(edata), "");
assert_zu_eq(contents->size, edata_size_get(edata), "");
assert_ptr_eq(contents->my_edata, edata, "");
mem_contents_t *next = mem_tree_next(tree, contents);
if (next != NULL) {
node_assert_ordered(contents, next);
}
mem_contents_t *prev = mem_tree_prev(tree, contents);
if (prev != NULL) {
node_assert_ordered(prev, contents);
}
}
static void
node_insert(mem_tree_t *tree, edata_t *edata, size_t npages) {
mem_contents_t *contents = (mem_contents_t *)edata_base_get(edata);
contents->my_addr = (uintptr_t)edata_base_get(edata);
contents->size = edata_size_get(edata);
contents->my_edata = edata;
mem_tree_insert(tree, contents);
node_check(tree, contents);
}
static void
node_remove(mem_tree_t *tree, edata_t *edata) {
mem_contents_t *contents = (mem_contents_t *)edata_base_get(edata);
node_check(tree, contents);
mem_tree_remove(tree, contents);
}
TEST_BEGIN(test_stress) {
test_skip_if(!hpa_supported());
hpa_shard_t *shard = create_test_data(&hpa_hooks_default,
&test_hpa_shard_opts_default);
tsdn_t *tsdn = tsd_tsdn(tsd_fetch());
const size_t nlive_edatas_max = 500;
size_t nlive_edatas = 0;
edata_t **live_edatas = calloc(nlive_edatas_max, sizeof(edata_t *));
/*
* Nothing special about this constant; we're only fixing it for
* consistency across runs.
*/
size_t prng_state = (size_t)0x76999ffb014df07c;
mem_tree_t tree;
mem_tree_new(&tree);
bool deferred_work_generated = false;
for (size_t i = 0; i < 100 * 1000; i++) {
size_t operation = prng_range_zu(&prng_state, 2);
if (operation == 0) {
/* Alloc */
if (nlive_edatas == nlive_edatas_max) {
continue;
}
/*
* We make sure to get an even balance of small and
* large allocations.
*/
size_t npages_min = 1;
size_t npages_max = ALLOC_MAX / PAGE;
size_t npages = npages_min + prng_range_zu(&prng_state,
npages_max - npages_min);
edata_t *edata = pai_alloc(tsdn, &shard->pai,
npages * PAGE, PAGE, false, false,
&deferred_work_generated);
assert_ptr_not_null(edata,
"Unexpected allocation failure");
live_edatas[nlive_edatas] = edata;
nlive_edatas++;
node_insert(&tree, edata, npages);
} else {
/* Free. */
if (nlive_edatas == 0) {
continue;
}
size_t victim = prng_range_zu(&prng_state, nlive_edatas);
edata_t *to_free = live_edatas[victim];
live_edatas[victim] = live_edatas[nlive_edatas - 1];
nlive_edatas--;
node_remove(&tree, to_free);
pai_dalloc(tsdn, &shard->pai, to_free,
&deferred_work_generated);
}
}
size_t ntreenodes = 0;
for (mem_contents_t *contents = mem_tree_first(&tree); contents != NULL;
contents = mem_tree_next(&tree, contents)) {
ntreenodes++;
node_check(&tree, contents);
}
expect_zu_eq(ntreenodes, nlive_edatas, "");
/*
* Test hpa_shard_destroy, which requires as a precondition that all its
* extents have been deallocated.
*/
for (size_t i = 0; i < nlive_edatas; i++) {
edata_t *to_free = live_edatas[i];
node_remove(&tree, to_free);
pai_dalloc(tsdn, &shard->pai, to_free,
&deferred_work_generated);
}
hpa_shard_destroy(tsdn, shard);
free(live_edatas);
destroy_test_data(shard);
}
TEST_END
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static void
expect_contiguous(edata_t **edatas, size_t nedatas) {
for (size_t i = 0; i < nedatas; i++) {
size_t expected = (size_t)edata_base_get(edatas[0])
+ i * PAGE;
expect_zu_eq(expected, (size_t)edata_base_get(edatas[i]),
"Mismatch at index %zu", i);
}
}
TEST_BEGIN(test_alloc_dalloc_batch) {
test_skip_if(!hpa_supported());
hpa_shard_t *shard = create_test_data(&hpa_hooks_default,
&test_hpa_shard_opts_default);
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tsdn_t *tsdn = tsd_tsdn(tsd_fetch());
bool deferred_work_generated = false;
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enum {NALLOCS = 8};
edata_t *allocs[NALLOCS];
/*
* Allocate a mix of ways; first half from regular alloc, second half
* from alloc_batch.
*/
for (size_t i = 0; i < NALLOCS / 2; i++) {
allocs[i] = pai_alloc(tsdn, &shard->pai, PAGE, PAGE,
/* zero */ false, /* guarded */ false,
&deferred_work_generated);
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expect_ptr_not_null(allocs[i], "Unexpected alloc failure");
}
edata_list_active_t allocs_list;
edata_list_active_init(&allocs_list);
size_t nsuccess = pai_alloc_batch(tsdn, &shard->pai, PAGE, NALLOCS / 2,
&allocs_list, &deferred_work_generated);
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expect_zu_eq(NALLOCS / 2, nsuccess, "Unexpected oom");
for (size_t i = NALLOCS / 2; i < NALLOCS; i++) {
allocs[i] = edata_list_active_first(&allocs_list);
edata_list_active_remove(&allocs_list, allocs[i]);
}
/*
* Should have allocated them contiguously, despite the differing
* methods used.
*/
void *orig_base = edata_base_get(allocs[0]);
expect_contiguous(allocs, NALLOCS);
/*
* Batch dalloc the first half, individually deallocate the second half.
*/
for (size_t i = 0; i < NALLOCS / 2; i++) {
edata_list_active_append(&allocs_list, allocs[i]);
}
pai_dalloc_batch(tsdn, &shard->pai, &allocs_list,
&deferred_work_generated);
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for (size_t i = NALLOCS / 2; i < NALLOCS; i++) {
pai_dalloc(tsdn, &shard->pai, allocs[i],
&deferred_work_generated);
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}
/* Reallocate (individually), and ensure reuse and contiguity. */
for (size_t i = 0; i < NALLOCS; i++) {
allocs[i] = pai_alloc(tsdn, &shard->pai, PAGE, PAGE,
/* zero */ false, /* guarded */ false,
&deferred_work_generated);
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expect_ptr_not_null(allocs[i], "Unexpected alloc failure.");
}
void *new_base = edata_base_get(allocs[0]);
expect_ptr_eq(orig_base, new_base,
"Failed to reuse the allocated memory.");
expect_contiguous(allocs, NALLOCS);
destroy_test_data(shard);
}
TEST_END
static uintptr_t defer_bump_ptr = HUGEPAGE * 123;
static void *
defer_test_map(size_t size) {
void *result = (void *)defer_bump_ptr;
defer_bump_ptr += size;
return result;
}
static void
defer_test_unmap(void *ptr, size_t size) {
(void)ptr;
(void)size;
}
static bool defer_purge_called = false;
static void
defer_test_purge(void *ptr, size_t size) {
(void)ptr;
(void)size;
defer_purge_called = true;
}
static bool defer_hugify_called = false;
static void
defer_test_hugify(void *ptr, size_t size) {
defer_hugify_called = true;
}
static bool defer_dehugify_called = false;
static void
defer_test_dehugify(void *ptr, size_t size) {
defer_dehugify_called = true;
}
static nstime_t defer_curtime;
static void
defer_test_curtime(nstime_t *r_time) {
*r_time = defer_curtime;
}
TEST_BEGIN(test_defer_time) {
test_skip_if(!hpa_supported());
hpa_hooks_t hooks;
hooks.map = &defer_test_map;
hooks.unmap = &defer_test_unmap;
hooks.purge = &defer_test_purge;
hooks.hugify = &defer_test_hugify;
hooks.dehugify = &defer_test_dehugify;
hooks.curtime = &defer_test_curtime;
hpa_shard_opts_t opts = test_hpa_shard_opts_default;
opts.deferral_allowed = true;
hpa_shard_t *shard = create_test_data(&hooks, &opts);
bool deferred_work_generated = false;
nstime_init(&defer_curtime, 0);
tsdn_t *tsdn = tsd_tsdn(tsd_fetch());
edata_t *edatas[HUGEPAGE_PAGES];
for (int i = 0; i < (int)HUGEPAGE_PAGES; i++) {
edatas[i] = pai_alloc(tsdn, &shard->pai, PAGE, PAGE, false,
false, &deferred_work_generated);
expect_ptr_not_null(edatas[i], "Unexpected null edata");
}
hpa_shard_do_deferred_work(tsdn, shard);
expect_false(defer_hugify_called, "Hugified too early");
/* Hugification delay is set to 10 seconds in options. */
nstime_init2(&defer_curtime, 11, 0);
hpa_shard_do_deferred_work(tsdn, shard);
expect_true(defer_hugify_called, "Failed to hugify");
defer_hugify_called = false;
/* Purge. Recall that dirty_mult is .25. */
for (int i = 0; i < (int)HUGEPAGE_PAGES / 2; i++) {
pai_dalloc(tsdn, &shard->pai, edatas[i],
&deferred_work_generated);
}
hpa_shard_do_deferred_work(tsdn, shard);
expect_false(defer_hugify_called, "Hugified too early");
expect_true(defer_dehugify_called, "Should have dehugified");
expect_true(defer_purge_called, "Should have purged");
defer_hugify_called = false;
defer_dehugify_called = false;
defer_purge_called = false;
/*
* Refill the page. We now meet the hugification threshold; we should
* be marked for pending hugify.
*/
for (int i = 0; i < (int)HUGEPAGE_PAGES / 2; i++) {
edatas[i] = pai_alloc(tsdn, &shard->pai, PAGE, PAGE, false,
false, &deferred_work_generated);
expect_ptr_not_null(edatas[i], "Unexpected null edata");
}
/*
* We would be ineligible for hugification, had we not already met the
* threshold before dipping below it.
*/
pai_dalloc(tsdn, &shard->pai, edatas[0],
&deferred_work_generated);
/* Wait for the threshold again. */
nstime_init2(&defer_curtime, 22, 0);
hpa_shard_do_deferred_work(tsdn, shard);
expect_true(defer_hugify_called, "Hugified too early");
expect_false(defer_dehugify_called, "Unexpected dehugify");
expect_false(defer_purge_called, "Unexpected purge");
destroy_test_data(shard);
}
TEST_END
int
main(void) {
/*
* These trigger unused-function warnings on CI runs, even if declared
* with static inline.
*/
(void)mem_tree_empty;
(void)mem_tree_last;
(void)mem_tree_search;
(void)mem_tree_nsearch;
(void)mem_tree_psearch;
(void)mem_tree_iter;
(void)mem_tree_reverse_iter;
(void)mem_tree_destroy;
return test_no_reentrancy(
test_alloc_max,
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test_stress,
test_alloc_dalloc_batch,
test_defer_time);
}