psset: Relegate alloc/dalloc to test code.
This is no longer part of the "core" functionality; we only need the stub implementations as an end-to-end test of hpdata + psset interactions when metadata is being modified. Treat them accordingly.
This commit is contained in:
parent
f9299ca572
commit
f7cf23aa4d
@ -67,23 +67,4 @@ void psset_remove(psset_t *psset, hpdata_t *ps);
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/* Analogous to the eset_fit; pick a hpdata to serve the request. */
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hpdata_t *psset_fit(psset_t *psset, size_t size);
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/*
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* Given a newly created pageslab ps (not currently in the set), pass ownership
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* to the psset and allocate an extent from within it. The passed-in pageslab
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* must be at least as big as size.
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*/
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void psset_alloc_new(psset_t *psset, hpdata_t *ps,
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edata_t *r_edata, size_t size);
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bool psset_alloc_reuse(psset_t *psset, edata_t *r_edata, size_t size);
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/*
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* Given an extent that comes from a pageslab in this pageslab set, returns it
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* to its slab. Does not take ownership of the underlying edata_t.
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*
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* If some slab becomes empty as a result of the dalloc, it is retuend -- the
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* result must be checked and deallocated to the central HPA. Otherwise returns
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* NULL.
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*/
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hpdata_t *psset_dalloc(psset_t *psset, edata_t *edata);
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#endif /* JEMALLOC_INTERNAL_PSSET_H */
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49
src/psset.c
49
src/psset.c
@ -90,6 +90,7 @@ psset_hpdata_heap_insert(psset_t *psset, pszind_t pind, hpdata_t *ps) {
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void
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psset_insert(psset_t *psset, hpdata_t *ps) {
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assert(!hpdata_empty(ps));
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hpdata_assert_consistent(ps);
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size_t longest_free_range = hpdata_longest_free_range_get(ps);
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@ -148,51 +149,3 @@ psset_fit(psset_t *psset, size_t size) {
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return ps;
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}
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void
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psset_alloc_new(psset_t *psset, hpdata_t *ps, edata_t *r_edata, size_t size) {
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hpdata_assert_empty(ps);
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void *addr = hpdata_reserve_alloc(ps, size);
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edata_init(r_edata, edata_arena_ind_get(r_edata), addr, size,
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/* slab */ false, SC_NSIZES, /* sn */ 0, extent_state_active,
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/* zeroed */ false, /* committed */ true, EXTENT_PAI_HPA,
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EXTENT_NOT_HEAD);
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edata_ps_set(r_edata, ps);
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psset_insert(psset, ps);
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}
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bool
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psset_alloc_reuse(psset_t *psset, edata_t *r_edata, size_t size) {
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hpdata_t *ps = psset_fit(psset, size);
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if (ps == NULL) {
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return true;
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}
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psset_remove(psset, ps);
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void *addr = hpdata_reserve_alloc(ps, size);
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edata_init(r_edata, edata_arena_ind_get(r_edata), addr, size,
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/* slab */ false, SC_NSIZES, /* sn */ 0, extent_state_active,
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/* zeroed */ false, /* committed */ true, EXTENT_PAI_HPA,
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EXTENT_NOT_HEAD);
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edata_ps_set(r_edata, ps);
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psset_insert(psset, ps);
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return false;
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}
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hpdata_t *
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psset_dalloc(psset_t *psset, edata_t *edata) {
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assert(edata_pai_get(edata) == EXTENT_PAI_HPA);
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assert(edata_ps_get(edata) != NULL);
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hpdata_t *ps = edata_ps_get(edata);
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psset_remove(psset, ps);
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hpdata_unreserve(ps, edata_base_get(edata), edata_size_get(edata));
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if (hpdata_empty(ps)) {
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return ps;
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} else {
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psset_insert(psset, ps);
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return NULL;
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}
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}
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@ -15,6 +15,49 @@ edata_init_test(edata_t *edata) {
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edata_esn_set(edata, ALLOC_ESN);
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}
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static void
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test_psset_alloc_new(psset_t *psset, hpdata_t *ps, edata_t *r_edata,
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size_t size) {
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hpdata_assert_empty(ps);
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void *addr = hpdata_reserve_alloc(ps, size);
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edata_init(r_edata, edata_arena_ind_get(r_edata), addr, size,
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/* slab */ false, SC_NSIZES, /* sn */ 0, extent_state_active,
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/* zeroed */ false, /* committed */ true, EXTENT_PAI_HPA,
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EXTENT_NOT_HEAD);
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edata_ps_set(r_edata, ps);
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psset_insert(psset, ps);
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}
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static bool
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test_psset_alloc_reuse(psset_t *psset, edata_t *r_edata, size_t size) {
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hpdata_t *ps = psset_fit(psset, size);
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if (ps == NULL) {
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return true;
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}
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psset_remove(psset, ps);
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void *addr = hpdata_reserve_alloc(ps, size);
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edata_init(r_edata, edata_arena_ind_get(r_edata), addr, size,
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/* slab */ false, SC_NSIZES, /* sn */ 0, extent_state_active,
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/* zeroed */ false, /* committed */ true, EXTENT_PAI_HPA,
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EXTENT_NOT_HEAD);
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edata_ps_set(r_edata, ps);
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psset_insert(psset, ps);
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return false;
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}
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static hpdata_t *
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test_psset_dalloc(psset_t *psset, edata_t *edata) {
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hpdata_t *ps = edata_ps_get(edata);
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psset_remove(psset, ps);
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hpdata_unreserve(ps, edata_addr_get(edata), edata_size_get(edata));
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if (hpdata_empty(ps)) {
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return ps;
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} else {
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psset_insert(psset, ps);
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return NULL;
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}
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}
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static void
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edata_expect(edata_t *edata, size_t page_offset, size_t page_cnt) {
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/*
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@ -50,7 +93,7 @@ TEST_BEGIN(test_empty) {
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psset_init(&psset);
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/* Empty psset should return fail allocations. */
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err = psset_alloc_reuse(&psset, &alloc, PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc, PAGE);
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expect_true(err, "Empty psset succeeded in an allocation.");
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}
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TEST_END
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@ -67,10 +110,10 @@ TEST_BEGIN(test_fill) {
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psset_init(&psset);
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edata_init_test(&alloc[0]);
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psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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test_psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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for (size_t i = 1; i < HUGEPAGE_PAGES; i++) {
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edata_init_test(&alloc[i]);
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err = psset_alloc_reuse(&psset, &alloc[i], PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[i], PAGE);
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expect_false(err, "Nonempty psset failed page allocation.");
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}
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@ -82,7 +125,7 @@ TEST_BEGIN(test_fill) {
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/* The pageslab, and thus psset, should now have no allocations. */
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edata_t extra_alloc;
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edata_init_test(&extra_alloc);
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err = psset_alloc_reuse(&psset, &extra_alloc, PAGE);
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err = test_psset_alloc_reuse(&psset, &extra_alloc, PAGE);
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expect_true(err, "Alloc succeeded even though psset should be empty");
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}
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TEST_END
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@ -100,10 +143,10 @@ TEST_BEGIN(test_reuse) {
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psset_init(&psset);
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edata_init_test(&alloc[0]);
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psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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test_psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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for (size_t i = 1; i < HUGEPAGE_PAGES; i++) {
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edata_init_test(&alloc[i]);
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err = psset_alloc_reuse(&psset, &alloc[i], PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[i], PAGE);
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expect_false(err, "Nonempty psset failed page allocation.");
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}
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@ -112,7 +155,7 @@ TEST_BEGIN(test_reuse) {
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if (i % 2 == 0) {
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continue;
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}
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ps = psset_dalloc(&psset, &alloc[i]);
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ps = test_psset_dalloc(&psset, &alloc[i]);
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expect_ptr_null(ps, "Nonempty pageslab evicted");
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}
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/* Realloc into them. */
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@ -120,7 +163,7 @@ TEST_BEGIN(test_reuse) {
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if (i % 2 == 0) {
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continue;
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}
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err = psset_alloc_reuse(&psset, &alloc[i], PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[i], PAGE);
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expect_false(err, "Nonempty psset failed page allocation.");
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edata_expect(&alloc[i], i, 1);
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}
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@ -129,7 +172,7 @@ TEST_BEGIN(test_reuse) {
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if (i % 4 > 1) {
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continue;
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}
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ps = psset_dalloc(&psset, &alloc[i]);
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ps = test_psset_dalloc(&psset, &alloc[i]);
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expect_ptr_null(ps, "Nonempty pageslab evicted");
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}
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/* And realloc 2-page allocations into them. */
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@ -137,7 +180,7 @@ TEST_BEGIN(test_reuse) {
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if (i % 4 != 0) {
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continue;
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}
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err = psset_alloc_reuse(&psset, &alloc[i], 2 * PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[i], 2 * PAGE);
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expect_false(err, "Nonempty psset failed page allocation.");
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edata_expect(&alloc[i], i, 2);
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}
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@ -146,7 +189,7 @@ TEST_BEGIN(test_reuse) {
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if (i % 4 != 0) {
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continue;
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}
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ps = psset_dalloc(&psset, &alloc[i]);
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ps = test_psset_dalloc(&psset, &alloc[i]);
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expect_ptr_null(ps, "Nonempty pageslab evicted");
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}
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/*
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@ -155,23 +198,23 @@ TEST_BEGIN(test_reuse) {
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* (since 12 % 4 == 0).
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*/
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size_t index_of_3 = 11;
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ps = psset_dalloc(&psset, &alloc[index_of_3]);
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ps = test_psset_dalloc(&psset, &alloc[index_of_3]);
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expect_ptr_null(ps, "Nonempty pageslab evicted");
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err = psset_alloc_reuse(&psset, &alloc[index_of_3], 3 * PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[index_of_3], 3 * PAGE);
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expect_false(err, "Should have been able to find alloc.");
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edata_expect(&alloc[index_of_3], index_of_3, 3);
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/* Free up a 4-page hole at the end. */
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ps = psset_dalloc(&psset, &alloc[HUGEPAGE_PAGES - 1]);
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ps = test_psset_dalloc(&psset, &alloc[HUGEPAGE_PAGES - 1]);
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expect_ptr_null(ps, "Nonempty pageslab evicted");
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ps = psset_dalloc(&psset, &alloc[HUGEPAGE_PAGES - 2]);
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ps = test_psset_dalloc(&psset, &alloc[HUGEPAGE_PAGES - 2]);
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expect_ptr_null(ps, "Nonempty pageslab evicted");
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/* Make sure we can satisfy an allocation at the very end of a slab. */
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size_t index_of_4 = HUGEPAGE_PAGES - 4;
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ps = psset_dalloc(&psset, &alloc[index_of_4]);
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ps = test_psset_dalloc(&psset, &alloc[index_of_4]);
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expect_ptr_null(ps, "Nonempty pageslab evicted");
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err = psset_alloc_reuse(&psset, &alloc[index_of_4], 4 * PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[index_of_4], 4 * PAGE);
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expect_false(err, "Should have been able to find alloc.");
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edata_expect(&alloc[index_of_4], index_of_4, 4);
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}
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@ -191,22 +234,22 @@ TEST_BEGIN(test_evict) {
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/* Alloc the whole slab. */
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edata_init_test(&alloc[0]);
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psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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test_psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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for (size_t i = 1; i < HUGEPAGE_PAGES; i++) {
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edata_init_test(&alloc[i]);
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err = psset_alloc_reuse(&psset, &alloc[i], PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[i], PAGE);
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expect_false(err, "Unxpected allocation failure");
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}
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/* Dealloc the whole slab, going forwards. */
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for (size_t i = 0; i < HUGEPAGE_PAGES - 1; i++) {
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ps = psset_dalloc(&psset, &alloc[i]);
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ps = test_psset_dalloc(&psset, &alloc[i]);
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expect_ptr_null(ps, "Nonempty pageslab evicted");
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}
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ps = psset_dalloc(&psset, &alloc[HUGEPAGE_PAGES - 1]);
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ps = test_psset_dalloc(&psset, &alloc[HUGEPAGE_PAGES - 1]);
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expect_ptr_eq(&pageslab, ps, "Empty pageslab not evicted.");
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err = psset_alloc_reuse(&psset, &alloc[0], PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[0], PAGE);
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expect_true(err, "psset should be empty.");
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}
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TEST_END
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@ -228,15 +271,15 @@ TEST_BEGIN(test_multi_pageslab) {
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/* Insert both slabs. */
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edata_init_test(&alloc[0][0]);
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psset_alloc_new(&psset, &pageslab[0], &alloc[0][0], PAGE);
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test_psset_alloc_new(&psset, &pageslab[0], &alloc[0][0], PAGE);
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edata_init_test(&alloc[1][0]);
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psset_alloc_new(&psset, &pageslab[1], &alloc[1][0], PAGE);
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test_psset_alloc_new(&psset, &pageslab[1], &alloc[1][0], PAGE);
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/* Fill them both up; make sure we do so in first-fit order. */
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for (size_t i = 0; i < 2; i++) {
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for (size_t j = 1; j < HUGEPAGE_PAGES; j++) {
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edata_init_test(&alloc[i][j]);
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err = psset_alloc_reuse(&psset, &alloc[i][j], PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[i][j], PAGE);
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expect_false(err,
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"Nonempty psset failed page allocation.");
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assert_ptr_eq(&pageslab[i], edata_ps_get(&alloc[i][j]),
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@ -248,13 +291,13 @@ TEST_BEGIN(test_multi_pageslab) {
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* Free up a 2-page hole in the earlier slab, and a 1-page one in the
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* later one. We should still pick the later one.
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*/
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ps = psset_dalloc(&psset, &alloc[0][0]);
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ps = test_psset_dalloc(&psset, &alloc[0][0]);
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expect_ptr_null(ps, "Unexpected eviction");
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ps = psset_dalloc(&psset, &alloc[0][1]);
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ps = test_psset_dalloc(&psset, &alloc[0][1]);
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expect_ptr_null(ps, "Unexpected eviction");
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ps = psset_dalloc(&psset, &alloc[1][0]);
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ps = test_psset_dalloc(&psset, &alloc[1][0]);
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expect_ptr_null(ps, "Unexpected eviction");
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err = psset_alloc_reuse(&psset, &alloc[0][0], PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[0][0], PAGE);
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expect_ptr_eq(&pageslab[1], edata_ps_get(&alloc[0][0]),
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"Should have picked the fuller pageslab");
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@ -262,14 +305,14 @@ TEST_BEGIN(test_multi_pageslab) {
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* Now both slabs have 1-page holes. Free up a second one in the later
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* slab.
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*/
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ps = psset_dalloc(&psset, &alloc[1][1]);
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ps = test_psset_dalloc(&psset, &alloc[1][1]);
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expect_ptr_null(ps, "Unexpected eviction");
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/*
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* We should be able to allocate a 2-page object, even though an earlier
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* size class is nonempty.
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*/
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err = psset_alloc_reuse(&psset, &alloc[1][0], 2 * PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[1][0], 2 * PAGE);
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expect_false(err, "Allocation should have succeeded");
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}
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TEST_END
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@ -333,23 +376,24 @@ TEST_BEGIN(test_stats) {
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stats_expect(&psset, 0);
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edata_init_test(&alloc[0]);
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psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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test_psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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for (size_t i = 1; i < HUGEPAGE_PAGES; i++) {
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stats_expect(&psset, i);
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edata_init_test(&alloc[i]);
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err = psset_alloc_reuse(&psset, &alloc[i], PAGE);
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err = test_psset_alloc_reuse(&psset, &alloc[i], PAGE);
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expect_false(err, "Nonempty psset failed page allocation.");
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}
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stats_expect(&psset, HUGEPAGE_PAGES);
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hpdata_t *ps;
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for (ssize_t i = HUGEPAGE_PAGES - 1; i >= 0; i--) {
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ps = psset_dalloc(&psset, &alloc[i]);
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ps = test_psset_dalloc(&psset, &alloc[i]);
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expect_true((ps == NULL) == (i != 0),
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"psset_dalloc should only evict a slab on the last free");
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"test_psset_dalloc should only evict a slab on the last "
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"free");
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stats_expect(&psset, i);
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}
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psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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test_psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE);
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stats_expect(&psset, 1);
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psset_remove(&psset, &pageslab);
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stats_expect(&psset, 0);
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@ -381,17 +425,17 @@ init_test_pageslabs(psset_t *psset, hpdata_t *pageslab,
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psset_init(psset);
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edata_init_test(&alloc[0]);
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psset_alloc_new(psset, pageslab, &alloc[0], PAGE);
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test_psset_alloc_new(psset, pageslab, &alloc[0], PAGE);
|
||||
for (size_t i = 1; i < HUGEPAGE_PAGES; i++) {
|
||||
edata_init_test(&alloc[i]);
|
||||
err = psset_alloc_reuse(psset, &alloc[i], PAGE);
|
||||
err = test_psset_alloc_reuse(psset, &alloc[i], PAGE);
|
||||
expect_false(err, "Nonempty psset failed page allocation.");
|
||||
expect_ptr_eq(pageslab, edata_ps_get(&alloc[i]),
|
||||
"Allocated from the wrong pageslab");
|
||||
}
|
||||
|
||||
edata_init_test(&worse_alloc[0]);
|
||||
psset_alloc_new(psset, worse_pageslab, &worse_alloc[0], PAGE);
|
||||
test_psset_alloc_new(psset, worse_pageslab, &worse_alloc[0], PAGE);
|
||||
expect_ptr_eq(worse_pageslab, edata_ps_get(&worse_alloc[0]),
|
||||
"Allocated from the wrong pageslab");
|
||||
/*
|
||||
@ -400,14 +444,15 @@ init_test_pageslabs(psset_t *psset, hpdata_t *pageslab,
|
||||
*/
|
||||
for (size_t i = 1; i < HUGEPAGE_PAGES - 1; i++) {
|
||||
edata_init_test(&worse_alloc[i]);
|
||||
err = psset_alloc_reuse(psset, &alloc[i], PAGE);
|
||||
err = test_psset_alloc_reuse(psset, &alloc[i], PAGE);
|
||||
expect_false(err, "Nonempty psset failed page allocation.");
|
||||
expect_ptr_eq(worse_pageslab, edata_ps_get(&alloc[i]),
|
||||
"Allocated from the wrong pageslab");
|
||||
}
|
||||
|
||||
/* Deallocate the last page from the older pageslab. */
|
||||
hpdata_t *evicted = psset_dalloc(psset, &alloc[HUGEPAGE_PAGES - 1]);
|
||||
hpdata_t *evicted = test_psset_dalloc(psset,
|
||||
&alloc[HUGEPAGE_PAGES - 1]);
|
||||
expect_ptr_null(evicted, "Unexpected eviction");
|
||||
}
|
||||
|
||||
@ -427,7 +472,7 @@ TEST_BEGIN(test_oldest_fit) {
|
||||
/* The edata should come from the better pageslab. */
|
||||
edata_t test_edata;
|
||||
edata_init_test(&test_edata);
|
||||
err = psset_alloc_reuse(&psset, &test_edata, PAGE);
|
||||
err = test_psset_alloc_reuse(&psset, &test_edata, PAGE);
|
||||
expect_false(err, "Nonempty psset failed page allocation");
|
||||
expect_ptr_eq(&pageslab, edata_ps_get(&test_edata),
|
||||
"Allocated from the wrong pageslab");
|
||||
@ -450,7 +495,8 @@ TEST_BEGIN(test_insert_remove) {
|
||||
|
||||
/* Remove better; should still be able to alloc from worse. */
|
||||
psset_remove(&psset, &pageslab);
|
||||
err = psset_alloc_reuse(&psset, &worse_alloc[HUGEPAGE_PAGES - 1], PAGE);
|
||||
err = test_psset_alloc_reuse(&psset, &worse_alloc[HUGEPAGE_PAGES - 1],
|
||||
PAGE);
|
||||
expect_false(err, "Removal should still leave an empty page");
|
||||
expect_ptr_eq(&worse_pageslab,
|
||||
edata_ps_get(&worse_alloc[HUGEPAGE_PAGES - 1]),
|
||||
@ -460,21 +506,21 @@ TEST_BEGIN(test_insert_remove) {
|
||||
* After deallocating the previous alloc and reinserting better, it
|
||||
* should be preferred for future allocations.
|
||||
*/
|
||||
ps = psset_dalloc(&psset, &worse_alloc[HUGEPAGE_PAGES - 1]);
|
||||
ps = test_psset_dalloc(&psset, &worse_alloc[HUGEPAGE_PAGES - 1]);
|
||||
expect_ptr_null(ps, "Incorrect eviction of nonempty pageslab");
|
||||
psset_insert(&psset, &pageslab);
|
||||
err = psset_alloc_reuse(&psset, &alloc[HUGEPAGE_PAGES - 1], PAGE);
|
||||
err = test_psset_alloc_reuse(&psset, &alloc[HUGEPAGE_PAGES - 1], PAGE);
|
||||
expect_false(err, "psset should be nonempty");
|
||||
expect_ptr_eq(&pageslab, edata_ps_get(&alloc[HUGEPAGE_PAGES - 1]),
|
||||
"Removal/reinsertion shouldn't change ordering");
|
||||
/*
|
||||
* After deallocating and removing both, allocations should fail.
|
||||
*/
|
||||
ps = psset_dalloc(&psset, &alloc[HUGEPAGE_PAGES - 1]);
|
||||
ps = test_psset_dalloc(&psset, &alloc[HUGEPAGE_PAGES - 1]);
|
||||
expect_ptr_null(ps, "Incorrect eviction");
|
||||
psset_remove(&psset, &pageslab);
|
||||
psset_remove(&psset, &worse_pageslab);
|
||||
err = psset_alloc_reuse(&psset, &alloc[HUGEPAGE_PAGES - 1], PAGE);
|
||||
err = test_psset_alloc_reuse(&psset, &alloc[HUGEPAGE_PAGES - 1], PAGE);
|
||||
expect_true(err, "psset should be empty, but an alloc succeeded");
|
||||
}
|
||||
TEST_END
|
||||
|
Loading…
Reference in New Issue
Block a user