#include "test/jemalloc_test.h" #include "jemalloc/internal/psset.h" #define PAGESLAB_PAGES 64 #define PAGESLAB_SIZE (PAGESLAB_PAGES << LG_PAGE) #define PAGESLAB_SN 123 #define PAGESLAB_ADDR ((void *)(1234 << LG_PAGE)) #define ALLOC_ARENA_IND 111 #define ALLOC_ESN 222 static void edata_init_test(edata_t *edata) { memset(edata, 0, sizeof(*edata)); edata_arena_ind_set(edata, ALLOC_ARENA_IND); edata_esn_set(edata, ALLOC_ESN); } static void edata_expect(edata_t *edata, size_t page_offset, size_t page_cnt) { /* * Note that allocations should get the arena ind of their home * arena, *not* the arena ind of the pageslab allocator. */ expect_u_eq(ALLOC_ARENA_IND, edata_arena_ind_get(edata), "Arena ind changed"); expect_ptr_eq( (void *)((uintptr_t)PAGESLAB_ADDR + (page_offset << LG_PAGE)), edata_addr_get(edata), "Didn't allocate in order"); expect_zu_eq(page_cnt << LG_PAGE, edata_size_get(edata), ""); expect_false(edata_slab_get(edata), ""); expect_u_eq(SC_NSIZES, edata_szind_get_maybe_invalid(edata), ""); expect_zu_eq(0, edata_sn_get(edata), ""); expect_d_eq(edata_state_get(edata), extent_state_active, ""); expect_false(edata_zeroed_get(edata), ""); expect_true(edata_committed_get(edata), ""); expect_d_eq(EXTENT_PAI_HPA, edata_pai_get(edata), ""); expect_false(edata_is_head_get(edata), ""); } TEST_BEGIN(test_empty) { bool err; edata_t pageslab; memset(&pageslab, 0, sizeof(pageslab)); edata_t alloc; edata_init(&pageslab, /* arena_ind */ 0, PAGESLAB_ADDR, PAGESLAB_SIZE, /* slab */ true, SC_NSIZES, PAGESLAB_SN, extent_state_active, /* zeroed */ false, /* comitted */ true, EXTENT_PAI_HPA, EXTENT_IS_HEAD); edata_init_test(&alloc); psset_t psset; psset_init(&psset); /* Empty psset should return fail allocations. */ err = psset_alloc_reuse(&psset, &alloc, PAGE); expect_true(err, "Empty psset succeeded in an allocation."); } TEST_END TEST_BEGIN(test_fill) { bool err; edata_t pageslab; memset(&pageslab, 0, sizeof(pageslab)); edata_t alloc[PAGESLAB_PAGES]; edata_init(&pageslab, /* arena_ind */ 0, PAGESLAB_ADDR, PAGESLAB_SIZE, /* slab */ true, SC_NSIZES, PAGESLAB_SN, extent_state_active, /* zeroed */ false, /* comitted */ true, EXTENT_PAI_HPA, EXTENT_IS_HEAD); psset_t psset; psset_init(&psset); edata_init_test(&alloc[0]); psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE); for (size_t i = 1; i < PAGESLAB_PAGES; i++) { edata_init_test(&alloc[i]); err = psset_alloc_reuse(&psset, &alloc[i], PAGE); expect_false(err, "Nonempty psset failed page allocation."); } for (size_t i = 0; i < PAGESLAB_PAGES; i++) { edata_t *edata = &alloc[i]; edata_expect(edata, i, 1); } /* The pageslab, and thus psset, should now have no allocations. */ edata_t extra_alloc; edata_init_test(&extra_alloc); err = psset_alloc_reuse(&psset, &extra_alloc, PAGE); expect_true(err, "Alloc succeeded even though psset should be empty"); } TEST_END TEST_BEGIN(test_reuse) { bool err; edata_t *ps; edata_t pageslab; memset(&pageslab, 0, sizeof(pageslab)); edata_t alloc[PAGESLAB_PAGES]; edata_init(&pageslab, /* arena_ind */ 0, PAGESLAB_ADDR, PAGESLAB_SIZE, /* slab */ true, SC_NSIZES, PAGESLAB_SN, extent_state_active, /* zeroed */ false, /* comitted */ true, EXTENT_PAI_HPA, EXTENT_IS_HEAD); psset_t psset; psset_init(&psset); edata_init_test(&alloc[0]); psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE); for (size_t i = 1; i < PAGESLAB_PAGES; i++) { edata_init_test(&alloc[i]); err = psset_alloc_reuse(&psset, &alloc[i], PAGE); expect_false(err, "Nonempty psset failed page allocation."); } /* Free odd indices. */ for (size_t i = 0; i < PAGESLAB_PAGES; i ++) { if (i % 2 == 0) { continue; } ps = psset_dalloc(&psset, &alloc[i]); expect_ptr_null(ps, "Nonempty pageslab evicted"); } /* Realloc into them. */ for (size_t i = 0; i < PAGESLAB_PAGES; i++) { if (i % 2 == 0) { continue; } err = psset_alloc_reuse(&psset, &alloc[i], PAGE); expect_false(err, "Nonempty psset failed page allocation."); edata_expect(&alloc[i], i, 1); } /* Now, free the pages at indices 0 or 1 mod 2. */ for (size_t i = 0; i < PAGESLAB_PAGES; i++) { if (i % 4 > 1) { continue; } ps = psset_dalloc(&psset, &alloc[i]); expect_ptr_null(ps, "Nonempty pageslab evicted"); } /* And realloc 2-page allocations into them. */ for (size_t i = 0; i < PAGESLAB_PAGES; i++) { if (i % 4 != 0) { continue; } err = psset_alloc_reuse(&psset, &alloc[i], 2 * PAGE); expect_false(err, "Nonempty psset failed page allocation."); edata_expect(&alloc[i], i, 2); } /* Free all the 2-page allocations. */ for (size_t i = 0; i < PAGESLAB_PAGES; i++) { if (i % 4 != 0) { continue; } ps = psset_dalloc(&psset, &alloc[i]); expect_ptr_null(ps, "Nonempty pageslab evicted"); } /* * Free up a 1-page hole next to a 2-page hole, but somewhere in the * middle of the pageslab. Index 11 should be right before such a hole * (since 12 % 4 == 0). */ size_t index_of_3 = 11; ps = psset_dalloc(&psset, &alloc[index_of_3]); expect_ptr_null(ps, "Nonempty pageslab evicted"); err = psset_alloc_reuse(&psset, &alloc[index_of_3], 3 * PAGE); expect_false(err, "Should have been able to find alloc."); edata_expect(&alloc[index_of_3], index_of_3, 3); /* Free up a 4-page hole at the end. */ ps = psset_dalloc(&psset, &alloc[PAGESLAB_PAGES - 1]); expect_ptr_null(ps, "Nonempty pageslab evicted"); ps = psset_dalloc(&psset, &alloc[PAGESLAB_PAGES - 2]); expect_ptr_null(ps, "Nonempty pageslab evicted"); /* Make sure we can satisfy an allocation at the very end of a slab. */ size_t index_of_4 = PAGESLAB_PAGES - 4; ps = psset_dalloc(&psset, &alloc[index_of_4]); expect_ptr_null(ps, "Nonempty pageslab evicted"); err = psset_alloc_reuse(&psset, &alloc[index_of_4], 4 * PAGE); expect_false(err, "Should have been able to find alloc."); edata_expect(&alloc[index_of_4], index_of_4, 4); } TEST_END TEST_BEGIN(test_evict) { bool err; edata_t *ps; edata_t pageslab; memset(&pageslab, 0, sizeof(pageslab)); edata_t alloc[PAGESLAB_PAGES]; edata_init(&pageslab, /* arena_ind */ 0, PAGESLAB_ADDR, PAGESLAB_SIZE, /* slab */ true, SC_NSIZES, PAGESLAB_SN, extent_state_active, /* zeroed */ false, /* comitted */ true, EXTENT_PAI_HPA, EXTENT_IS_HEAD); psset_t psset; psset_init(&psset); /* Alloc the whole slab. */ edata_init_test(&alloc[0]); psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE); for (size_t i = 1; i < PAGESLAB_PAGES; i++) { edata_init_test(&alloc[i]); err = psset_alloc_reuse(&psset, &alloc[i], PAGE); expect_false(err, "Unxpected allocation failure"); } /* Dealloc the whole slab, going forwards. */ for (size_t i = 0; i < PAGESLAB_PAGES - 1; i++) { ps = psset_dalloc(&psset, &alloc[i]); expect_ptr_null(ps, "Nonempty pageslab evicted"); } ps = psset_dalloc(&psset, &alloc[PAGESLAB_PAGES - 1]); expect_ptr_eq(&pageslab, ps, "Empty pageslab not evicted."); err = psset_alloc_reuse(&psset, &alloc[0], PAGE); expect_true(err, "psset should be empty."); } TEST_END TEST_BEGIN(test_multi_pageslab) { bool err; edata_t *ps; edata_t pageslab[2]; memset(&pageslab, 0, sizeof(pageslab)); edata_t alloc[2][PAGESLAB_PAGES]; edata_init(&pageslab[0], /* arena_ind */ 0, PAGESLAB_ADDR, PAGESLAB_SIZE, /* slab */ true, SC_NSIZES, PAGESLAB_SN, extent_state_active, /* zeroed */ false, /* comitted */ true, EXTENT_PAI_HPA, EXTENT_IS_HEAD); edata_init(&pageslab[1], /* arena_ind */ 0, (void *)((uintptr_t)PAGESLAB_ADDR + PAGESLAB_SIZE), PAGESLAB_SIZE, /* slab */ true, SC_NSIZES, PAGESLAB_SN, extent_state_active, /* zeroed */ false, /* comitted */ true, EXTENT_PAI_HPA, EXTENT_IS_HEAD); psset_t psset; psset_init(&psset); /* Insert both slabs. */ edata_init_test(&alloc[0][0]); psset_alloc_new(&psset, &pageslab[0], &alloc[0][0], PAGE); edata_init_test(&alloc[1][0]); psset_alloc_new(&psset, &pageslab[1], &alloc[1][0], PAGE); /* Fill them both up; make sure we do so in first-fit order. */ for (size_t i = 0; i < 2; i++) { for (size_t j = 1; j < PAGESLAB_PAGES; j++) { edata_init_test(&alloc[i][j]); err = psset_alloc_reuse(&psset, &alloc[i][j], PAGE); expect_false(err, "Nonempty psset failed page allocation."); assert_ptr_eq(&pageslab[i], edata_ps_get(&alloc[i][j]), "Didn't pick pageslabs in first-fit"); } } /* * Free up a 2-page hole in the earlier slab, and a 1-page one in the * later one. We should still pick the earlier slab for a 1-page * allocation. */ ps = psset_dalloc(&psset, &alloc[0][0]); expect_ptr_null(ps, "Unexpected eviction"); ps = psset_dalloc(&psset, &alloc[0][1]); expect_ptr_null(ps, "Unexpected eviction"); ps = psset_dalloc(&psset, &alloc[1][0]); expect_ptr_null(ps, "Unexpected eviction"); err = psset_alloc_reuse(&psset, &alloc[0][0], PAGE); expect_ptr_eq(&pageslab[0], edata_ps_get(&alloc[0][0]), "Should have picked first pageslab"); /* * Now both slabs have 1-page holes. Free up a second one in the later * slab. */ ps = psset_dalloc(&psset, &alloc[1][1]); expect_ptr_null(ps, "Unexpected eviction"); /* * We should be able to allocate a 2-page object, even though an earlier * size class is nonempty. */ err = psset_alloc_reuse(&psset, &alloc[1][0], 2 * PAGE); expect_false(err, "Allocation should have succeeded"); } TEST_END static void stats_expect_empty(psset_bin_stats_t *stats) { assert_zu_eq(0, stats->npageslabs, "Supposedly empty bin had positive npageslabs"); expect_zu_eq(0, stats->nactive, "Unexpected nonempty bin" "Supposedly empty bin had positive nactive"); expect_zu_eq(0, stats->ninactive, "Unexpected nonempty bin" "Supposedly empty bin had positive ninactive"); } static void stats_expect(psset_t *psset, size_t nactive) { if (nactive == PAGESLAB_PAGES) { expect_zu_eq(1, psset->full_slab_stats.npageslabs, "Expected a full slab"); expect_zu_eq(PAGESLAB_PAGES, psset->full_slab_stats.nactive, "Should have exactly filled the bin"); expect_zu_eq(0, psset->full_slab_stats.ninactive, "Should never have inactive pages in a full slab"); } else { stats_expect_empty(&psset->full_slab_stats); } size_t ninactive = PAGESLAB_PAGES - nactive; pszind_t nonempty_pind = PSSET_NPSIZES; if (ninactive != 0 && ninactive < PAGESLAB_PAGES) { nonempty_pind = sz_psz2ind(sz_psz_quantize_floor( ninactive << LG_PAGE)); } for (pszind_t i = 0; i < PSSET_NPSIZES; i++) { if (i == nonempty_pind) { assert_zu_eq(1, psset->slab_stats[i].npageslabs, "Should have found a slab"); expect_zu_eq(nactive, psset->slab_stats[i].nactive, "Mismatch in active pages"); expect_zu_eq(ninactive, psset->slab_stats[i].ninactive, "Mismatch in inactive pages"); } else { stats_expect_empty(&psset->slab_stats[i]); } } } TEST_BEGIN(test_stats) { bool err; edata_t pageslab; memset(&pageslab, 0, sizeof(pageslab)); edata_t alloc[PAGESLAB_PAGES]; edata_init(&pageslab, /* arena_ind */ 0, PAGESLAB_ADDR, PAGESLAB_SIZE, /* slab */ true, SC_NSIZES, PAGESLAB_SN, extent_state_active, /* zeroed */ false, /* comitted */ true, EXTENT_PAI_HPA, EXTENT_IS_HEAD); psset_t psset; psset_init(&psset); stats_expect(&psset, 0); edata_init_test(&alloc[0]); psset_alloc_new(&psset, &pageslab, &alloc[0], PAGE); for (size_t i = 1; i < PAGESLAB_PAGES; i++) { stats_expect(&psset, i); edata_init_test(&alloc[i]); err = psset_alloc_reuse(&psset, &alloc[i], PAGE); expect_false(err, "Nonempty psset failed page allocation."); } stats_expect(&psset, PAGESLAB_PAGES); for (ssize_t i = PAGESLAB_PAGES - 1; i >= 0; i--) { edata_t *ps = psset_dalloc(&psset, &alloc[i]); expect_true((ps == NULL) == (i != 0), "psset_dalloc should only evict a slab on the last free"); stats_expect(&psset, i); } } TEST_END int main(void) { return test_no_reentrancy( test_empty, test_fill, test_reuse, test_evict, test_multi_pageslab, test_stats); }