#include "test/jemalloc_test.h" #include "jemalloc/internal/rtree.h" rtree_node_alloc_t *rtree_node_alloc_orig; rtree_node_dalloc_t *rtree_node_dalloc_orig; rtree_leaf_alloc_t *rtree_leaf_alloc_orig; rtree_leaf_dalloc_t *rtree_leaf_dalloc_orig; /* Potentially too large to safely place on the stack. */ rtree_t test_rtree; static rtree_node_elm_t * rtree_node_alloc_intercept(tsdn_t *tsdn, rtree_t *rtree, size_t nelms) { rtree_node_elm_t *node; if (rtree != &test_rtree) { return rtree_node_alloc_orig(tsdn, rtree, nelms); } malloc_mutex_unlock(tsdn, &rtree->init_lock); node = (rtree_node_elm_t *)calloc(nelms, sizeof(rtree_node_elm_t)); assert_ptr_not_null(node, "Unexpected calloc() failure"); malloc_mutex_lock(tsdn, &rtree->init_lock); return node; } static void rtree_node_dalloc_intercept(tsdn_t *tsdn, rtree_t *rtree, rtree_node_elm_t *node) { if (rtree != &test_rtree) { rtree_node_dalloc_orig(tsdn, rtree, node); return; } free(node); } static rtree_leaf_elm_t * rtree_leaf_alloc_intercept(tsdn_t *tsdn, rtree_t *rtree, size_t nelms) { rtree_leaf_elm_t *leaf; if (rtree != &test_rtree) { return rtree_leaf_alloc_orig(tsdn, rtree, nelms); } malloc_mutex_unlock(tsdn, &rtree->init_lock); leaf = (rtree_leaf_elm_t *)calloc(nelms, sizeof(rtree_leaf_elm_t)); assert_ptr_not_null(leaf, "Unexpected calloc() failure"); malloc_mutex_lock(tsdn, &rtree->init_lock); return leaf; } static void rtree_leaf_dalloc_intercept(tsdn_t *tsdn, rtree_t *rtree, rtree_leaf_elm_t *leaf) { if (rtree != &test_rtree) { rtree_leaf_dalloc_orig(tsdn, rtree, leaf); return; } free(leaf); } TEST_BEGIN(test_rtree_read_empty) { tsdn_t *tsdn; tsdn = tsdn_fetch(); rtree_t *rtree = &test_rtree; rtree_ctx_t rtree_ctx; rtree_ctx_data_init(&rtree_ctx); assert_false(rtree_new(rtree, false), "Unexpected rtree_new() failure"); assert_ptr_null(rtree_extent_read(tsdn, rtree, &rtree_ctx, PAGE, false), "rtree_extent_read() should return NULL for empty tree"); rtree_delete(tsdn, rtree); } TEST_END #undef NTHREADS #undef NITERS #undef SEED TEST_BEGIN(test_rtree_extrema) { extent_t extent_a, extent_b; extent_init(&extent_a, NULL, NULL, LARGE_MINCLASS, false, sz_size2index(LARGE_MINCLASS), 0, extent_state_active, false, false, true); extent_init(&extent_b, NULL, NULL, 0, false, NSIZES, 0, extent_state_active, false, false, true); tsdn_t *tsdn = tsdn_fetch(); rtree_t *rtree = &test_rtree; rtree_ctx_t rtree_ctx; rtree_ctx_data_init(&rtree_ctx); assert_false(rtree_new(rtree, false), "Unexpected rtree_new() failure"); assert_false(rtree_write(tsdn, rtree, &rtree_ctx, PAGE, &extent_a, extent_szind_get(&extent_a), extent_slab_get(&extent_a)), "Unexpected rtree_write() failure"); rtree_szind_slab_update(tsdn, rtree, &rtree_ctx, PAGE, extent_szind_get(&extent_a), extent_slab_get(&extent_a)); assert_ptr_eq(rtree_extent_read(tsdn, rtree, &rtree_ctx, PAGE, true), &extent_a, "rtree_extent_read() should return previously set value"); assert_false(rtree_write(tsdn, rtree, &rtree_ctx, ~((uintptr_t)0), &extent_b, extent_szind_get_maybe_invalid(&extent_b), extent_slab_get(&extent_b)), "Unexpected rtree_write() failure"); assert_ptr_eq(rtree_extent_read(tsdn, rtree, &rtree_ctx, ~((uintptr_t)0), true), &extent_b, "rtree_extent_read() should return previously set value"); rtree_delete(tsdn, rtree); } TEST_END TEST_BEGIN(test_rtree_bits) { tsdn_t *tsdn = tsdn_fetch(); uintptr_t keys[] = {PAGE, PAGE + 1, PAGE + (((uintptr_t)1) << LG_PAGE) - 1}; extent_t extent; extent_init(&extent, NULL, NULL, 0, false, NSIZES, 0, extent_state_active, false, false, true); rtree_t *rtree = &test_rtree; rtree_ctx_t rtree_ctx; rtree_ctx_data_init(&rtree_ctx); assert_false(rtree_new(rtree, false), "Unexpected rtree_new() failure"); for (unsigned i = 0; i < sizeof(keys)/sizeof(uintptr_t); i++) { assert_false(rtree_write(tsdn, rtree, &rtree_ctx, keys[i], &extent, NSIZES, false), "Unexpected rtree_write() failure"); for (unsigned j = 0; j < sizeof(keys)/sizeof(uintptr_t); j++) { assert_ptr_eq(rtree_extent_read(tsdn, rtree, &rtree_ctx, keys[j], true), &extent, "rtree_extent_read() should return previously set " "value and ignore insignificant key bits; i=%u, " "j=%u, set key=%#"FMTxPTR", get key=%#"FMTxPTR, i, j, keys[i], keys[j]); } assert_ptr_null(rtree_extent_read(tsdn, rtree, &rtree_ctx, (((uintptr_t)2) << LG_PAGE), false), "Only leftmost rtree leaf should be set; i=%u", i); rtree_clear(tsdn, rtree, &rtree_ctx, keys[i]); } rtree_delete(tsdn, rtree); } TEST_END TEST_BEGIN(test_rtree_random) { #define NSET 16 #define SEED 42 sfmt_t *sfmt = init_gen_rand(SEED); tsdn_t *tsdn = tsdn_fetch(); uintptr_t keys[NSET]; rtree_t *rtree = &test_rtree; rtree_ctx_t rtree_ctx; rtree_ctx_data_init(&rtree_ctx); extent_t extent; extent_init(&extent, NULL, NULL, 0, false, NSIZES, 0, extent_state_active, false, false, true); assert_false(rtree_new(rtree, false), "Unexpected rtree_new() failure"); for (unsigned i = 0; i < NSET; i++) { keys[i] = (uintptr_t)gen_rand64(sfmt); rtree_leaf_elm_t *elm = rtree_leaf_elm_lookup(tsdn, rtree, &rtree_ctx, keys[i], false, true); assert_ptr_not_null(elm, "Unexpected rtree_leaf_elm_lookup() failure"); rtree_leaf_elm_write(tsdn, rtree, elm, &extent, NSIZES, false); assert_ptr_eq(rtree_extent_read(tsdn, rtree, &rtree_ctx, keys[i], true), &extent, "rtree_extent_read() should return previously set value"); } for (unsigned i = 0; i < NSET; i++) { assert_ptr_eq(rtree_extent_read(tsdn, rtree, &rtree_ctx, keys[i], true), &extent, "rtree_extent_read() should return previously set value, " "i=%u", i); } for (unsigned i = 0; i < NSET; i++) { rtree_clear(tsdn, rtree, &rtree_ctx, keys[i]); assert_ptr_null(rtree_extent_read(tsdn, rtree, &rtree_ctx, keys[i], true), "rtree_extent_read() should return previously set value"); } for (unsigned i = 0; i < NSET; i++) { assert_ptr_null(rtree_extent_read(tsdn, rtree, &rtree_ctx, keys[i], true), "rtree_extent_read() should return previously set value"); } rtree_delete(tsdn, rtree); fini_gen_rand(sfmt); #undef NSET #undef SEED } TEST_END int main(void) { rtree_node_alloc_orig = rtree_node_alloc; rtree_node_alloc = rtree_node_alloc_intercept; rtree_node_dalloc_orig = rtree_node_dalloc; rtree_node_dalloc = rtree_node_dalloc_intercept; rtree_leaf_alloc_orig = rtree_leaf_alloc; rtree_leaf_alloc = rtree_leaf_alloc_intercept; rtree_leaf_dalloc_orig = rtree_leaf_dalloc; rtree_leaf_dalloc = rtree_leaf_dalloc_intercept; return test( test_rtree_read_empty, test_rtree_extrema, test_rtree_bits, test_rtree_random); }