/* * Copyright (c) 2020, Oracle and/or its affiliates. All rights reserved. * Copyright (c) 2020 SAP SE. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #include "precompiled.hpp" #include "memory/metaspace/commitLimiter.hpp" #include "memory/metaspace/counters.hpp" #include "memory/metaspace/internalStats.hpp" #include "memory/metaspace/metaspaceArena.hpp" #include "memory/metaspace/metaspaceArenaGrowthPolicy.hpp" #include "memory/metaspace/metaspaceSettings.hpp" #include "memory/metaspace/metaspaceStatistics.hpp" #include "runtime/mutex.hpp" #include "runtime/mutexLocker.hpp" #include "utilities/debug.hpp" #include "utilities/globalDefinitions.hpp" //#define LOG_PLEASE #include "metaspaceGtestCommon.hpp" #include "metaspaceGtestContexts.hpp" #include "metaspaceGtestRangeHelpers.hpp" using metaspace::ArenaGrowthPolicy; using metaspace::CommitLimiter; using metaspace::InternalStats; using metaspace::MemRangeCounter; using metaspace::MetaspaceArena; using metaspace::SizeAtomicCounter; using metaspace::Settings; using metaspace::ArenaStats; // See metaspaceArena.cpp : needed for predicting commit sizes. namespace metaspace { extern size_t get_raw_word_size_for_requested_word_size(size_t net_word_size); } class MetaspaceArenaTestHelper { MetaspaceGtestContext& _context; Mutex* _lock; const ArenaGrowthPolicy* _growth_policy; SizeAtomicCounter _used_words_counter; MetaspaceArena* _arena; void initialize(const ArenaGrowthPolicy* growth_policy, const char* name = "gtest-MetaspaceArena") { _growth_policy = growth_policy; _lock = new Mutex(Monitor::native, "gtest-MetaspaceArenaTest-lock", false, Monitor::_safepoint_check_never); // Lock during space creation, since this is what happens in the VM too // (see ClassLoaderData::metaspace_non_null(), which we mimick here). { MutexLocker ml(_lock, Mutex::_no_safepoint_check_flag); _arena = new MetaspaceArena(&_context.cm(), _growth_policy, _lock, &_used_words_counter, name); } DEBUG_ONLY(_arena->verify()); } public: // Create a helper; growth policy for arena is determined by the given spacetype|class tupel MetaspaceArenaTestHelper(MetaspaceGtestContext& helper, Metaspace::MetaspaceType space_type, bool is_class, const char* name = "gtest-MetaspaceArena") : _context(helper) { initialize(ArenaGrowthPolicy::policy_for_space_type(space_type, is_class), name); } // Create a helper; growth policy is directly specified MetaspaceArenaTestHelper(MetaspaceGtestContext& helper, const ArenaGrowthPolicy* growth_policy, const char* name = "gtest-MetaspaceArena") : _context(helper) { initialize(growth_policy, name); } ~MetaspaceArenaTestHelper() { delete_arena_with_tests(); delete _lock; } const CommitLimiter& limiter() const { return _context.commit_limiter(); } MetaspaceArena* arena() const { return _arena; } SizeAtomicCounter& used_words_counter() { return _used_words_counter; } // Note: all test functions return void due to gtests limitation that we cannot use ASSERT // in non-void returning tests. void delete_arena_with_tests() { if (_arena != NULL) { size_t used_words_before = _used_words_counter.get(); size_t committed_words_before = limiter().committed_words(); DEBUG_ONLY(_arena->verify()); delete _arena; _arena = NULL; size_t used_words_after = _used_words_counter.get(); size_t committed_words_after = limiter().committed_words(); ASSERT_0(used_words_after); if (Settings::uncommit_free_chunks()) { ASSERT_LE(committed_words_after, committed_words_before); } else { ASSERT_EQ(committed_words_after, committed_words_before); } } } void usage_numbers_with_test(size_t* p_used, size_t* p_committed, size_t* p_capacity) const { _arena->usage_numbers(p_used, p_committed, p_capacity); if (p_used != NULL) { if (p_committed != NULL) { ASSERT_GE(*p_committed, *p_used); } // Since we own the used words counter, it should reflect our usage number 1:1 ASSERT_EQ(_used_words_counter.get(), *p_used); } if (p_committed != NULL && p_capacity != NULL) { ASSERT_GE(*p_capacity, *p_committed); } } // Allocate; caller expects success; return pointer in *p_return_value void allocate_from_arena_with_tests_expect_success(MetaWord** p_return_value, size_t word_size) { allocate_from_arena_with_tests(p_return_value, word_size); ASSERT_NOT_NULL(*p_return_value); } // Allocate; caller expects success but is not interested in return value void allocate_from_arena_with_tests_expect_success(size_t word_size) { MetaWord* dummy = NULL; allocate_from_arena_with_tests_expect_success(&dummy, word_size); } // Allocate; caller expects failure void allocate_from_arena_with_tests_expect_failure(size_t word_size) { MetaWord* dummy = NULL; allocate_from_arena_with_tests(&dummy, word_size); ASSERT_NULL(dummy); } // Allocate; it may or may not work; return value in *p_return_value void allocate_from_arena_with_tests(MetaWord** p_return_value, size_t word_size) { // Note: usage_numbers walks all chunks in use and counts. size_t used = 0, committed = 0, capacity = 0; usage_numbers_with_test(&used, &committed, &capacity); size_t possible_expansion = limiter().possible_expansion_words(); MetaWord* p = _arena->allocate(word_size); SOMETIMES(DEBUG_ONLY(_arena->verify();)) size_t used2 = 0, committed2 = 0, capacity2 = 0; usage_numbers_with_test(&used2, &committed2, &capacity2); if (p == NULL) { // Allocation failed. if (Settings::new_chunks_are_fully_committed()) { ASSERT_LT(possible_expansion, MAX_CHUNK_WORD_SIZE); } else { ASSERT_LT(possible_expansion, word_size); } ASSERT_EQ(used, used2); ASSERT_EQ(committed, committed2); ASSERT_EQ(capacity, capacity2); } else { // Allocation succeeded. Should be correctly aligned. ASSERT_TRUE(is_aligned(p, sizeof(MetaWord))); // used: may go up or may not (since our request may have been satisfied from the freeblocklist // whose content already counts as used). // committed: may go up, may not // capacity: ditto ASSERT_GE(used2, used); ASSERT_GE(committed2, committed); ASSERT_GE(capacity2, capacity); } *p_return_value = p; } // Allocate; it may or may not work; but caller does not care for the result value void allocate_from_arena_with_tests(size_t word_size) { MetaWord* dummy = NULL; allocate_from_arena_with_tests(&dummy, word_size); } void deallocate_with_tests(MetaWord* p, size_t word_size) { size_t used = 0, committed = 0, capacity = 0; usage_numbers_with_test(&used, &committed, &capacity); _arena->deallocate(p, word_size); SOMETIMES(DEBUG_ONLY(_arena->verify();)) size_t used2 = 0, committed2 = 0, capacity2 = 0; usage_numbers_with_test(&used2, &committed2, &capacity2); // Nothing should have changed. Deallocated blocks are added to the free block list // which still counts as used. ASSERT_EQ(used2, used); ASSERT_EQ(committed2, committed); ASSERT_EQ(capacity2, capacity); } ArenaStats get_arena_statistics() const { ArenaStats stats; _arena->add_to_statistics(&stats); return stats; } // Convenience method to return number of chunks in arena (including current chunk) int get_number_of_chunks() const { return get_arena_statistics().totals()._num; } }; static void test_basics(size_t commit_limit, bool is_micro) { MetaspaceGtestContext context(commit_limit); MetaspaceArenaTestHelper helper(context, is_micro ? Metaspace::ReflectionMetaspaceType : Metaspace::StandardMetaspaceType, false); helper.allocate_from_arena_with_tests(1); helper.allocate_from_arena_with_tests(128); helper.allocate_from_arena_with_tests(128 * K); helper.allocate_from_arena_with_tests(1); helper.allocate_from_arena_with_tests(128); helper.allocate_from_arena_with_tests(128 * K); } TEST_VM(metaspace, MetaspaceArena_basics_micro_nolimit) { test_basics(max_uintx, true); } TEST_VM(metaspace, MetaspaceArena_basics_micro_limit) { test_basics(256 * K, true); } TEST_VM(metaspace, MetaspaceArena_basics_standard_nolimit) { test_basics(max_uintx, false); } TEST_VM(metaspace, MetaspaceArena_basics_standard_limit) { test_basics(256 * K, false); } // Test chunk enlargement: // A single MetaspaceArena, left undisturbed with place to grow. Slowly fill arena up. // We should see at least some occurrences of chunk-in-place enlargement. static void test_chunk_enlargment_simple(Metaspace::MetaspaceType spacetype, bool is_class) { MetaspaceGtestContext context; MetaspaceArenaTestHelper helper(context, (Metaspace::MetaspaceType)spacetype, is_class); uint64_t n1 = metaspace::InternalStats::num_chunks_enlarged(); size_t allocated = 0; while (allocated <= MAX_CHUNK_WORD_SIZE && metaspace::InternalStats::num_chunks_enlarged() == n1) { size_t s = IntRange(32, 128).random_value(); helper.allocate_from_arena_with_tests_expect_success(s); allocated += metaspace::get_raw_word_size_for_requested_word_size(s); } EXPECT_GT(metaspace::InternalStats::num_chunks_enlarged(), n1); } // Do this test for some of the standard types; don't do it for the boot loader type // since that one starts out with max chunk size so we would not see any enlargement. TEST_VM(metaspace, MetaspaceArena_test_enlarge_in_place_standard_c) { test_chunk_enlargment_simple(Metaspace::StandardMetaspaceType, true); } TEST_VM(metaspace, MetaspaceArena_test_enlarge_in_place_standard_nc) { test_chunk_enlargment_simple(Metaspace::StandardMetaspaceType, false); } TEST_VM(metaspace, MetaspaceArena_test_enlarge_in_place_micro_c) { test_chunk_enlargment_simple(Metaspace::ReflectionMetaspaceType, true); } TEST_VM(metaspace, MetaspaceArena_test_enlarge_in_place_micro_nc) { test_chunk_enlargment_simple(Metaspace::ReflectionMetaspaceType, false); } // Test chunk enlargement: // A single MetaspaceArena, left undisturbed with place to grow. Slowly fill arena up. // We should see occurrences of chunk-in-place enlargement. // Here, we give it an ideal policy which should enable the initial chunk to grow unmolested // until finish. TEST_VM(metaspace, MetaspaceArena_test_enlarge_in_place_2) { if (Settings::use_allocation_guard()) { return; } // Note: internally, chunk in-place enlargement is disallowed if growing the chunk // would cause the arena to claim more memory than its growth policy allows. This // is done to prevent the arena to grow too fast. // // In order to test in-place growth here without that restriction I give it an // artificial growth policy which starts out with a tiny chunk size, then balloons // right up to max chunk size. This will cause the initial chunk to be tiny, and // then the arena is able to grow it without violating growth policy. chunklevel_t growth[] = { HIGHEST_CHUNK_LEVEL, ROOT_CHUNK_LEVEL }; ArenaGrowthPolicy growth_policy(growth, 2); MetaspaceGtestContext context; MetaspaceArenaTestHelper helper(context, &growth_policy); uint64_t n1 = metaspace::InternalStats::num_chunks_enlarged(); size_t allocated = 0; while (allocated <= MAX_CHUNK_WORD_SIZE) { size_t s = IntRange(32, 128).random_value(); helper.allocate_from_arena_with_tests_expect_success(s); allocated += metaspace::get_raw_word_size_for_requested_word_size(s); if (allocated <= MAX_CHUNK_WORD_SIZE) { // Chunk should have been enlarged in place ASSERT_EQ(1, helper.get_number_of_chunks()); } else { // Next chunk should have started ASSERT_EQ(2, helper.get_number_of_chunks()); } } int times_chunk_were_enlarged = metaspace::InternalStats::num_chunks_enlarged() - n1; LOG("chunk was enlarged %d times.", times_chunk_were_enlarged); ASSERT_GT0(times_chunk_were_enlarged); } // Regression test: Given a single MetaspaceArena, left undisturbed with place to grow, // test that in place enlargement correctly fails if growing the chunk would bring us // beyond the max. size of a chunk. TEST_VM(metaspace, MetaspaceArena_test_failing_to_enlarge_in_place_max_chunk_size) { if (Settings::use_allocation_guard()) { return; } MetaspaceGtestContext context; for (size_t first_allocation_size = 1; first_allocation_size <= MAX_CHUNK_WORD_SIZE / 2; first_allocation_size *= 2) { MetaspaceArenaTestHelper helper(context, Metaspace::StandardMetaspaceType, false); // we allocate first a small amount, then the full amount possible. // The sum of first and second allocation should bring us above root chunk size. // This should work, we should not see any problems, but no chunk enlargement should // happen. int n1 = metaspace::InternalStats::num_chunks_enlarged(); helper.allocate_from_arena_with_tests_expect_success(first_allocation_size); EXPECT_EQ(helper.get_number_of_chunks(), 1); helper.allocate_from_arena_with_tests_expect_success(MAX_CHUNK_WORD_SIZE - first_allocation_size + 1); EXPECT_EQ(helper.get_number_of_chunks(), 2); int times_chunk_were_enlarged = metaspace::InternalStats::num_chunks_enlarged() - n1; LOG("chunk was enlarged %d times.", times_chunk_were_enlarged); EXPECT_0(times_chunk_were_enlarged); } } // Regression test: Given a single MetaspaceArena, left undisturbed with place to grow, // test that in place enlargement correctly fails if growing the chunk would cause more // than doubling its size TEST_VM(metaspace, MetaspaceArena_test_failing_to_enlarge_in_place_doubling_chunk_size) { if (Settings::use_allocation_guard()) { return; } MetaspaceGtestContext context; MetaspaceArenaTestHelper helper(context, Metaspace::StandardMetaspaceType, false); int n1 = metaspace::InternalStats::num_chunks_enlarged(); helper.allocate_from_arena_with_tests_expect_success(1000); EXPECT_EQ(helper.get_number_of_chunks(), 1); helper.allocate_from_arena_with_tests_expect_success(4000); EXPECT_EQ(helper.get_number_of_chunks(), 2); int times_chunk_were_enlarged = metaspace::InternalStats::num_chunks_enlarged() - n1; LOG("chunk was enlarged %d times.", times_chunk_were_enlarged); EXPECT_0(times_chunk_were_enlarged); } // Test the MetaspaceArenas' free block list: // Allocate, deallocate, then allocate the same block again. The second allocate should // reuse the deallocated block. TEST_VM(metaspace, MetaspaceArena_deallocate) { if (Settings::use_allocation_guard()) { return; } for (size_t s = 2; s <= MAX_CHUNK_WORD_SIZE; s *= 2) { MetaspaceGtestContext context; MetaspaceArenaTestHelper helper(context, Metaspace::StandardMetaspaceType, false); MetaWord* p1 = NULL; helper.allocate_from_arena_with_tests_expect_success(&p1, s); size_t used1 = 0, capacity1 = 0; helper.usage_numbers_with_test(&used1, NULL, &capacity1); ASSERT_EQ(used1, s); helper.deallocate_with_tests(p1, s); size_t used2 = 0, capacity2 = 0; helper.usage_numbers_with_test(&used2, NULL, &capacity2); ASSERT_EQ(used1, used2); ASSERT_EQ(capacity2, capacity2); MetaWord* p2 = NULL; helper.allocate_from_arena_with_tests_expect_success(&p2, s); size_t used3 = 0, capacity3 = 0; helper.usage_numbers_with_test(&used3, NULL, &capacity3); ASSERT_EQ(used3, used2); ASSERT_EQ(capacity3, capacity2); // Actually, we should get the very same allocation back ASSERT_EQ(p1, p2); } } static void test_recover_from_commit_limit_hit() { if (Settings::new_chunks_are_fully_committed()) { return; // This would throw off the commit counting in this test. } // Test: // - Multiple MetaspaceArena allocate (operating under the same commit limiter). // - One, while attempting to commit parts of its current chunk on demand, // triggers the limit and cannot commit its chunk further. // - We release the other MetaspaceArena - its content is put back to the // freelists. // - We re-attempt allocation from the first manager. It should now succeed. // // This means if the first MetaspaceArena may have to let go of its current chunk and // retire it and take a fresh chunk from the freelist. const size_t commit_limit = Settings::commit_granule_words() * 10; MetaspaceGtestContext context(commit_limit); // The first MetaspaceArena mimicks a micro loader. This will fill the free // chunk list with very small chunks. We allocate from them in an interleaved // way to cause fragmentation. MetaspaceArenaTestHelper helper1(context, Metaspace::ReflectionMetaspaceType, false); MetaspaceArenaTestHelper helper2(context, Metaspace::ReflectionMetaspaceType, false); // This MetaspaceArena should hit the limit. We use BootMetaspaceType here since // it gets a large initial chunk which is committed // on demand and we are likely to hit a commit limit while trying to expand it. MetaspaceArenaTestHelper helper3(context, Metaspace::BootMetaspaceType, false); // Allocate space until we have below two but above one granule left size_t allocated_from_1_and_2 = 0; while (context.commit_limiter().possible_expansion_words() >= Settings::commit_granule_words() * 2 && allocated_from_1_and_2 < commit_limit) { helper1.allocate_from_arena_with_tests_expect_success(1); helper2.allocate_from_arena_with_tests_expect_success(1); allocated_from_1_and_2 += 2; } // Now, allocating from helper3, creep up on the limit size_t allocated_from_3 = 0; MetaWord* p = NULL; while ( (helper3.allocate_from_arena_with_tests(&p, 1), p != NULL) && ++allocated_from_3 < Settings::commit_granule_words() * 2); EXPECT_LE(allocated_from_3, Settings::commit_granule_words() * 2); // We expect the freelist to be empty of committed space... EXPECT_0(context.cm().total_committed_word_size()); //msthelper.cm().print_on(tty); // Release the first MetaspaceArena. helper1.delete_arena_with_tests(); //msthelper.cm().print_on(tty); // Should have populated the freelist with committed space // We expect the freelist to be empty of committed space... EXPECT_GT(context.cm().total_committed_word_size(), (size_t)0); // Repeat allocation from helper3, should now work. helper3.allocate_from_arena_with_tests_expect_success(1); } TEST_VM(metaspace, MetaspaceArena_recover_from_limit_hit) { test_recover_from_commit_limit_hit(); } static void test_controlled_growth(Metaspace::MetaspaceType type, bool is_class, size_t expected_starting_capacity, bool test_in_place_enlargement) { if (Settings::use_allocation_guard()) { return; } // From a MetaspaceArena in a clean room allocate tiny amounts; // watch it grow. Used/committed/capacity should not grow in // large jumps. Also, different types of MetaspaceArena should // have different initial capacities. MetaspaceGtestContext context; MetaspaceArenaTestHelper smhelper(context, type, is_class, "Grower"); MetaspaceArenaTestHelper smhelper_harrasser(context, Metaspace::ReflectionMetaspaceType, true, "Harasser"); size_t used = 0, committed = 0, capacity = 0; const size_t alloc_words = 16; smhelper.arena()->usage_numbers(&used, &committed, &capacity); ASSERT_0(used); ASSERT_0(committed); ASSERT_0(capacity); ///// First allocation // smhelper.allocate_from_arena_with_tests_expect_success(alloc_words); smhelper.arena()->usage_numbers(&used, &committed, &capacity); ASSERT_EQ(used, alloc_words); ASSERT_GE(committed, used); ASSERT_GE(capacity, committed); ASSERT_EQ(capacity, expected_starting_capacity); if (!(Settings::new_chunks_are_fully_committed() && type == Metaspace::BootMetaspaceType)) { // Initial commit charge for the whole context should be one granule ASSERT_EQ(context.committed_words(), Settings::commit_granule_words()); // Initial commit number for the arena should be less since - apart from boot loader - no // space type has large initial chunks. ASSERT_LE(committed, Settings::commit_granule_words()); } ///// subsequent allocations // DEBUG_ONLY(const uintx num_chunk_enlarged = metaspace::InternalStats::num_chunks_enlarged();) size_t words_allocated = 0; int num_allocated = 0; const size_t safety = MAX_CHUNK_WORD_SIZE * 1.2; size_t highest_capacity_jump = capacity; int num_capacity_jumps = 0; while (words_allocated < safety && num_capacity_jumps < 15) { // if we want to test growth with in-place chunk enlargement, leave MetaspaceArena // undisturbed; it will have all the place to grow. Otherwise allocate from a little // side arena to increase fragmentation. // (Note that this does not completely prevent in-place chunk enlargement but makes it // rather improbable) if (!test_in_place_enlargement) { smhelper_harrasser.allocate_from_arena_with_tests_expect_success(alloc_words * 2); } smhelper.allocate_from_arena_with_tests_expect_success(alloc_words); words_allocated += metaspace::get_raw_word_size_for_requested_word_size(alloc_words); num_allocated++; size_t used2 = 0, committed2 = 0, capacity2 = 0; smhelper.arena()->usage_numbers(&used2, &committed2, &capacity2); // used should not grow larger than what we allocated, plus possible overhead. ASSERT_GE(used2, used); ASSERT_LE(used2, used + alloc_words * 2); ASSERT_LE(used2, words_allocated + 100); used = used2; // A jump in committed words should not be larger than commit granule size. // It can be smaller, since the current chunk of the MetaspaceArena may be // smaller than a commit granule. // (Note: unless root chunks are born fully committed) ASSERT_GE(committed2, used2); ASSERT_GE(committed2, committed); const size_t committed_jump = committed2 - committed; if (committed_jump > 0 && !Settings::new_chunks_are_fully_committed()) { ASSERT_LE(committed_jump, Settings::commit_granule_words()); } committed = committed2; // Capacity jumps: Test that arenas capacity does not grow too fast. ASSERT_GE(capacity2, committed2); ASSERT_GE(capacity2, capacity); const size_t capacity_jump = capacity2 - capacity; if (capacity_jump > 0) { LOG(">" SIZE_FORMAT "->" SIZE_FORMAT "(+" SIZE_FORMAT ")", capacity, capacity2, capacity_jump) if (capacity_jump > highest_capacity_jump) { /* Disabled for now since this is rather shaky. The way it is tested makes it too dependent * on allocation history. Need to rethink this. ASSERT_LE(capacity_jump, highest_capacity_jump * 2); ASSERT_GE(capacity_jump, MIN_CHUNK_WORD_SIZE); ASSERT_LE(capacity_jump, MAX_CHUNK_WORD_SIZE); */ highest_capacity_jump = capacity_jump; } num_capacity_jumps++; } capacity = capacity2; } // After all this work, we should see an increase in number of chunk-in-place-enlargements // (this especially is vulnerable to regression: the decisions of when to do in-place-enlargements are somewhat // complicated, see MetaspaceArena::attempt_enlarge_current_chunk()) #ifdef ASSERT if (test_in_place_enlargement) { const uintx num_chunk_enlarged_2 = metaspace::InternalStats::num_chunks_enlarged(); ASSERT_GT(num_chunk_enlarged_2, num_chunk_enlarged); } #endif } // these numbers have to be in sync with arena policy numbers (see memory/metaspace/arenaGrowthPolicy.cpp) TEST_VM(metaspace, MetaspaceArena_growth_refl_c_inplace) { test_controlled_growth(Metaspace::ReflectionMetaspaceType, true, word_size_for_level(CHUNK_LEVEL_1K), true); } TEST_VM(metaspace, MetaspaceArena_growth_refl_c_not_inplace) { test_controlled_growth(Metaspace::ReflectionMetaspaceType, true, word_size_for_level(CHUNK_LEVEL_1K), false); } TEST_VM(metaspace, MetaspaceArena_growth_anon_c_inplace) { test_controlled_growth(Metaspace::ClassMirrorHolderMetaspaceType, true, word_size_for_level(CHUNK_LEVEL_1K), true); } TEST_VM(metaspace, MetaspaceArena_growth_anon_c_not_inplace) { test_controlled_growth(Metaspace::ClassMirrorHolderMetaspaceType, true, word_size_for_level(CHUNK_LEVEL_1K), false); } TEST_VM(metaspace, MetaspaceArena_growth_standard_c_inplace) { test_controlled_growth(Metaspace::StandardMetaspaceType, true, word_size_for_level(CHUNK_LEVEL_2K), true); } TEST_VM(metaspace, MetaspaceArena_growth_standard_c_not_inplace) { test_controlled_growth(Metaspace::StandardMetaspaceType, true, word_size_for_level(CHUNK_LEVEL_2K), false); } /* Disabled growth tests for BootMetaspaceType: there, the growth steps are too rare, * and too large, to make any reliable guess as toward chunks get enlarged in place. TEST_VM(metaspace, MetaspaceArena_growth_boot_c_inplace) { test_controlled_growth(Metaspace::BootMetaspaceType, true, word_size_for_level(CHUNK_LEVEL_1M), true); } TEST_VM(metaspace, MetaspaceArena_growth_boot_c_not_inplace) { test_controlled_growth(Metaspace::BootMetaspaceType, true, word_size_for_level(CHUNK_LEVEL_1M), false); } */ TEST_VM(metaspace, MetaspaceArena_growth_refl_nc_inplace) { test_controlled_growth(Metaspace::ReflectionMetaspaceType, false, word_size_for_level(CHUNK_LEVEL_2K), true); } TEST_VM(metaspace, MetaspaceArena_growth_refl_nc_not_inplace) { test_controlled_growth(Metaspace::ReflectionMetaspaceType, false, word_size_for_level(CHUNK_LEVEL_2K), false); } TEST_VM(metaspace, MetaspaceArena_growth_anon_nc_inplace) { test_controlled_growth(Metaspace::ClassMirrorHolderMetaspaceType, false, word_size_for_level(CHUNK_LEVEL_1K), true); } TEST_VM(metaspace, MetaspaceArena_growth_anon_nc_not_inplace) { test_controlled_growth(Metaspace::ClassMirrorHolderMetaspaceType, false, word_size_for_level(CHUNK_LEVEL_1K), false); } TEST_VM(metaspace, MetaspaceArena_growth_standard_nc_inplace) { test_controlled_growth(Metaspace::StandardMetaspaceType, false, word_size_for_level(CHUNK_LEVEL_4K), true); } TEST_VM(metaspace, MetaspaceArena_growth_standard_nc_not_inplace) { test_controlled_growth(Metaspace::StandardMetaspaceType, false, word_size_for_level(CHUNK_LEVEL_4K), false); } /* Disabled growth tests for BootMetaspaceType: there, the growth steps are too rare, * and too large, to make any reliable guess as toward chunks get enlarged in place. TEST_VM(metaspace, MetaspaceArena_growth_boot_nc_inplace) { test_controlled_growth(Metaspace::BootMetaspaceType, false, word_size_for_level(CHUNK_LEVEL_4M), true); } TEST_VM(metaspace, MetaspaceArena_growth_boot_nc_not_inplace) { test_controlled_growth(Metaspace::BootMetaspaceType, false, word_size_for_level(CHUNK_LEVEL_4M), false); } */