/* * Copyright (c) 2001, 2018, Oracle and/or its affiliates. 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 "gc/shared/gcTimer.hpp" #include "utilities/ticks.hpp" #include "unittest.hpp" class GCTimerTest { public: static void register_gc_start(GCTimer* const timer, jlong ticks) { timer->register_gc_start(ticks); } static void register_gc_end(GCTimer* const timer, jlong ticks) { timer->register_gc_end(ticks); } }; TEST(GCTimer, start) { GCTimer gc_timer; GCTimerTest::register_gc_start(&gc_timer, 1); EXPECT_EQ(1, gc_timer.gc_start().value()); } TEST(GCTimer, end) { GCTimer gc_timer; GCTimerTest::register_gc_start(&gc_timer, 1); GCTimerTest::register_gc_end(&gc_timer, 2); ASSERT_EQ(2, gc_timer.gc_end().value()); } class TimePartitionPhasesIteratorTest { public: static void validate_gc_phase(GCPhase* phase, int level, const char* name, const jlong& start, const jlong& end) { EXPECT_EQ(level, phase->level()); EXPECT_STREQ(name, phase->name()); EXPECT_EQ(start, phase->start().value()); EXPECT_EQ(end, phase->end().value()); } static void validate_pauses(const TimePartitions& time_partitions, const Tickspan& expected_sum_of_pauses, const Tickspan& expected_longest_pause) { EXPECT_EQ(expected_sum_of_pauses, time_partitions.sum_of_pauses()); EXPECT_EQ(expected_longest_pause, time_partitions.longest_pause()); } static void validate_pauses(const TimePartitions& time_partitions, const Tickspan& expected_pause) { TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, expected_pause, expected_pause); } static void validate_pauses(const TimePartitions& time_partitions, jlong end, jlong start) { TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, Ticks(end) - Ticks(start)); } static void validate_pauses(const TimePartitions& time_partitions, jlong all_end, jlong all_start, jlong longest_end, jlong longest_start) { TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, Ticks(all_end) - Ticks(all_start), Ticks(longest_end) - Ticks(longest_start)); } static void report_gc_phase_start(TimePartitions* const partitions, const char* name, jlong ticks, GCPhase::PhaseType type=GCPhase::PausePhaseType) { partitions->report_gc_phase_start(name, Ticks(ticks), type); } static void report_gc_phase_end(TimePartitions* const partitions, jlong ticks, GCPhase::PhaseType type=GCPhase::PausePhaseType) { partitions->report_gc_phase_end(Ticks(ticks), type); } }; TEST(TimePartitionPhasesIterator, one_pause) { TimePartitions time_partitions; TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "PausePhase", 2); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 8); TimePartitionPhasesIterator iter(&time_partitions); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 0, "PausePhase", 2, 8)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, 8, 2)); EXPECT_FALSE(iter.has_next()) << "Too many elements"; } TEST(TimePartitionPhasesIterator, two_pauses) { TimePartitions time_partitions; TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "PausePhase1", 2); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 3); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "PausePhase2", 4); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 6); TimePartitionPhasesIterator iter(&time_partitions); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 0, "PausePhase1", 2, 3)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 0, "PausePhase2", 4, 6)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, 3, 0, 2, 0)); EXPECT_FALSE(iter.has_next()) << "Too many elements"; } TEST(TimePartitionPhasesIterator, one_sub_pause_phase) { TimePartitions time_partitions; TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "PausePhase", 2); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase", 3); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 4); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 5); TimePartitionPhasesIterator iter(&time_partitions); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 0, "PausePhase", 2, 5)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 1, "SubPhase", 3, 4)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, 3, 0)); EXPECT_FALSE(iter.has_next()) << "Too many elements"; } TEST(TimePartitionPhasesIterator, max_nested_pause_phases) { TimePartitions time_partitions; TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "PausePhase", 2); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase1", 3); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase2", 4); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase3", 5); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 6); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 7); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 8); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 9); TimePartitionPhasesIterator iter(&time_partitions); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 0, "PausePhase", 2, 9)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 1, "SubPhase1", 3, 8)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 2, "SubPhase2", 4, 7)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 3, "SubPhase3", 5, 6)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, 7, 0)); EXPECT_FALSE(iter.has_next()) << "Too many elements"; } TEST(TimePartitionPhasesIterator, many_sub_pause_phases) { TimePartitions time_partitions; TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "PausePhase", 2); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase1", 3); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 4); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase2", 5); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 6); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase3", 7); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 8); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase4", 9); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 10); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 11); TimePartitionPhasesIterator iter(&time_partitions); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 0, "PausePhase", 2, 11)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 1, "SubPhase1", 3, 4)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 1, "SubPhase2", 5, 6)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 1, "SubPhase3", 7, 8)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 1, "SubPhase4", 9, 10)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, 9, 0)); EXPECT_FALSE(iter.has_next()) << "Too many elements"; } TEST(TimePartitionPhasesIterator, many_sub_pause_phases2) { TimePartitions time_partitions; TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "PausePhase", 2); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase1", 3); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase11", 4); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 5); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase12", 6); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 7); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 8); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase2", 9); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase21", 10); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 11); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase22", 12); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 13); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 14); TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "SubPhase3", 15); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 16); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 17); TimePartitionPhasesIterator iter(&time_partitions); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 0, "PausePhase", 2, 17)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 1, "SubPhase1", 3, 8)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 2, "SubPhase11", 4, 5)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 2, "SubPhase12", 6, 7)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 1, "SubPhase2", 9, 14)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 2, "SubPhase21", 10, 11)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 2, "SubPhase22", 12, 13)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 1, "SubPhase3", 15, 16)); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, 15, 0)); EXPECT_FALSE(iter.has_next()) << "Too many elements"; } TEST(TimePartitionPhasesIterator, one_concurrent) { TimePartitions time_partitions; TimePartitionPhasesIteratorTest::report_gc_phase_start(&time_partitions, "ConcurrentPhase", 2, GCPhase::ConcurrentPhaseType); TimePartitionPhasesIteratorTest::report_gc_phase_end(&time_partitions, 8, GCPhase::ConcurrentPhaseType); TimePartitionPhasesIterator iter(&time_partitions); EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_gc_phase(iter.next(), 0, "ConcurrentPhase", 2, 8)); // ConcurrentPhaseType should not affect to both 'sum_of_pauses()' and 'longest_pause()'. EXPECT_NO_FATAL_FAILURE(TimePartitionPhasesIteratorTest::validate_pauses(time_partitions, Tickspan())); EXPECT_FALSE(iter.has_next()) << "Too many elements"; }