// Copyright 2014 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include <limits> #include "src/flags.h" #include "src/heap/memory-reducer.h" #include "testing/gtest/include/gtest/gtest.h" namespace v8 { namespace internal { MemoryReducer::State DoneState() { return MemoryReducer::State(MemoryReducer::kDone, 0, 0.0, 1.0); } MemoryReducer::State WaitState(int started_gcs, double next_gc_start_ms) { return MemoryReducer::State(MemoryReducer::kWait, started_gcs, next_gc_start_ms, 1.0); } MemoryReducer::State RunState(int started_gcs, double next_gc_start_ms) { return MemoryReducer::State(MemoryReducer::kRun, started_gcs, next_gc_start_ms, 1.0); } MemoryReducer::Event MarkCompactEvent(double time_ms, bool next_gc_likely_to_collect_more) { MemoryReducer::Event event; event.type = MemoryReducer::kMarkCompact; event.time_ms = time_ms; event.next_gc_likely_to_collect_more = next_gc_likely_to_collect_more; return event; } MemoryReducer::Event MarkCompactEventGarbageLeft(double time_ms) { return MarkCompactEvent(time_ms, true); } MemoryReducer::Event MarkCompactEventNoGarbageLeft(double time_ms) { return MarkCompactEvent(time_ms, false); } MemoryReducer::Event TimerEvent(double time_ms, bool should_start_incremental_gc, bool can_start_incremental_gc) { MemoryReducer::Event event; event.type = MemoryReducer::kTimer; event.time_ms = time_ms; event.should_start_incremental_gc = should_start_incremental_gc; event.can_start_incremental_gc = can_start_incremental_gc; return event; } MemoryReducer::Event TimerEventLowAllocationRate(double time_ms) { return TimerEvent(time_ms, true, true); } MemoryReducer::Event TimerEventHighAllocationRate(double time_ms) { return TimerEvent(time_ms, false, true); } MemoryReducer::Event TimerEventPendingGC(double time_ms) { return TimerEvent(time_ms, true, false); } MemoryReducer::Event ContextDisposedEvent(double time_ms) { MemoryReducer::Event event; event.type = MemoryReducer::kContextDisposed; event.time_ms = time_ms; return event; } TEST(MemoryReducer, FromDoneToDone) { MemoryReducer::State state0(DoneState()), state1(DoneState()); state1 = MemoryReducer::Step(state0, TimerEventLowAllocationRate(0)); EXPECT_EQ(MemoryReducer::kDone, state1.action); state1 = MemoryReducer::Step(state0, TimerEventHighAllocationRate(0)); EXPECT_EQ(MemoryReducer::kDone, state1.action); state1 = MemoryReducer::Step(state0, TimerEventPendingGC(0)); EXPECT_EQ(MemoryReducer::kDone, state1.action); } TEST(MemoryReducer, FromDoneToWait) { if (!FLAG_incremental_marking) return; MemoryReducer::State state0(DoneState()), state1(DoneState()); state1 = MemoryReducer::Step(state0, MarkCompactEventGarbageLeft(2)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(MemoryReducer::kLongDelayMs + 2, state1.next_gc_start_ms); EXPECT_EQ(0, state1.started_gcs); EXPECT_EQ(2, state1.last_gc_time_ms); state1 = MemoryReducer::Step(state0, MarkCompactEventNoGarbageLeft(2)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(MemoryReducer::kLongDelayMs + 2, state1.next_gc_start_ms); EXPECT_EQ(0, state1.started_gcs); EXPECT_EQ(2, state1.last_gc_time_ms); state1 = MemoryReducer::Step(state0, ContextDisposedEvent(0)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(MemoryReducer::kLongDelayMs, state1.next_gc_start_ms); EXPECT_EQ(0, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); } TEST(MemoryReducer, FromWaitToWait) { if (!FLAG_incremental_marking) return; MemoryReducer::State state0(WaitState(2, 1000.0)), state1(DoneState()); state1 = MemoryReducer::Step(state0, ContextDisposedEvent(2000)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(state0.next_gc_start_ms, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); state1 = MemoryReducer::Step( state0, TimerEventLowAllocationRate(state0.next_gc_start_ms - 1)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(state0.next_gc_start_ms, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); state1 = MemoryReducer::Step(state0, TimerEventHighAllocationRate(2000)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(2000 + MemoryReducer::kLongDelayMs, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); state1 = MemoryReducer::Step(state0, TimerEventPendingGC(2000)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(2000 + MemoryReducer::kLongDelayMs, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); state1 = MemoryReducer::Step(state0, MarkCompactEventGarbageLeft(2000)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(2000 + MemoryReducer::kLongDelayMs, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(2000, state1.last_gc_time_ms); state1 = MemoryReducer::Step(state0, MarkCompactEventNoGarbageLeft(2000)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(2000 + MemoryReducer::kLongDelayMs, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(2000, state1.last_gc_time_ms); state0.last_gc_time_ms = 0; state1 = MemoryReducer::Step( state0, TimerEventHighAllocationRate(MemoryReducer::kWatchdogDelayMs + 1)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(MemoryReducer::kWatchdogDelayMs + 1 + MemoryReducer::kLongDelayMs, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); state0.last_gc_time_ms = 1; state1 = MemoryReducer::Step(state0, TimerEventHighAllocationRate(2000)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(2000 + MemoryReducer::kLongDelayMs, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); } TEST(MemoryReducer, FromWaitToRun) { if (!FLAG_incremental_marking) return; MemoryReducer::State state0(WaitState(0, 1000.0)), state1(DoneState()); state1 = MemoryReducer::Step( state0, TimerEventLowAllocationRate(state0.next_gc_start_ms + 1)); EXPECT_EQ(MemoryReducer::kRun, state1.action); EXPECT_EQ(0, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs + 1, state1.started_gcs); state1 = MemoryReducer::Step( state0, TimerEventHighAllocationRate(MemoryReducer::kWatchdogDelayMs + 2)); EXPECT_EQ(MemoryReducer::kRun, state1.action); EXPECT_EQ(0, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs + 1, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); } TEST(MemoryReducer, FromWaitToDone) { if (!FLAG_incremental_marking) return; MemoryReducer::State state0(WaitState(2, 0.0)), state1(DoneState()); state0.started_gcs = MemoryReducer::kMaxNumberOfGCs; state1 = MemoryReducer::Step(state0, TimerEventLowAllocationRate(2000)); EXPECT_EQ(MemoryReducer::kDone, state1.action); EXPECT_EQ(0, state1.next_gc_start_ms); EXPECT_EQ(MemoryReducer::kMaxNumberOfGCs, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); state1 = MemoryReducer::Step(state0, TimerEventHighAllocationRate(2000)); EXPECT_EQ(MemoryReducer::kDone, state1.action); EXPECT_EQ(0, state1.next_gc_start_ms); EXPECT_EQ(MemoryReducer::kMaxNumberOfGCs, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); state1 = MemoryReducer::Step(state0, TimerEventPendingGC(2000)); EXPECT_EQ(MemoryReducer::kDone, state1.action); EXPECT_EQ(0, state1.next_gc_start_ms); EXPECT_EQ(MemoryReducer::kMaxNumberOfGCs, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); } TEST(MemoryReducer, FromRunToRun) { if (!FLAG_incremental_marking) return; MemoryReducer::State state0(RunState(1, 0.0)), state1(DoneState()); state1 = MemoryReducer::Step(state0, TimerEventLowAllocationRate(2000)); EXPECT_EQ(MemoryReducer::kRun, state1.action); EXPECT_EQ(state0.next_gc_start_ms, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); state1 = MemoryReducer::Step(state0, TimerEventHighAllocationRate(2000)); EXPECT_EQ(MemoryReducer::kRun, state1.action); EXPECT_EQ(state0.next_gc_start_ms, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); state1 = MemoryReducer::Step(state0, TimerEventPendingGC(2000)); EXPECT_EQ(MemoryReducer::kRun, state1.action); EXPECT_EQ(state0.next_gc_start_ms, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); state1 = MemoryReducer::Step(state0, ContextDisposedEvent(2000)); EXPECT_EQ(MemoryReducer::kRun, state1.action); EXPECT_EQ(state0.next_gc_start_ms, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(state0.last_gc_time_ms, state1.last_gc_time_ms); } TEST(MemoryReducer, FromRunToDone) { if (!FLAG_incremental_marking) return; MemoryReducer::State state0(RunState(2, 0.0)), state1(DoneState()); state1 = MemoryReducer::Step(state0, MarkCompactEventNoGarbageLeft(2000)); EXPECT_EQ(MemoryReducer::kDone, state1.action); EXPECT_EQ(0, state1.next_gc_start_ms); EXPECT_EQ(MemoryReducer::kMaxNumberOfGCs, state1.started_gcs); EXPECT_EQ(2000, state1.last_gc_time_ms); state0.started_gcs = MemoryReducer::kMaxNumberOfGCs; state1 = MemoryReducer::Step(state0, MarkCompactEventGarbageLeft(2000)); EXPECT_EQ(MemoryReducer::kDone, state1.action); EXPECT_EQ(0, state1.next_gc_start_ms); EXPECT_EQ(2000, state1.last_gc_time_ms); } TEST(MemoryReducer, FromRunToWait) { if (!FLAG_incremental_marking) return; MemoryReducer::State state0(RunState(2, 0.0)), state1(DoneState()); state1 = MemoryReducer::Step(state0, MarkCompactEventGarbageLeft(2000)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(2000 + MemoryReducer::kShortDelayMs, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(2000, state1.last_gc_time_ms); state0.started_gcs = 1; state1 = MemoryReducer::Step(state0, MarkCompactEventNoGarbageLeft(2000)); EXPECT_EQ(MemoryReducer::kWait, state1.action); EXPECT_EQ(2000 + MemoryReducer::kShortDelayMs, state1.next_gc_start_ms); EXPECT_EQ(state0.started_gcs, state1.started_gcs); EXPECT_EQ(2000, state1.last_gc_time_ms); } } // namespace internal } // namespace v8