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Side by Side Diff: components/scheduler/base/time_domain_unittest.cc

Issue 2118903002: scheduler: Move the Blink scheduler into Blink (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@master
Patch Set: Rebased Created 4 years, 4 months ago
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1 // Copyright 2015 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4
5 #include "components/scheduler/base/time_domain.h"
6
7 #include "base/macros.h"
8 #include "base/memory/ptr_util.h"
9 #include "base/test/simple_test_tick_clock.h"
10 #include "cc/test/ordered_simple_task_runner.h"
11 #include "components/scheduler/base/task_queue_impl.h"
12 #include "components/scheduler/base/task_queue_manager.h"
13 #include "components/scheduler/base/task_queue_manager_delegate_for_test.h"
14 #include "components/scheduler/base/test_time_source.h"
15 #include "components/scheduler/base/work_queue.h"
16 #include "testing/gmock/include/gmock/gmock.h"
17
18 using testing::_;
19 using testing::AnyNumber;
20 using testing::Mock;
21
22 namespace scheduler {
23
24 class MockTimeDomain : public TimeDomain {
25 public:
26 explicit MockTimeDomain(TimeDomain::Observer* observer)
27 : TimeDomain(observer),
28 now_(base::TimeTicks() + base::TimeDelta::FromSeconds(1)) {}
29
30 ~MockTimeDomain() override {}
31
32 using TimeDomain::ClearExpiredWakeups;
33 using TimeDomain::NextScheduledRunTime;
34 using TimeDomain::NextScheduledTaskQueue;
35 using TimeDomain::ScheduleDelayedWork;
36 using TimeDomain::UnregisterQueue;
37 using TimeDomain::UpdateWorkQueues;
38 using TimeDomain::RegisterAsUpdatableTaskQueue;
39
40 // TimeSource implementation:
41 LazyNow CreateLazyNow() const override { return LazyNow(now_); }
42 base::TimeTicks Now() const override { return now_; }
43
44 void AsValueIntoInternal(
45 base::trace_event::TracedValue* state) const override {}
46
47 bool MaybeAdvanceTime() override { return false; }
48 const char* GetName() const override { return "Test"; }
49 void OnRegisterWithTaskQueueManager(
50 TaskQueueManager* task_queue_manager) override {}
51
52 MOCK_METHOD2(RequestWakeup, void(base::TimeTicks now, base::TimeDelta delay));
53
54 void SetNow(base::TimeTicks now) { now_ = now; }
55
56
57 private:
58 base::TimeTicks now_;
59
60 DISALLOW_COPY_AND_ASSIGN(MockTimeDomain);
61 };
62
63 class TimeDomainTest : public testing::Test {
64 public:
65 void SetUp() final {
66 time_domain_ = base::WrapUnique(CreateMockTimeDomain());
67 task_queue_ = make_scoped_refptr(new internal::TaskQueueImpl(
68 nullptr, time_domain_.get(), TaskQueue::Spec("test_queue"),
69 "test.category", "test.category"));
70 }
71
72 void TearDown() final {
73 if (task_queue_)
74 task_queue_->UnregisterTaskQueue();
75 }
76
77 virtual MockTimeDomain* CreateMockTimeDomain() {
78 return new MockTimeDomain(nullptr);
79 }
80
81 std::unique_ptr<MockTimeDomain> time_domain_;
82 scoped_refptr<internal::TaskQueueImpl> task_queue_;
83 };
84
85 TEST_F(TimeDomainTest, ScheduleDelayedWork) {
86 base::TimeDelta delay = base::TimeDelta::FromMilliseconds(10);
87 base::TimeTicks delayed_runtime = time_domain_->Now() + delay;
88 EXPECT_CALL(*time_domain_.get(), RequestWakeup(_, delay));
89 base::TimeTicks now = time_domain_->Now();
90 time_domain_->ScheduleDelayedWork(task_queue_.get(), now + delay, now);
91
92 base::TimeTicks next_scheduled_runtime;
93 EXPECT_TRUE(time_domain_->NextScheduledRunTime(&next_scheduled_runtime));
94 EXPECT_EQ(delayed_runtime, next_scheduled_runtime);
95
96 TaskQueue* next_task_queue;
97 EXPECT_TRUE(time_domain_->NextScheduledTaskQueue(&next_task_queue));
98 EXPECT_EQ(task_queue_.get(), next_task_queue);
99 }
100
101 TEST_F(TimeDomainTest, RequestWakeup_OnlyCalledForEarlierTasks) {
102 base::TimeDelta delay1 = base::TimeDelta::FromMilliseconds(10);
103 base::TimeDelta delay2 = base::TimeDelta::FromMilliseconds(20);
104 base::TimeDelta delay3 = base::TimeDelta::FromMilliseconds(30);
105 base::TimeDelta delay4 = base::TimeDelta::FromMilliseconds(1);
106
107 // RequestWakeup should always be called if there are no other wakeups.
108 EXPECT_CALL(*time_domain_.get(), RequestWakeup(_, delay1));
109 base::TimeTicks now = time_domain_->Now();
110 time_domain_->ScheduleDelayedWork(task_queue_.get(), now + delay1, now);
111
112 Mock::VerifyAndClearExpectations(time_domain_.get());
113
114 // RequestWakeup should not be called when scheduling later tasks.
115 EXPECT_CALL(*time_domain_.get(), RequestWakeup(_, _)).Times(0);
116 time_domain_->ScheduleDelayedWork(task_queue_.get(), now + delay2, now);
117 time_domain_->ScheduleDelayedWork(task_queue_.get(), now + delay3, now);
118
119 // RequestWakeup should be called when scheduling earlier tasks.
120 Mock::VerifyAndClearExpectations(time_domain_.get());
121 EXPECT_CALL(*time_domain_.get(), RequestWakeup(_, delay4));
122 time_domain_->ScheduleDelayedWork(task_queue_.get(), now + delay4, now);
123 }
124
125 TEST_F(TimeDomainTest, UnregisterQueue) {
126 scoped_refptr<internal::TaskQueueImpl> task_queue2_ =
127 make_scoped_refptr(new internal::TaskQueueImpl(
128 nullptr, time_domain_.get(), TaskQueue::Spec("test_queue2"),
129 "test.category", "test.category"));
130
131 EXPECT_CALL(*time_domain_.get(), RequestWakeup(_, _)).Times(1);
132 base::TimeTicks now = time_domain_->Now();
133 time_domain_->ScheduleDelayedWork(
134 task_queue_.get(), now + base::TimeDelta::FromMilliseconds(10), now);
135 time_domain_->ScheduleDelayedWork(
136 task_queue2_.get(), now + base::TimeDelta::FromMilliseconds(100), now);
137
138 TaskQueue* next_task_queue;
139 EXPECT_TRUE(time_domain_->NextScheduledTaskQueue(&next_task_queue));
140 EXPECT_EQ(task_queue_.get(), next_task_queue);
141
142 time_domain_->UnregisterQueue(task_queue_.get());
143 task_queue_ = scoped_refptr<internal::TaskQueueImpl>();
144 EXPECT_TRUE(time_domain_->NextScheduledTaskQueue(&next_task_queue));
145 EXPECT_EQ(task_queue2_.get(), next_task_queue);
146
147 time_domain_->UnregisterQueue(task_queue2_.get());
148 EXPECT_FALSE(time_domain_->NextScheduledTaskQueue(&next_task_queue));
149 }
150
151 TEST_F(TimeDomainTest, UpdateWorkQueues) {
152 base::TimeDelta delay = base::TimeDelta::FromMilliseconds(50);
153 EXPECT_CALL(*time_domain_.get(), RequestWakeup(_, delay));
154 base::TimeTicks now = time_domain_->Now();
155 base::TimeTicks delayed_runtime = now + delay;
156 time_domain_->ScheduleDelayedWork(task_queue_.get(), delayed_runtime, now);
157
158 base::TimeTicks next_run_time;
159 ASSERT_TRUE(time_domain_->NextScheduledRunTime(&next_run_time));
160 EXPECT_EQ(delayed_runtime, next_run_time);
161
162 LazyNow lazy_now = time_domain_->CreateLazyNow();
163 time_domain_->UpdateWorkQueues(false, nullptr, lazy_now);
164 ASSERT_TRUE(time_domain_->NextScheduledRunTime(&next_run_time));
165 EXPECT_EQ(delayed_runtime, next_run_time);
166
167 time_domain_->SetNow(delayed_runtime);
168 lazy_now = time_domain_->CreateLazyNow();
169 time_domain_->UpdateWorkQueues(false, nullptr, lazy_now);
170 ASSERT_FALSE(time_domain_->NextScheduledRunTime(&next_run_time));
171 }
172
173 TEST_F(TimeDomainTest, ClearExpiredWakeups) {
174 base::TimeTicks now = time_domain_->Now();
175 base::TimeDelta delay1 = base::TimeDelta::FromMilliseconds(10);
176 base::TimeDelta delay2 = base::TimeDelta::FromMilliseconds(20);
177 base::TimeTicks run_time1 = now + delay1;
178 base::TimeTicks run_time2 = now + delay2;
179
180 EXPECT_CALL(*time_domain_.get(), RequestWakeup(_, _)).Times(AnyNumber());
181 time_domain_->ScheduleDelayedWork(task_queue_.get(), run_time1, now);
182 time_domain_->ScheduleDelayedWork(task_queue_.get(), run_time2, now);
183
184 base::TimeTicks next_run_time;
185 ASSERT_TRUE(time_domain_->NextScheduledRunTime(&next_run_time));
186 EXPECT_EQ(run_time1, next_run_time);
187
188 time_domain_->SetNow(run_time1);
189 time_domain_->ClearExpiredWakeups();
190
191 ASSERT_TRUE(time_domain_->NextScheduledRunTime(&next_run_time));
192 EXPECT_EQ(run_time2, next_run_time);
193
194 time_domain_->SetNow(run_time2);
195 time_domain_->ClearExpiredWakeups();
196 ASSERT_FALSE(time_domain_->NextScheduledRunTime(&next_run_time));
197 }
198
199 namespace {
200 class MockObserver : public TimeDomain::Observer {
201 public:
202 ~MockObserver() override {}
203
204 MOCK_METHOD0(OnTimeDomainHasImmediateWork, void());
205 MOCK_METHOD0(OnTimeDomainHasDelayedWork, void());
206 };
207 } // namespace
208
209 class TimeDomainWithObserverTest : public TimeDomainTest {
210 public:
211 MockTimeDomain* CreateMockTimeDomain() override {
212 observer_.reset(new MockObserver());
213 return new MockTimeDomain(observer_.get());
214 }
215
216 std::unique_ptr<MockObserver> observer_;
217 };
218
219 TEST_F(TimeDomainWithObserverTest, OnTimeDomainHasImmediateWork) {
220 EXPECT_CALL(*observer_, OnTimeDomainHasImmediateWork());
221 time_domain_->RegisterAsUpdatableTaskQueue(task_queue_.get());
222 }
223
224 TEST_F(TimeDomainWithObserverTest, OnTimeDomainHasDelayedWork) {
225 EXPECT_CALL(*observer_, OnTimeDomainHasDelayedWork());
226 EXPECT_CALL(*time_domain_.get(), RequestWakeup(_, _));
227 base::TimeTicks now = time_domain_->Now();
228 time_domain_->ScheduleDelayedWork(
229 task_queue_.get(), now + base::TimeDelta::FromMilliseconds(10), now);
230 }
231
232 } // namespace scheduler
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