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gerrit.omnirom.org / android_frameworks_native / 4d5db7ab45ca1afeed30fbccd51d568e861ff2eb / . / services / surfaceflinger / tests / unittests / VsyncScheduleTest.cpp
blob: 652d3132f9ae3ae8469d949aac95c49b6950e58a [file] [log] [blame]
Leon Scroggins III4d5db7a2023-02-13 15:24:20 -0500[diff] [blame^]1/*
2 * Copyright 2023 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17#undef LOG_TAG
18#define LOG_TAG "LibSurfaceFlingerUnittests"
19
20#include <ftl/fake_guard.h>
21#include <gmock/gmock.h>
22#include <gtest/gtest.h>
23#include <log/log.h>
24
25#include <scheduler/Fps.h>
26#include "Scheduler/VsyncSchedule.h"
27#include "ThreadContext.h"
28#include "mock/MockSchedulerCallback.h"
29#include "mock/MockVSyncDispatch.h"
30#include "mock/MockVSyncTracker.h"
31#include "mock/MockVsyncController.h"
32
33using testing::_;
34
35namespace android {
36
37class VsyncScheduleTest : public testing::Test {
38protected:
39 VsyncScheduleTest();
40 ~VsyncScheduleTest() override;
41
42 scheduler::mock::SchedulerCallback mCallback;
43 const std::unique_ptr<scheduler::VsyncSchedule> mVsyncSchedule =
44 std::unique_ptr<scheduler::VsyncSchedule>(
45 new scheduler::VsyncSchedule(std::make_unique<mock::VSyncTracker>(),
46 std::make_unique<mock::VSyncDispatch>(),
47 std::make_unique<mock::VsyncController>()));
48
49 mock::VsyncController& getController() {
50 return *static_cast<mock::VsyncController*>(&mVsyncSchedule->getController());
51 }
52};
53
54VsyncScheduleTest::VsyncScheduleTest() {
55 const ::testing::TestInfo* const test_info =
56 ::testing::UnitTest::GetInstance()->current_test_info();
57 ALOGD("**** Setting up for %s.%s\n", test_info->test_case_name(), test_info->name());
58}
59
60VsyncScheduleTest::~VsyncScheduleTest() {
61 const ::testing::TestInfo* const test_info =
62 ::testing::UnitTest::GetInstance()->current_test_info();
63 ALOGD("**** Tearing down after %s.%s\n", test_info->test_case_name(), test_info->name());
64}
65
66namespace {
67
68using namespace testing;
69
70TEST_F(VsyncScheduleTest, InitiallyDisallowed) {
71 ASSERT_FALSE(mVsyncSchedule->isHardwareVsyncAllowed(false /* makeAllowed */));
72}
73
74TEST_F(VsyncScheduleTest, EnableDoesNothingWhenDisallowed) {
75 EXPECT_CALL(mCallback, setVsyncEnabled(_)).Times(0);
76
77 mVsyncSchedule->enableHardwareVsync(mCallback);
78}
79
80TEST_F(VsyncScheduleTest, DisableDoesNothingWhenDisallowed) {
81 EXPECT_CALL(mCallback, setVsyncEnabled(_)).Times(0);
82
83 mVsyncSchedule->disableHardwareVsync(mCallback, false /* disallow */);
84}
85
86TEST_F(VsyncScheduleTest, MakeAllowed) {
87 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
88}
89
90TEST_F(VsyncScheduleTest, DisableDoesNothingWhenDisabled) {
91 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
92 EXPECT_CALL(mCallback, setVsyncEnabled(_)).Times(0);
93
94 mVsyncSchedule->disableHardwareVsync(mCallback, false /* disallow */);
95}
96
97TEST_F(VsyncScheduleTest, EnableWorksWhenDisabled) {
98 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
99 EXPECT_CALL(mCallback, setVsyncEnabled(true));
100
101 mVsyncSchedule->enableHardwareVsync(mCallback);
102}
103
104TEST_F(VsyncScheduleTest, EnableWorksOnce) {
105 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
106 EXPECT_CALL(mCallback, setVsyncEnabled(true));
107
108 mVsyncSchedule->enableHardwareVsync(mCallback);
109
110 EXPECT_CALL(mCallback, setVsyncEnabled(_)).Times(0);
111 mVsyncSchedule->enableHardwareVsync(mCallback);
112}
113
114TEST_F(VsyncScheduleTest, AllowedIsSticky) {
115 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
116 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(false /* makeAllowed */));
117}
118
119TEST_F(VsyncScheduleTest, EnableDisable) {
120 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
121 EXPECT_CALL(mCallback, setVsyncEnabled(true));
122
123 mVsyncSchedule->enableHardwareVsync(mCallback);
124
125 EXPECT_CALL(mCallback, setVsyncEnabled(false));
126 mVsyncSchedule->disableHardwareVsync(mCallback, false /* disallow */);
127}
128
129TEST_F(VsyncScheduleTest, StartPeriodTransition) {
130 // Note: startPeriodTransition is only called when hardware vsyncs are
131 // allowed.
132 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
133
134 const Period period = (60_Hz).getPeriod();
135
136 EXPECT_CALL(mCallback, setVsyncEnabled(true));
137 EXPECT_CALL(getController(), startPeriodTransition(period.ns()));
138
139 mVsyncSchedule->startPeriodTransition(mCallback, period);
140}
141
142TEST_F(VsyncScheduleTest, StartPeriodTransitionAlreadyEnabled) {
143 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
144 mVsyncSchedule->enableHardwareVsync(mCallback);
145
146 const Period period = (60_Hz).getPeriod();
147
148 EXPECT_CALL(mCallback, setVsyncEnabled(_)).Times(0);
149 EXPECT_CALL(getController(), startPeriodTransition(period.ns()));
150
151 mVsyncSchedule->startPeriodTransition(mCallback, period);
152}
153
154TEST_F(VsyncScheduleTest, AddResyncSampleDisallowed) {
155 const Period period = (60_Hz).getPeriod();
156 const auto timestamp = TimePoint::now();
157
158 EXPECT_CALL(mCallback, setVsyncEnabled(_)).Times(0);
159 EXPECT_CALL(getController(), addHwVsyncTimestamp(_, _, _)).Times(0);
160
161 mVsyncSchedule->addResyncSample(mCallback, timestamp, period);
162}
163
164TEST_F(VsyncScheduleTest, AddResyncSampleDisabled) {
165 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
166 const Period period = (60_Hz).getPeriod();
167 const auto timestamp = TimePoint::now();
168
169 EXPECT_CALL(mCallback, setVsyncEnabled(_)).Times(0);
170 EXPECT_CALL(getController(), addHwVsyncTimestamp(_, _, _)).Times(0);
171
172 mVsyncSchedule->addResyncSample(mCallback, timestamp, period);
173}
174
175TEST_F(VsyncScheduleTest, AddResyncSampleReturnsTrue) {
176 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
177 mVsyncSchedule->enableHardwareVsync(mCallback);
178
179 const Period period = (60_Hz).getPeriod();
180 const auto timestamp = TimePoint::now();
181
182 EXPECT_CALL(mCallback, setVsyncEnabled(_)).Times(0);
183 EXPECT_CALL(getController(),
184 addHwVsyncTimestamp(timestamp.ns(), std::optional<nsecs_t>(period.ns()), _))
185 .WillOnce(Return(true));
186
187 mVsyncSchedule->addResyncSample(mCallback, timestamp, period);
188}
189
190TEST_F(VsyncScheduleTest, AddResyncSampleReturnsFalse) {
191 ASSERT_TRUE(mVsyncSchedule->isHardwareVsyncAllowed(true /* makeAllowed */));
192 mVsyncSchedule->enableHardwareVsync(mCallback);
193
194 const Period period = (60_Hz).getPeriod();
195 const auto timestamp = TimePoint::now();
196
197 EXPECT_CALL(mCallback, setVsyncEnabled(false));
198 EXPECT_CALL(getController(),
199 addHwVsyncTimestamp(timestamp.ns(), std::optional<nsecs_t>(period.ns()), _))
200 .WillOnce(Return(false));
201
202 mVsyncSchedule->addResyncSample(mCallback, timestamp, period);
203}
204
205TEST_F(VsyncScheduleTest, PendingState) FTL_FAKE_GUARD(kMainThreadContext) {
206 ASSERT_FALSE(mVsyncSchedule->getPendingHardwareVsyncState());
207 mVsyncSchedule->setPendingHardwareVsyncState(true);
208 ASSERT_TRUE(mVsyncSchedule->getPendingHardwareVsyncState());
209
210 mVsyncSchedule->setPendingHardwareVsyncState(false);
211 ASSERT_FALSE(mVsyncSchedule->getPendingHardwareVsyncState());
212}
213
214} // namespace
215} // namespace android