1 files changed, 351 insertions, 0 deletions

diff --git a/services/vibratorservice/test/VibratorHalWrapperHidlV1_0Test.cpp b/services/vibratorservice/test/VibratorHalWrapperHidlV1_0Test.cpp
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+++ b/services/vibratorservice/test/VibratorHalWrapperHidlV1_0Test.cpp
@@ -0,0 +1,351 @@
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *            http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#define LOG_TAG "VibratorHalWrapperHidlV1_0Test"
+
+#include <android/hardware/vibrator/IVibrator.h>
+
+#include <gmock/gmock.h>
+#include <gtest/gtest.h>
+
+#include <utils/Log.h>
+#include <thread>
+
+#include <vibratorservice/VibratorCallbackScheduler.h>
+#include <vibratorservice/VibratorHalWrapper.h>
+
+#include "test_utils.h"
+
+namespace V1_0 = android::hardware::vibrator::V1_0;
+
+using android::hardware::vibrator::Braking;
+using android::hardware::vibrator::CompositeEffect;
+using android::hardware::vibrator::CompositePrimitive;
+using android::hardware::vibrator::Effect;
+using android::hardware::vibrator::EffectStrength;
+using android::hardware::vibrator::IVibrator;
+using android::hardware::vibrator::PrimitivePwle;
+
+using namespace android;
+using namespace std::chrono_literals;
+using namespace testing;
+
+// -------------------------------------------------------------------------------------------------
+
+class MockIVibratorV1_0 : public V1_0::IVibrator {
+public:
+    MOCK_METHOD(hardware::Return<void>, ping, (), (override));
+    MOCK_METHOD(hardware::Return<V1_0::Status>, on, (uint32_t timeoutMs), (override));
+    MOCK_METHOD(hardware::Return<V1_0::Status>, off, (), (override));
+    MOCK_METHOD(hardware::Return<bool>, supportsAmplitudeControl, (), (override));
+    MOCK_METHOD(hardware::Return<V1_0::Status>, setAmplitude, (uint8_t amplitude), (override));
+    MOCK_METHOD(hardware::Return<void>, perform,
+                (V1_0::Effect effect, V1_0::EffectStrength strength, perform_cb cb), (override));
+};
+
+// -------------------------------------------------------------------------------------------------
+
+class VibratorHalWrapperHidlV1_0Test : public Test {
+public:
+    void SetUp() override {
+        mMockHal = new StrictMock<MockIVibratorV1_0>();
+        mMockScheduler = std::make_shared<StrictMock<vibrator::MockCallbackScheduler>>();
+        mWrapper = std::make_unique<vibrator::HidlHalWrapperV1_0>(mMockScheduler, mMockHal);
+        ASSERT_NE(mWrapper, nullptr);
+    }
+
+protected:
+    std::shared_ptr<StrictMock<vibrator::MockCallbackScheduler>> mMockScheduler = nullptr;
+    std::unique_ptr<vibrator::HalWrapper> mWrapper = nullptr;
+    sp<StrictMock<MockIVibratorV1_0>> mMockHal = nullptr;
+};
+
+// -------------------------------------------------------------------------------------------------
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestPing) {
+    EXPECT_CALL(*mMockHal.get(), ping())
+            .Times(Exactly(2))
+            .WillOnce([]() { return hardware::Return<void>(); })
+            .WillRepeatedly([]() {
+                return hardware::Return<void>(hardware::Status::fromExceptionCode(-1));
+            });
+
+    ASSERT_TRUE(mWrapper->ping().isOk());
+    ASSERT_TRUE(mWrapper->ping().isFailed());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestOn) {
+    {
+        InSequence seq;
+        EXPECT_CALL(*mMockHal.get(), on(Eq(static_cast<uint32_t>(1))))
+                .Times(Exactly(1))
+                .WillRepeatedly(
+                        [](uint32_t) { return hardware::Return<V1_0::Status>(V1_0::Status::OK); });
+        EXPECT_CALL(*mMockScheduler.get(), schedule(_, Eq(1ms)))
+                .Times(Exactly(1))
+                .WillRepeatedly(vibrator::TriggerSchedulerCallback());
+        EXPECT_CALL(*mMockHal.get(), on(Eq(static_cast<uint32_t>(10))))
+                .Times(Exactly(1))
+                .WillRepeatedly([](uint32_t) {
+                    return hardware::Return<V1_0::Status>(V1_0::Status::UNSUPPORTED_OPERATION);
+                });
+        EXPECT_CALL(*mMockHal.get(), on(Eq(static_cast<uint32_t>(11))))
+                .Times(Exactly(1))
+                .WillRepeatedly([](uint32_t) {
+                    return hardware::Return<V1_0::Status>(V1_0::Status::BAD_VALUE);
+                });
+        EXPECT_CALL(*mMockHal.get(), on(Eq(static_cast<uint32_t>(12))))
+                .Times(Exactly(1))
+                .WillRepeatedly([](uint32_t) {
+                    return hardware::Return<V1_0::Status>(hardware::Status::fromExceptionCode(-1));
+                });
+    }
+
+    std::unique_ptr<int32_t> callbackCounter = std::make_unique<int32_t>();
+    auto callback = vibrator::TestFactory::createCountingCallback(callbackCounter.get());
+
+    ASSERT_TRUE(mWrapper->on(1ms, callback).isOk());
+    ASSERT_EQ(1, *callbackCounter.get());
+
+    ASSERT_TRUE(mWrapper->on(10ms, callback).isUnsupported());
+    ASSERT_TRUE(mWrapper->on(11ms, callback).isFailed());
+    ASSERT_TRUE(mWrapper->on(12ms, callback).isFailed());
+
+    // Callback not triggered for unsupported and on failure
+    ASSERT_EQ(1, *callbackCounter.get());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestOff) {
+    EXPECT_CALL(*mMockHal.get(), off())
+            .Times(Exactly(4))
+            .WillOnce([]() { return hardware::Return<V1_0::Status>(V1_0::Status::OK); })
+            .WillOnce([]() {
+                return hardware::Return<V1_0::Status>(V1_0::Status::UNSUPPORTED_OPERATION);
+            })
+            .WillOnce([]() { return hardware::Return<V1_0::Status>(V1_0::Status::BAD_VALUE); })
+            .WillRepeatedly([]() {
+                return hardware::Return<V1_0::Status>(hardware::Status::fromExceptionCode(-1));
+            });
+
+    ASSERT_TRUE(mWrapper->off().isOk());
+    ASSERT_TRUE(mWrapper->off().isUnsupported());
+    ASSERT_TRUE(mWrapper->off().isFailed());
+    ASSERT_TRUE(mWrapper->off().isFailed());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestSetAmplitude) {
+    {
+        InSequence seq;
+        EXPECT_CALL(*mMockHal.get(), setAmplitude(Eq(static_cast<uint8_t>(1))))
+                .Times(Exactly(1))
+                .WillRepeatedly(
+                        [](uint8_t) { return hardware::Return<V1_0::Status>(V1_0::Status::OK); });
+        EXPECT_CALL(*mMockHal.get(), setAmplitude(Eq(static_cast<uint8_t>(2))))
+                .Times(Exactly(1))
+                .WillRepeatedly([](uint8_t) {
+                    return hardware::Return<V1_0::Status>(V1_0::Status::UNSUPPORTED_OPERATION);
+                });
+        EXPECT_CALL(*mMockHal.get(), setAmplitude(Eq(static_cast<uint8_t>(3))))
+                .Times(Exactly(1))
+                .WillRepeatedly([](uint8_t) {
+                    return hardware::Return<V1_0::Status>(V1_0::Status::BAD_VALUE);
+                });
+        EXPECT_CALL(*mMockHal.get(), setAmplitude(Eq(static_cast<uint8_t>(4))))
+                .Times(Exactly(1))
+                .WillRepeatedly([](uint8_t) {
+                    return hardware::Return<V1_0::Status>(hardware::Status::fromExceptionCode(-1));
+                });
+    }
+
+    auto maxAmplitude = std::numeric_limits<uint8_t>::max();
+    ASSERT_TRUE(mWrapper->setAmplitude(1.0f / maxAmplitude).isOk());
+    ASSERT_TRUE(mWrapper->setAmplitude(2.0f / maxAmplitude).isUnsupported());
+    ASSERT_TRUE(mWrapper->setAmplitude(3.0f / maxAmplitude).isFailed());
+    ASSERT_TRUE(mWrapper->setAmplitude(4.0f / maxAmplitude).isFailed());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestSetExternalControlUnsupported) {
+    ASSERT_TRUE(mWrapper->setExternalControl(true).isUnsupported());
+    ASSERT_TRUE(mWrapper->setExternalControl(false).isUnsupported());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestAlwaysOnEnableUnsupported) {
+    ASSERT_TRUE(mWrapper->alwaysOnEnable(1, Effect::CLICK, EffectStrength::LIGHT).isUnsupported());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestAlwaysOnDisableUnsupported) {
+    ASSERT_TRUE(mWrapper->alwaysOnDisable(1).isUnsupported());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestGetInfoDoesNotCacheFailedResult) {
+    EXPECT_CALL(*mMockHal.get(), supportsAmplitudeControl())
+            .Times(Exactly(2))
+            .WillOnce([]() {
+                return hardware::Return<bool>(hardware::Status::fromExceptionCode(-1));
+            })
+            .WillRepeatedly([]() { return hardware::Return<bool>(true); });
+
+    ASSERT_TRUE(mWrapper->getInfo().capabilities.isFailed());
+
+    vibrator::Info info = mWrapper->getInfo();
+    ASSERT_EQ(vibrator::Capabilities::AMPLITUDE_CONTROL, info.capabilities.value());
+    ASSERT_TRUE(info.supportedEffects.isUnsupported());
+    ASSERT_TRUE(info.supportedBraking.isUnsupported());
+    ASSERT_TRUE(info.supportedPrimitives.isUnsupported());
+    ASSERT_TRUE(info.primitiveDurations.isUnsupported());
+    ASSERT_TRUE(info.primitiveDelayMax.isUnsupported());
+    ASSERT_TRUE(info.pwlePrimitiveDurationMax.isUnsupported());
+    ASSERT_TRUE(info.compositionSizeMax.isUnsupported());
+    ASSERT_TRUE(info.pwleSizeMax.isUnsupported());
+    ASSERT_TRUE(info.minFrequency.isUnsupported());
+    ASSERT_TRUE(info.resonantFrequency.isUnsupported());
+    ASSERT_TRUE(info.frequencyResolution.isUnsupported());
+    ASSERT_TRUE(info.qFactor.isUnsupported());
+    ASSERT_TRUE(info.maxAmplitudes.isUnsupported());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestGetInfoWithoutAmplitudeControl) {
+    EXPECT_CALL(*mMockHal.get(), supportsAmplitudeControl()).Times(Exactly(1)).WillRepeatedly([]() {
+        return hardware::Return<bool>(false);
+    });
+
+    ASSERT_EQ(vibrator::Capabilities::NONE, mWrapper->getInfo().capabilities.value());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestGetInfoCachesResult) {
+    EXPECT_CALL(*mMockHal.get(), supportsAmplitudeControl()).Times(Exactly(1)).WillRepeatedly([]() {
+        return hardware::Return<bool>(true);
+    });
+
+    std::vector<std::thread> threads;
+    for (int i = 0; i < 10; i++) {
+        threads.push_back(
+                std::thread([&]() { ASSERT_TRUE(mWrapper->getInfo().capabilities.isOk()); }));
+    }
+    std::for_each(threads.begin(), threads.end(), [](std::thread& t) { t.join(); });
+
+    vibrator::Info info = mWrapper->getInfo();
+    ASSERT_EQ(vibrator::Capabilities::AMPLITUDE_CONTROL, info.capabilities.value());
+    ASSERT_TRUE(info.supportedEffects.isUnsupported());
+    ASSERT_TRUE(info.supportedBraking.isUnsupported());
+    ASSERT_TRUE(info.supportedPrimitives.isUnsupported());
+    ASSERT_TRUE(info.primitiveDurations.isUnsupported());
+    ASSERT_TRUE(info.minFrequency.isUnsupported());
+    ASSERT_TRUE(info.resonantFrequency.isUnsupported());
+    ASSERT_TRUE(info.frequencyResolution.isUnsupported());
+    ASSERT_TRUE(info.qFactor.isUnsupported());
+    ASSERT_TRUE(info.maxAmplitudes.isUnsupported());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestPerformEffect) {
+    {
+        InSequence seq;
+        EXPECT_CALL(*mMockHal.get(),
+                    perform(Eq(V1_0::Effect::CLICK), Eq(V1_0::EffectStrength::LIGHT), _))
+                .Times(Exactly(1))
+                .WillRepeatedly(
+                        [](V1_0::Effect, V1_0::EffectStrength, MockIVibratorV1_0::perform_cb cb) {
+                            cb(V1_0::Status::OK, 10);
+                            return hardware::Return<void>();
+                        });
+        EXPECT_CALL(*mMockScheduler.get(), schedule(_, Eq(10ms)))
+                .Times(Exactly(1))
+                .WillRepeatedly(vibrator::TriggerSchedulerCallback());
+        EXPECT_CALL(*mMockHal.get(),
+                    perform(Eq(V1_0::Effect::CLICK), Eq(V1_0::EffectStrength::MEDIUM), _))
+                .Times(Exactly(1))
+                .WillRepeatedly(
+                        [](V1_0::Effect, V1_0::EffectStrength, MockIVibratorV1_0::perform_cb cb) {
+                            cb(V1_0::Status::UNSUPPORTED_OPERATION, 10);
+                            return hardware::Return<void>();
+                        });
+        EXPECT_CALL(*mMockHal.get(),
+                    perform(Eq(V1_0::Effect::CLICK), Eq(V1_0::EffectStrength::STRONG), _))
+                .Times(Exactly(2))
+                .WillOnce([](V1_0::Effect, V1_0::EffectStrength, MockIVibratorV1_0::perform_cb cb) {
+                    cb(V1_0::Status::BAD_VALUE, 10);
+                    return hardware::Return<void>();
+                })
+                .WillRepeatedly(
+                        [](V1_0::Effect, V1_0::EffectStrength, MockIVibratorV1_0::perform_cb) {
+                            return hardware::Return<void>(hardware::Status::fromExceptionCode(-1));
+                        });
+    }
+
+    std::unique_ptr<int32_t> callbackCounter = std::make_unique<int32_t>();
+    auto callback = vibrator::TestFactory::createCountingCallback(callbackCounter.get());
+
+    auto result = mWrapper->performEffect(Effect::CLICK, EffectStrength::LIGHT, callback);
+    ASSERT_TRUE(result.isOk());
+    ASSERT_EQ(10ms, result.value());
+    ASSERT_EQ(1, *callbackCounter.get());
+
+    result = mWrapper->performEffect(Effect::CLICK, EffectStrength::MEDIUM, callback);
+    ASSERT_TRUE(result.isUnsupported());
+
+    result = mWrapper->performEffect(Effect::CLICK, EffectStrength::STRONG, callback);
+    ASSERT_TRUE(result.isFailed());
+
+    result = mWrapper->performEffect(Effect::CLICK, EffectStrength::STRONG, callback);
+    ASSERT_TRUE(result.isFailed());
+
+    // Callback not triggered for unsupported and on failure
+    ASSERT_EQ(1, *callbackCounter.get());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestPerformEffectUnsupported) {
+    std::unique_ptr<int32_t> callbackCounter = std::make_unique<int32_t>();
+    auto callback = vibrator::TestFactory::createCountingCallback(callbackCounter.get());
+    // Using TICK that is only available in v1.1
+    auto result = mWrapper->performEffect(Effect::TICK, EffectStrength::LIGHT, callback);
+    ASSERT_TRUE(result.isUnsupported());
+    // No callback is triggered.
+    ASSERT_EQ(0, *callbackCounter.get());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestPerformComposedEffectUnsupported) {
+    std::vector<CompositeEffect> emptyEffects, singleEffect, multipleEffects;
+    singleEffect.push_back(
+            vibrator::TestFactory::createCompositeEffect(CompositePrimitive::CLICK, 10ms, 0.0f));
+    multipleEffects.push_back(
+            vibrator::TestFactory::createCompositeEffect(CompositePrimitive::SPIN, 100ms, 0.5f));
+    multipleEffects.push_back(
+            vibrator::TestFactory::createCompositeEffect(CompositePrimitive::THUD, 1000ms, 1.0f));
+
+    std::unique_ptr<int32_t> callbackCounter = std::make_unique<int32_t>();
+    auto callback = vibrator::TestFactory::createCountingCallback(callbackCounter.get());
+
+    ASSERT_TRUE(mWrapper->performComposedEffect(singleEffect, callback).isUnsupported());
+    ASSERT_TRUE(mWrapper->performComposedEffect(multipleEffects, callback).isUnsupported());
+
+    // No callback is triggered.
+    ASSERT_EQ(0, *callbackCounter.get());
+}
+
+TEST_F(VibratorHalWrapperHidlV1_0Test, TestPerformPwleEffectUnsupported) {
+    std::vector<PrimitivePwle> emptyPrimitives, multiplePrimitives;
+    multiplePrimitives.push_back(vibrator::TestFactory::createActivePwle(0, 1, 0, 1, 10ms));
+    multiplePrimitives.push_back(vibrator::TestFactory::createBrakingPwle(Braking::NONE, 100ms));
+
+    std::unique_ptr<int32_t> callbackCounter = std::make_unique<int32_t>();
+    auto callback = vibrator::TestFactory::createCountingCallback(callbackCounter.get());
+
+    ASSERT_TRUE(mWrapper->performPwleEffect(emptyPrimitives, callback).isUnsupported());
+    ASSERT_TRUE(mWrapper->performPwleEffect(multiplePrimitives, callback).isUnsupported());
+
+    // No callback is triggered.
+    ASSERT_EQ(0, *callbackCounter.get());
+}