/* * 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. */ #include "MockDevice.h" #include "MockPreparedModel.h" #include #include #include #include #include #include #include #include #include #include namespace android::hardware::neuralnetworks::V1_2::utils { namespace { using ::testing::_; using ::testing::Invoke; using ::testing::InvokeWithoutArgs; const nn::Model kSimpleModel = { .main = {.operands = {{.type = nn::OperandType::TENSOR_FLOAT32, .dimensions = {1}, .lifetime = nn::Operand::LifeTime::SUBGRAPH_INPUT}, {.type = nn::OperandType::TENSOR_FLOAT32, .dimensions = {1}, .lifetime = nn::Operand::LifeTime::SUBGRAPH_OUTPUT}}, .operations = {{.type = nn::OperationType::RELU, .inputs = {0}, .outputs = {1}}}, .inputIndexes = {0}, .outputIndexes = {1}}}; const std::string kName = "Google-MockV1"; const std::string kInvalidName = ""; const sp kInvalidDevice; constexpr V1_0::PerformanceInfo kNoPerformanceInfo = { .execTime = std::numeric_limits::max(), .powerUsage = std::numeric_limits::max()}; template auto makeCallbackReturn(Args&&... args) { return [argPack = std::make_tuple(std::forward(args)...)](const auto& cb) { std::apply(cb, argPack); return Void(); }; } sp createMockDevice() { const auto mockDevice = MockDevice::create(); // Setup default actions for each relevant call. const auto getVersionString_ret = makeCallbackReturn(V1_0::ErrorStatus::NONE, kName); const auto getType_ret = makeCallbackReturn(V1_0::ErrorStatus::NONE, V1_2::DeviceType::OTHER); const auto getSupportedExtensions_ret = makeCallbackReturn(V1_0::ErrorStatus::NONE, hidl_vec{}); const auto getNumberOfCacheFilesNeeded_ret = makeCallbackReturn( V1_0::ErrorStatus::NONE, nn::kMaxNumberOfCacheFiles, nn::kMaxNumberOfCacheFiles); const auto getCapabilities_ret = makeCallbackReturn( V1_0::ErrorStatus::NONE, V1_2::Capabilities{ .relaxedFloat32toFloat16PerformanceScalar = kNoPerformanceInfo, .relaxedFloat32toFloat16PerformanceTensor = kNoPerformanceInfo, }); // Setup default actions for each relevant call. ON_CALL(*mockDevice, getVersionString(_)).WillByDefault(Invoke(getVersionString_ret)); ON_CALL(*mockDevice, getType(_)).WillByDefault(Invoke(getType_ret)); ON_CALL(*mockDevice, getSupportedExtensions(_)) .WillByDefault(Invoke(getSupportedExtensions_ret)); ON_CALL(*mockDevice, getNumberOfCacheFilesNeeded(_)) .WillByDefault(Invoke(getNumberOfCacheFilesNeeded_ret)); ON_CALL(*mockDevice, getCapabilities_1_2(_)).WillByDefault(Invoke(getCapabilities_ret)); // Ensure that older calls are not used. EXPECT_CALL(*mockDevice, getCapabilities(_)).Times(0); EXPECT_CALL(*mockDevice, getCapabilities_1_1(_)).Times(0); EXPECT_CALL(*mockDevice, getSupportedOperations(_, _)).Times(0); EXPECT_CALL(*mockDevice, getSupportedOperations_1_1(_, _)).Times(0); EXPECT_CALL(*mockDevice, prepareModel(_, _)).Times(0); EXPECT_CALL(*mockDevice, prepareModel_1_1(_, _, _)).Times(0); // These EXPECT_CALL(...).Times(testing::AnyNumber()) calls are to suppress warnings on the // uninteresting methods calls. EXPECT_CALL(*mockDevice, getVersionString(_)).Times(testing::AnyNumber()); EXPECT_CALL(*mockDevice, getType(_)).Times(testing::AnyNumber()); EXPECT_CALL(*mockDevice, getSupportedExtensions(_)).Times(testing::AnyNumber()); EXPECT_CALL(*mockDevice, getNumberOfCacheFilesNeeded(_)).Times(testing::AnyNumber()); EXPECT_CALL(*mockDevice, getCapabilities_1_2(_)).Times(testing::AnyNumber()); return mockDevice; } auto makePreparedModelReturn(V1_0::ErrorStatus launchStatus, V1_0::ErrorStatus returnStatus, const sp& preparedModel) { return [launchStatus, returnStatus, preparedModel]( const V1_2::Model& /*model*/, V1_1::ExecutionPreference /*preference*/, const hardware::hidl_vec& /*modelCache*/, const hardware::hidl_vec& /*dataCache*/, const CacheToken& /*token*/, const sp& cb) -> hardware::Return { cb->notify_1_2(returnStatus, preparedModel).isOk(); return launchStatus; }; } auto makePreparedModelFromCacheReturn(V1_0::ErrorStatus launchStatus, V1_0::ErrorStatus returnStatus, const sp& preparedModel) { return [launchStatus, returnStatus, preparedModel]( const hardware::hidl_vec& /*modelCache*/, const hardware::hidl_vec& /*dataCache*/, const CacheToken& /*token*/, const sp& cb) -> hardware::Return { cb->notify_1_2(returnStatus, preparedModel).isOk(); return launchStatus; }; } std::function makeTransportFailure(status_t status) { return [status] { return hardware::Status::fromStatusT(status); }; } const auto makeGeneralTransportFailure = makeTransportFailure(NO_MEMORY); const auto makeDeadObjectFailure = makeTransportFailure(DEAD_OBJECT); } // namespace TEST(DeviceTest, invalidName) { // run test const auto device = MockDevice::create(); const auto result = Device::create(kInvalidName, device); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::INVALID_ARGUMENT); } TEST(DeviceTest, invalidDevice) { // run test const auto result = Device::create(kName, kInvalidDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::INVALID_ARGUMENT); } TEST(DeviceTest, getVersionStringError) { // setup call const auto mockDevice = createMockDevice(); const auto ret = makeCallbackReturn(V1_0::ErrorStatus::GENERAL_FAILURE, ""); EXPECT_CALL(*mockDevice, getVersionString(_)).Times(1).WillOnce(Invoke(ret)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getVersionStringTransportFailure) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getVersionString(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getVersionStringDeadObject) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getVersionString(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, getTypeError) { // setup call const auto mockDevice = createMockDevice(); const auto ret = makeCallbackReturn(V1_0::ErrorStatus::GENERAL_FAILURE, V1_2::DeviceType::OTHER); EXPECT_CALL(*mockDevice, getType(_)).Times(1).WillOnce(Invoke(ret)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getTypeTransportFailure) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getType(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getTypeDeadObject) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getType(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, getSupportedExtensionsError) { // setup call const auto mockDevice = createMockDevice(); const auto ret = makeCallbackReturn(V1_0::ErrorStatus::GENERAL_FAILURE, hidl_vec{}); EXPECT_CALL(*mockDevice, getSupportedExtensions(_)).Times(1).WillOnce(Invoke(ret)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getSupportedExtensionsTransportFailure) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getSupportedExtensions(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getSupportedExtensionsDeadObject) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getSupportedExtensions(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, getNumberOfCacheFilesNeededError) { // setup call const auto mockDevice = createMockDevice(); const auto ret = makeCallbackReturn(V1_0::ErrorStatus::GENERAL_FAILURE, nn::kMaxNumberOfCacheFiles, nn::kMaxNumberOfCacheFiles); EXPECT_CALL(*mockDevice, getNumberOfCacheFilesNeeded(_)).Times(1).WillOnce(Invoke(ret)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, dataCacheFilesExceedsSpecifiedMax) { // setup test const auto mockDevice = createMockDevice(); const auto ret = makeCallbackReturn(V1_0::ErrorStatus::NONE, nn::kMaxNumberOfCacheFiles + 1, nn::kMaxNumberOfCacheFiles); EXPECT_CALL(*mockDevice, getNumberOfCacheFilesNeeded(_)).Times(1).WillOnce(Invoke(ret)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, modelCacheFilesExceedsSpecifiedMax) { // setup test const auto mockDevice = createMockDevice(); const auto ret = makeCallbackReturn(V1_0::ErrorStatus::NONE, nn::kMaxNumberOfCacheFiles, nn::kMaxNumberOfCacheFiles + 1); EXPECT_CALL(*mockDevice, getNumberOfCacheFilesNeeded(_)).Times(1).WillOnce(Invoke(ret)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getNumberOfCacheFilesNeededTransportFailure) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getNumberOfCacheFilesNeeded(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getNumberOfCacheFilesNeededDeadObject) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getNumberOfCacheFilesNeeded(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, getCapabilitiesError) { // setup call const auto mockDevice = createMockDevice(); const auto ret = makeCallbackReturn( V1_0::ErrorStatus::GENERAL_FAILURE, V1_2::Capabilities{ .relaxedFloat32toFloat16PerformanceScalar = kNoPerformanceInfo, .relaxedFloat32toFloat16PerformanceTensor = kNoPerformanceInfo, }); EXPECT_CALL(*mockDevice, getCapabilities_1_2(_)).Times(1).WillOnce(Invoke(ret)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getCapabilitiesTransportFailure) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getCapabilities_1_2(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getCapabilitiesDeadObject) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getCapabilities_1_2(_)) .Times(1) .WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, linkToDeathError) { // setup call const auto mockDevice = createMockDevice(); const auto ret = []() -> Return { return false; }; EXPECT_CALL(*mockDevice, linkToDeathRet()).Times(1).WillOnce(InvokeWithoutArgs(ret)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, linkToDeathTransportFailure) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, linkToDeathRet()) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, linkToDeathDeadObject) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, linkToDeathRet()) .Times(1) .WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); // run test const auto result = Device::create(kName, mockDevice); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, getName) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); // run test const auto& name = device->getName(); // verify result EXPECT_EQ(name, kName); } TEST(DeviceTest, getFeatureLevel) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); // run test const auto featureLevel = device->getFeatureLevel(); // verify result EXPECT_EQ(featureLevel, nn::Version::ANDROID_Q); } TEST(DeviceTest, getCachedData) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, getVersionString(_)).Times(1); EXPECT_CALL(*mockDevice, getType(_)).Times(1); EXPECT_CALL(*mockDevice, getSupportedExtensions(_)).Times(1); EXPECT_CALL(*mockDevice, getNumberOfCacheFilesNeeded(_)).Times(1); EXPECT_CALL(*mockDevice, getCapabilities_1_2(_)).Times(1); const auto result = Device::create(kName, mockDevice); ASSERT_TRUE(result.has_value()) << "Failed with " << result.error().code << ": " << result.error().message; const auto& device = result.value(); // run test and verify results EXPECT_EQ(device->getVersionString(), device->getVersionString()); EXPECT_EQ(device->getType(), device->getType()); EXPECT_EQ(device->getSupportedExtensions(), device->getSupportedExtensions()); EXPECT_EQ(device->getNumberOfCacheFilesNeeded(), device->getNumberOfCacheFilesNeeded()); EXPECT_EQ(device->getCapabilities(), device->getCapabilities()); } TEST(DeviceTest, wait) { // setup call const auto mockDevice = createMockDevice(); const auto ret = []() -> Return { return {}; }; EXPECT_CALL(*mockDevice, ping()).Times(1).WillOnce(InvokeWithoutArgs(ret)); const auto device = Device::create(kName, mockDevice).value(); // run test const auto result = device->wait(); // verify result ASSERT_TRUE(result.has_value()) << "Failed with " << result.error().code << ": " << result.error().message; } TEST(DeviceTest, waitTransportFailure) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, ping()) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); const auto device = Device::create(kName, mockDevice).value(); // run test const auto result = device->wait(); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, waitDeadObject) { // setup call const auto mockDevice = createMockDevice(); EXPECT_CALL(*mockDevice, ping()).Times(1).WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); const auto device = Device::create(kName, mockDevice).value(); // run test const auto result = device->wait(); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, getSupportedOperations) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); const auto ret = [](const auto& model, const auto& cb) { cb(V1_0::ErrorStatus::NONE, std::vector(model.operations.size(), true)); return hardware::Void(); }; EXPECT_CALL(*mockDevice, getSupportedOperations_1_2(_, _)).Times(1).WillOnce(Invoke(ret)); // run test const auto result = device->getSupportedOperations(kSimpleModel); // verify result ASSERT_TRUE(result.has_value()) << "Failed with " << result.error().code << ": " << result.error().message; const auto& supportedOperations = result.value(); EXPECT_EQ(supportedOperations.size(), kSimpleModel.main.operations.size()); EXPECT_THAT(supportedOperations, Each(testing::IsTrue())); } TEST(DeviceTest, getSupportedOperationsError) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); const auto ret = [](const auto& /*model*/, const auto& cb) { cb(V1_0::ErrorStatus::GENERAL_FAILURE, {}); return hardware::Void(); }; EXPECT_CALL(*mockDevice, getSupportedOperations_1_2(_, _)).Times(1).WillOnce(Invoke(ret)); // run test const auto result = device->getSupportedOperations(kSimpleModel); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getSupportedOperationsTransportFailure) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, getSupportedOperations_1_2(_, _)) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); // run test const auto result = device->getSupportedOperations(kSimpleModel); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, getSupportedOperationsDeadObject) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, getSupportedOperations_1_2(_, _)) .Times(1) .WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); // run test const auto result = device->getSupportedOperations(kSimpleModel); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, prepareModel) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); const auto mockPreparedModel = MockPreparedModel::create(); EXPECT_CALL(*mockDevice, prepareModel_1_2(_, _, _, _, _, _)) .Times(1) .WillOnce(Invoke(makePreparedModelReturn(V1_0::ErrorStatus::NONE, V1_0::ErrorStatus::NONE, mockPreparedModel))); // run test const auto result = device->prepareModel(kSimpleModel, nn::ExecutionPreference::DEFAULT, nn::Priority::DEFAULT, {}, {}, {}, {}); // verify result ASSERT_TRUE(result.has_value()) << "Failed with " << result.error().code << ": " << result.error().message; EXPECT_NE(result.value(), nullptr); } TEST(DeviceTest, prepareModelLaunchError) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModel_1_2(_, _, _, _, _, _)) .Times(1) .WillOnce(Invoke(makePreparedModelReturn(V1_0::ErrorStatus::GENERAL_FAILURE, V1_0::ErrorStatus::GENERAL_FAILURE, nullptr))); // run test const auto result = device->prepareModel(kSimpleModel, nn::ExecutionPreference::DEFAULT, nn::Priority::DEFAULT, {}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, prepareModelReturnError) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModel_1_2(_, _, _, _, _, _)) .Times(1) .WillOnce(Invoke(makePreparedModelReturn(V1_0::ErrorStatus::NONE, V1_0::ErrorStatus::GENERAL_FAILURE, nullptr))); // run test const auto result = device->prepareModel(kSimpleModel, nn::ExecutionPreference::DEFAULT, nn::Priority::DEFAULT, {}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, prepareModelNullptrError) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModel_1_2(_, _, _, _, _, _)) .Times(1) .WillOnce(Invoke(makePreparedModelReturn(V1_0::ErrorStatus::NONE, V1_0::ErrorStatus::NONE, nullptr))); // run test const auto result = device->prepareModel(kSimpleModel, nn::ExecutionPreference::DEFAULT, nn::Priority::DEFAULT, {}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, prepareModelTransportFailure) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModel_1_2(_, _, _, _, _, _)) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); // run test const auto result = device->prepareModel(kSimpleModel, nn::ExecutionPreference::DEFAULT, nn::Priority::DEFAULT, {}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, prepareModelDeadObject) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModel_1_2(_, _, _, _, _, _)) .Times(1) .WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); // run test const auto result = device->prepareModel(kSimpleModel, nn::ExecutionPreference::DEFAULT, nn::Priority::DEFAULT, {}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, prepareModelAsyncCrash) { // setup test const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); const auto ret = [&mockDevice]() -> hardware::Return { mockDevice->simulateCrash(); return V1_0::ErrorStatus::NONE; }; EXPECT_CALL(*mockDevice, prepareModel_1_2(_, _, _, _, _, _)) .Times(1) .WillOnce(InvokeWithoutArgs(ret)); // run test const auto result = device->prepareModel(kSimpleModel, nn::ExecutionPreference::DEFAULT, nn::Priority::DEFAULT, {}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, prepareModelFromCache) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); const auto mockPreparedModel = MockPreparedModel::create(); EXPECT_CALL(*mockDevice, prepareModelFromCache(_, _, _, _)) .Times(1) .WillOnce(Invoke(makePreparedModelFromCacheReturn( V1_0::ErrorStatus::NONE, V1_0::ErrorStatus::NONE, mockPreparedModel))); // run test const auto result = device->prepareModelFromCache({}, {}, {}, {}); // verify result ASSERT_TRUE(result.has_value()) << "Failed with " << result.error().code << ": " << result.error().message; EXPECT_NE(result.value(), nullptr); } TEST(DeviceTest, prepareModelFromCacheLaunchError) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModelFromCache(_, _, _, _)) .Times(1) .WillOnce(Invoke(makePreparedModelFromCacheReturn(V1_0::ErrorStatus::GENERAL_FAILURE, V1_0::ErrorStatus::GENERAL_FAILURE, nullptr))); // run test const auto result = device->prepareModelFromCache({}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, prepareModelFromCacheReturnError) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModelFromCache(_, _, _, _)) .Times(1) .WillOnce(Invoke(makePreparedModelFromCacheReturn( V1_0::ErrorStatus::NONE, V1_0::ErrorStatus::GENERAL_FAILURE, nullptr))); // run test const auto result = device->prepareModelFromCache({}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, prepareModelFromCacheNullptrError) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModelFromCache(_, _, _, _)) .Times(1) .WillOnce(Invoke(makePreparedModelFromCacheReturn(V1_0::ErrorStatus::NONE, V1_0::ErrorStatus::NONE, nullptr))); // run test const auto result = device->prepareModelFromCache({}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, prepareModelFromCacheTransportFailure) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModelFromCache(_, _, _, _)) .Times(1) .WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure)); // run test const auto result = device->prepareModelFromCache({}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } TEST(DeviceTest, prepareModelFromCacheDeadObject) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); EXPECT_CALL(*mockDevice, prepareModelFromCache(_, _, _, _)) .Times(1) .WillOnce(InvokeWithoutArgs(makeDeadObjectFailure)); // run test const auto result = device->prepareModelFromCache({}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, prepareModelFromCacheAsyncCrash) { // setup test const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); const auto ret = [&mockDevice]() -> hardware::Return { mockDevice->simulateCrash(); return V1_0::ErrorStatus::NONE; }; EXPECT_CALL(*mockDevice, prepareModelFromCache(_, _, _, _)) .Times(1) .WillOnce(InvokeWithoutArgs(ret)); // run test const auto result = device->prepareModelFromCache({}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT); } TEST(DeviceTest, allocateNotSupported) { // setup call const auto mockDevice = createMockDevice(); const auto device = Device::create(kName, mockDevice).value(); // run test const auto result = device->allocate({}, {}, {}, {}); // verify result ASSERT_FALSE(result.has_value()); EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE); } } // namespace android::hardware::neuralnetworks::V1_2::utils