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667 lines
27 KiB
667 lines
27 KiB
/*
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* Copyright (C) 2020 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "MockPreparedModel.h"
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#include "MockBurstContext.h"
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#include <android/hardware/neuralnetworks/1.2/IExecutionCallback.h>
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#include <gmock/gmock.h>
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#include <gtest/gtest.h>
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#include <nnapi/IExecution.h>
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#include <nnapi/IPreparedModel.h>
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#include <nnapi/TypeUtils.h>
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#include <nnapi/Types.h>
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#include <nnapi/hal/1.2/PreparedModel.h>
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#include <functional>
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#include <memory>
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namespace android::hardware::neuralnetworks::V1_2::utils {
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namespace {
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using ::testing::_;
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using ::testing::Invoke;
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using ::testing::InvokeWithoutArgs;
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const sp<V1_2::IPreparedModel> kInvalidPreparedModel;
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constexpr auto kNoTiming = V1_2::Timing{.timeOnDevice = std::numeric_limits<uint64_t>::max(),
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.timeInDriver = std::numeric_limits<uint64_t>::max()};
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sp<MockPreparedModel> createMockPreparedModel() {
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const auto mockPreparedModel = MockPreparedModel::create();
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// Ensure that older calls are not used.
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EXPECT_CALL(*mockPreparedModel, execute(_, _)).Times(0);
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return mockPreparedModel;
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}
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auto makeExecuteSynchronously(V1_0::ErrorStatus status,
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const std::vector<V1_2::OutputShape>& outputShapes,
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const V1_2::Timing& timing) {
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return [status, outputShapes, timing](const V1_0::Request& /*request*/,
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V1_2::MeasureTiming /*measureTiming*/,
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const V1_2::IPreparedModel::executeSynchronously_cb& cb) {
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cb(status, outputShapes, timing);
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return hardware::Void();
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};
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}
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auto makeExecuteAsynchronously(V1_0::ErrorStatus launchStatus, V1_0::ErrorStatus returnStatus,
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const std::vector<V1_2::OutputShape>& outputShapes,
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const V1_2::Timing& timing) {
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return [launchStatus, returnStatus, outputShapes, timing](
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const V1_0::Request& /*request*/, V1_2::MeasureTiming /*measureTiming*/,
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const sp<V1_2::IExecutionCallback>& cb) -> Return<V1_0::ErrorStatus> {
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cb->notify_1_2(returnStatus, outputShapes, timing);
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return launchStatus;
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};
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}
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auto makeConfigureExecutionBurstReturn(V1_0::ErrorStatus status,
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const sp<MockBurstContext>& burstContext) {
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return [status, burstContext](
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const sp<V1_2::IBurstCallback>& /*callback*/,
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const MQDescriptorSync<V1_2::FmqRequestDatum>& /*requestChannel*/,
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const MQDescriptorSync<V1_2::FmqResultDatum>& /*resultChannel*/,
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V1_2::IPreparedModel::configureExecutionBurst_cb cb) -> hardware::Return<void> {
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cb(status, burstContext);
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return hardware::Void();
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};
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}
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std::function<hardware::Status()> makeTransportFailure(status_t status) {
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return [status] { return hardware::Status::fromStatusT(status); };
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}
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const auto makeGeneralTransportFailure = makeTransportFailure(NO_MEMORY);
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const auto makeDeadObjectFailure = makeTransportFailure(DEAD_OBJECT);
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} // namespace
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TEST(PreparedModelTest, invalidPreparedModel) {
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// run test
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const auto result = PreparedModel::create(kInvalidPreparedModel, /*executeSynchronously=*/true);
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, linkToDeathError) {
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// setup call
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const auto mockPreparedModel = createMockPreparedModel();
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const auto ret = []() -> Return<bool> { return false; };
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EXPECT_CALL(*mockPreparedModel, linkToDeathRet()).Times(1).WillOnce(InvokeWithoutArgs(ret));
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// run test
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const auto result = PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true);
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, linkToDeathTransportFailure) {
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// setup call
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const auto mockPreparedModel = createMockPreparedModel();
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EXPECT_CALL(*mockPreparedModel, linkToDeathRet())
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.Times(1)
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.WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure));
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// run test
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const auto result = PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true);
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, linkToDeathDeadObject) {
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// setup call
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const auto mockPreparedModel = createMockPreparedModel();
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EXPECT_CALL(*mockPreparedModel, linkToDeathRet())
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.Times(1)
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.WillOnce(InvokeWithoutArgs(makeDeadObjectFailure));
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// run test
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const auto result = PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true);
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT);
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}
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TEST(PreparedModelTest, executeSync) {
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// setup call
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
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EXPECT_CALL(*mockPreparedModel, executeSynchronously(_, _, _))
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.Times(1)
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.WillOnce(Invoke(makeExecuteSynchronously(V1_0::ErrorStatus::NONE, {}, kNoTiming)));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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EXPECT_TRUE(result.has_value())
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<< "Failed with " << result.error().code << ": " << result.error().message;
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}
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TEST(PreparedModelTest, executeSyncError) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
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EXPECT_CALL(*mockPreparedModel, executeSynchronously(_, _, _))
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.Times(1)
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.WillOnce(Invoke(
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makeExecuteSynchronously(V1_0::ErrorStatus::GENERAL_FAILURE, {}, kNoTiming)));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, executeSyncTransportFailure) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
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EXPECT_CALL(*mockPreparedModel, executeSynchronously(_, _, _))
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.Times(1)
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.WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, executeSyncDeadObject) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
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EXPECT_CALL(*mockPreparedModel, executeSynchronously(_, _, _))
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.Times(1)
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.WillOnce(InvokeWithoutArgs(makeDeadObjectFailure));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT);
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}
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TEST(PreparedModelTest, executeAsync) {
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// setup call
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
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EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
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.Times(1)
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.WillOnce(Invoke(makeExecuteAsynchronously(V1_0::ErrorStatus::NONE,
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V1_0::ErrorStatus::NONE, {}, kNoTiming)));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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EXPECT_TRUE(result.has_value())
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<< "Failed with " << result.error().code << ": " << result.error().message;
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}
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TEST(PreparedModelTest, executeAsyncLaunchError) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
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EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
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.Times(1)
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.WillOnce(Invoke(makeExecuteAsynchronously(V1_0::ErrorStatus::GENERAL_FAILURE,
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V1_0::ErrorStatus::GENERAL_FAILURE, {},
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kNoTiming)));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, executeAsyncReturnError) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
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EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
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.Times(1)
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.WillOnce(Invoke(makeExecuteAsynchronously(
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V1_0::ErrorStatus::NONE, V1_0::ErrorStatus::GENERAL_FAILURE, {}, kNoTiming)));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, executeAsyncTransportFailure) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
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EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
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.Times(1)
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.WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, executeAsyncDeadObject) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
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EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
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.Times(1)
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.WillOnce(InvokeWithoutArgs(makeDeadObjectFailure));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT);
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}
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TEST(PreparedModelTest, executeAsyncCrash) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
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const auto ret = [&mockPreparedModel]() -> hardware::Return<V1_0::ErrorStatus> {
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mockPreparedModel->simulateCrash();
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return V1_0::ErrorStatus::NONE;
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};
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EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _)).Times(1).WillOnce(InvokeWithoutArgs(ret));
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// run test
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const auto result = preparedModel->execute({}, {}, {}, {});
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT);
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}
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TEST(PreparedModelTest, executeFencedNotSupported) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
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// run test
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const auto result = preparedModel->executeFenced({}, {}, {}, {}, {}, {});
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// verify result
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ASSERT_FALSE(result.has_value());
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EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, reusableExecuteSync) {
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// setup call
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const uint32_t kNumberOfComputations = 2;
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
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EXPECT_CALL(*mockPreparedModel, executeSynchronously(_, _, _))
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.Times(kNumberOfComputations)
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.WillRepeatedly(
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Invoke(makeExecuteSynchronously(V1_0::ErrorStatus::NONE, {}, kNoTiming)));
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// create execution
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const auto createResult = preparedModel->createReusableExecution({}, {}, {});
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ASSERT_TRUE(createResult.has_value())
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<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
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ASSERT_NE(createResult.value(), nullptr);
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// invoke compute repeatedly
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for (uint32_t i = 0; i < kNumberOfComputations; i++) {
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const auto computeResult = createResult.value()->compute({});
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EXPECT_TRUE(computeResult.has_value()) << "Failed with " << computeResult.error().code
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<< ": " << computeResult.error().message;
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}
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}
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TEST(PreparedModelTest, reusableExecuteSyncError) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
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EXPECT_CALL(*mockPreparedModel, executeSynchronously(_, _, _))
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.Times(1)
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.WillOnce(Invoke(
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makeExecuteSynchronously(V1_0::ErrorStatus::GENERAL_FAILURE, {}, kNoTiming)));
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// create execution
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const auto createResult = preparedModel->createReusableExecution({}, {}, {});
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ASSERT_TRUE(createResult.has_value())
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<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
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ASSERT_NE(createResult.value(), nullptr);
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// invoke compute
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const auto computeResult = createResult.value()->compute({});
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ASSERT_FALSE(computeResult.has_value());
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EXPECT_EQ(computeResult.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, reusableExecuteSyncTransportFailure) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
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EXPECT_CALL(*mockPreparedModel, executeSynchronously(_, _, _))
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.Times(1)
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.WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure));
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// create execution
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const auto createResult = preparedModel->createReusableExecution({}, {}, {});
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ASSERT_TRUE(createResult.has_value())
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<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
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ASSERT_NE(createResult.value(), nullptr);
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// invoke compute
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const auto computeResult = createResult.value()->compute({});
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ASSERT_FALSE(computeResult.has_value());
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EXPECT_EQ(computeResult.error().code, nn::ErrorStatus::GENERAL_FAILURE);
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}
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TEST(PreparedModelTest, reusableExecuteSyncDeadObject) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
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EXPECT_CALL(*mockPreparedModel, executeSynchronously(_, _, _))
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.Times(1)
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.WillOnce(InvokeWithoutArgs(makeDeadObjectFailure));
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// create execution
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const auto createResult = preparedModel->createReusableExecution({}, {}, {});
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ASSERT_TRUE(createResult.has_value())
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<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
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ASSERT_NE(createResult.value(), nullptr);
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// invoke compute
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const auto computeResult = createResult.value()->compute({});
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ASSERT_FALSE(computeResult.has_value());
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EXPECT_EQ(computeResult.error().code, nn::ErrorStatus::DEAD_OBJECT);
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}
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TEST(PreparedModelTest, reusableExecuteAsync) {
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// setup call
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const uint32_t kNumberOfComputations = 2;
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
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EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
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.Times(kNumberOfComputations)
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.WillRepeatedly(Invoke(makeExecuteAsynchronously(
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V1_0::ErrorStatus::NONE, V1_0::ErrorStatus::NONE, {}, kNoTiming)));
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// create execution
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const auto createResult = preparedModel->createReusableExecution({}, {}, {});
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ASSERT_TRUE(createResult.has_value())
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<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
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ASSERT_NE(createResult.value(), nullptr);
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// invoke compute repeatedly
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for (uint32_t i = 0; i < kNumberOfComputations; i++) {
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const auto computeResult = createResult.value()->compute({});
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EXPECT_TRUE(computeResult.has_value()) << "Failed with " << computeResult.error().code
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<< ": " << computeResult.error().message;
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}
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}
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TEST(PreparedModelTest, reusableExecuteAsyncLaunchError) {
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// setup test
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const auto mockPreparedModel = createMockPreparedModel();
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const auto preparedModel =
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PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
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EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
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.Times(1)
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.WillOnce(Invoke(makeExecuteAsynchronously(V1_0::ErrorStatus::GENERAL_FAILURE,
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V1_0::ErrorStatus::GENERAL_FAILURE, {},
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kNoTiming)));
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// create execution
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const auto createResult = preparedModel->createReusableExecution({}, {}, {});
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ASSERT_TRUE(createResult.has_value())
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<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
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ASSERT_NE(createResult.value(), nullptr);
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// invoke compute
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const auto computeResult = createResult.value()->compute({});
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ASSERT_FALSE(computeResult.has_value());
|
|
EXPECT_EQ(computeResult.error().code, nn::ErrorStatus::GENERAL_FAILURE);
|
|
}
|
|
|
|
TEST(PreparedModelTest, reusableExecuteAsyncReturnError) {
|
|
// setup test
|
|
const auto mockPreparedModel = createMockPreparedModel();
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
|
|
EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
|
|
.Times(1)
|
|
.WillOnce(Invoke(makeExecuteAsynchronously(
|
|
V1_0::ErrorStatus::NONE, V1_0::ErrorStatus::GENERAL_FAILURE, {}, kNoTiming)));
|
|
|
|
// create execution
|
|
const auto createResult = preparedModel->createReusableExecution({}, {}, {});
|
|
ASSERT_TRUE(createResult.has_value())
|
|
<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
|
|
ASSERT_NE(createResult.value(), nullptr);
|
|
|
|
// invoke compute
|
|
const auto computeResult = createResult.value()->compute({});
|
|
ASSERT_FALSE(computeResult.has_value());
|
|
EXPECT_EQ(computeResult.error().code, nn::ErrorStatus::GENERAL_FAILURE);
|
|
}
|
|
|
|
TEST(PreparedModelTest, reusableExecuteAsyncTransportFailure) {
|
|
// setup test
|
|
const auto mockPreparedModel = createMockPreparedModel();
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
|
|
EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
|
|
.Times(1)
|
|
.WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure));
|
|
|
|
// create execution
|
|
const auto createResult = preparedModel->createReusableExecution({}, {}, {});
|
|
ASSERT_TRUE(createResult.has_value())
|
|
<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
|
|
ASSERT_NE(createResult.value(), nullptr);
|
|
|
|
// invoke compute
|
|
const auto computeResult = createResult.value()->compute({});
|
|
ASSERT_FALSE(computeResult.has_value());
|
|
EXPECT_EQ(computeResult.error().code, nn::ErrorStatus::GENERAL_FAILURE);
|
|
}
|
|
|
|
TEST(PreparedModelTest, reusableExecuteAsyncDeadObject) {
|
|
// setup test
|
|
const auto mockPreparedModel = createMockPreparedModel();
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
|
|
EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _))
|
|
.Times(1)
|
|
.WillOnce(InvokeWithoutArgs(makeDeadObjectFailure));
|
|
|
|
// create execution
|
|
const auto createResult = preparedModel->createReusableExecution({}, {}, {});
|
|
ASSERT_TRUE(createResult.has_value())
|
|
<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
|
|
ASSERT_NE(createResult.value(), nullptr);
|
|
|
|
// invoke compute
|
|
const auto computeResult = createResult.value()->compute({});
|
|
ASSERT_FALSE(computeResult.has_value());
|
|
EXPECT_EQ(computeResult.error().code, nn::ErrorStatus::DEAD_OBJECT);
|
|
}
|
|
|
|
TEST(PreparedModelTest, reusableExecuteAsyncCrash) {
|
|
// setup test
|
|
const auto mockPreparedModel = createMockPreparedModel();
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/false).value();
|
|
const auto ret = [&mockPreparedModel]() -> hardware::Return<V1_0::ErrorStatus> {
|
|
mockPreparedModel->simulateCrash();
|
|
return V1_0::ErrorStatus::NONE;
|
|
};
|
|
EXPECT_CALL(*mockPreparedModel, execute_1_2(_, _, _)).Times(1).WillOnce(InvokeWithoutArgs(ret));
|
|
|
|
// create execution
|
|
const auto createResult = preparedModel->createReusableExecution({}, {}, {});
|
|
ASSERT_TRUE(createResult.has_value())
|
|
<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
|
|
ASSERT_NE(createResult.value(), nullptr);
|
|
|
|
// invoke compute
|
|
const auto computeResult = createResult.value()->compute({});
|
|
ASSERT_FALSE(computeResult.has_value());
|
|
EXPECT_EQ(computeResult.error().code, nn::ErrorStatus::DEAD_OBJECT);
|
|
}
|
|
|
|
TEST(PreparedModelTest, reusableExecuteFencedNotSupported) {
|
|
// setup test
|
|
const auto mockPreparedModel = createMockPreparedModel();
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
|
|
|
|
// create execution
|
|
const auto createResult = preparedModel->createReusableExecution({}, {}, {});
|
|
ASSERT_TRUE(createResult.has_value())
|
|
<< "Failed with " << createResult.error().code << ": " << createResult.error().message;
|
|
ASSERT_NE(createResult.value(), nullptr);
|
|
|
|
// invoke compute
|
|
const auto computeResult = createResult.value()->computeFenced({}, {}, {});
|
|
ASSERT_FALSE(computeResult.has_value());
|
|
EXPECT_EQ(computeResult.error().code, nn::ErrorStatus::GENERAL_FAILURE);
|
|
}
|
|
|
|
TEST(PreparedModelTest, configureExecutionBurst) {
|
|
// setup test
|
|
const auto mockPreparedModel = MockPreparedModel::create();
|
|
const auto mockBurstContext = sp<MockBurstContext>::make();
|
|
EXPECT_CALL(*mockPreparedModel, configureExecutionBurst(_, _, _, _))
|
|
.Times(1)
|
|
.WillOnce(makeConfigureExecutionBurstReturn(V1_0::ErrorStatus::NONE, mockBurstContext));
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
|
|
|
|
// run test
|
|
const auto result = preparedModel->configureExecutionBurst();
|
|
|
|
// verify result
|
|
ASSERT_TRUE(result.has_value())
|
|
<< "Failed with " << result.error().code << ": " << result.error().message;
|
|
EXPECT_NE(result.value(), nullptr);
|
|
}
|
|
|
|
TEST(PreparedModelTest, configureExecutionBurstError) {
|
|
// setup test
|
|
const auto mockPreparedModel = MockPreparedModel::create();
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
|
|
EXPECT_CALL(*mockPreparedModel, configureExecutionBurst(_, _, _, _))
|
|
.Times(1)
|
|
.WillOnce(
|
|
makeConfigureExecutionBurstReturn(V1_0::ErrorStatus::GENERAL_FAILURE, nullptr));
|
|
|
|
// run test
|
|
const auto result = preparedModel->configureExecutionBurst();
|
|
|
|
// verify result
|
|
ASSERT_FALSE(result.has_value());
|
|
EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
|
|
}
|
|
|
|
TEST(PreparedModelTest, configureExecutionBurstTransportFailure) {
|
|
// setup test
|
|
const auto mockPreparedModel = MockPreparedModel::create();
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
|
|
EXPECT_CALL(*mockPreparedModel, configureExecutionBurst(_, _, _, _))
|
|
.Times(1)
|
|
.WillOnce(InvokeWithoutArgs(makeGeneralTransportFailure));
|
|
|
|
// run test
|
|
const auto result = preparedModel->configureExecutionBurst();
|
|
|
|
// verify result
|
|
ASSERT_FALSE(result.has_value());
|
|
EXPECT_EQ(result.error().code, nn::ErrorStatus::GENERAL_FAILURE);
|
|
}
|
|
|
|
TEST(PreparedModelTest, configureExecutionBurstDeadObject) {
|
|
// setup test
|
|
const auto mockPreparedModel = MockPreparedModel::create();
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
|
|
EXPECT_CALL(*mockPreparedModel, configureExecutionBurst(_, _, _, _))
|
|
.Times(1)
|
|
.WillOnce(InvokeWithoutArgs(makeDeadObjectFailure));
|
|
|
|
// run test
|
|
const auto result = preparedModel->configureExecutionBurst();
|
|
|
|
// verify result
|
|
ASSERT_FALSE(result.has_value());
|
|
EXPECT_EQ(result.error().code, nn::ErrorStatus::DEAD_OBJECT);
|
|
}
|
|
|
|
TEST(PreparedModelTest, getUnderlyingResource) {
|
|
// setup test
|
|
const auto mockPreparedModel = createMockPreparedModel();
|
|
const auto preparedModel =
|
|
PreparedModel::create(mockPreparedModel, /*executeSynchronously=*/true).value();
|
|
|
|
// run test
|
|
const auto resource = preparedModel->getUnderlyingResource();
|
|
|
|
// verify resource
|
|
const sp<V1_2::IPreparedModel>* maybeMock = std::any_cast<sp<V1_2::IPreparedModel>>(&resource);
|
|
ASSERT_NE(maybeMock, nullptr);
|
|
EXPECT_EQ(maybeMock->get(), mockPreparedModel.get());
|
|
}
|
|
|
|
} // namespace android::hardware::neuralnetworks::V1_2::utils
|