mirror of
https://github.com/Evolution-X/hardware_interfaces
synced 2026-02-02 20:24:19 +00:00
0e671f3edb
The following AIDL types are added: - TokenValuePair - PrepareModelConfig - ExecutionConfig The following AIDL methods are added: - IDevice::prepareModelWithConfig - IPreparedModel::executeSynchronouslyWithConfig - IPreparedModel::executeFencedWithConfig - IBurst::executeSynchronouslyWithConfig The compilation and execution hints are being stored as a list of token-value pairs as part of the PrepareModelConfig / ExecutionConfig. And the PrepareModelConfig / ExecutionConfig parcelables are created in order to make future extensions to the execution related interfaces easier. It is the drivers responsibility to verify the hints, and it is allowed for the driver to ignore them. Bug: 203248587 Test: neuralnetworks_utils_hal_aidl_test Change-Id: I98240fd75089fc85cdfcaa0be28aab8a6f0dfca5
667 lines
27 KiB
C++
667 lines
27 KiB
C++
/*
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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(_, _, _))
|
|
.Times(1)
|
|
.WillOnce(Invoke(makeExecuteAsynchronously(V1_0::ErrorStatus::GENERAL_FAILURE,
|
|
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, 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
|