test/DriverTestHelpers.cpp - ml/android-nn-driver - Gitiles

 //
 // Copyright © 2017 Arm Ltd and Contributors. All rights reserved.
 // SPDX-License-Identifier: MIT
 //

 #include "DriverTestHelpers.hpp"
 #include <log/log.h>

 namespace android
 {
 namespace hardware
 {
 namespace neuralnetworks
 {
 namespace V1_0
 {

 std::ostream& operator<<(std::ostream& os, V1_0::ErrorStatus stat)
 {
    return os << static_cast<int>(stat);
 }

 } // namespace android::hardware::neuralnetworks::V1_0
 } // namespace android::hardware::neuralnetworks
 } // namespace android::hardware
 } // namespace android

 namespace driverTestHelpers
 {

 using namespace android::hardware;
 using namespace armnn_driver;

 Return<void> ExecutionCallback::notify(V1_0::ErrorStatus status)
 {
     (void)status;
     ALOGI("ExecutionCallback::notify invoked");
     std::lock_guard<std::mutex> executionLock(mMutex);
     mNotified = true;
     mCondition.notify_one();
     return Void();
 }

 Return<void> ExecutionCallback::wait()
 {
     ALOGI("ExecutionCallback::wait invoked");
     std::unique_lock<std::mutex> executionLock(mMutex);
     while (!mNotified)
     {
         mCondition.wait(executionLock);
     }
     mNotified = false;
     return Void();
 }

 Return<void> PreparedModelCallback::notify(V1_0::ErrorStatus status,
                                            const android::sp<V1_0::IPreparedModel>& preparedModel)
 {
     m_ErrorStatus = status;
     m_PreparedModel = preparedModel;
     return Void();
 }

 #if defined(ARMNN_ANDROID_NN_V1_2) || defined(ARMNN_ANDROID_NN_V1_3)

 Return<void> PreparedModelCallback_1_2::notify(V1_0::ErrorStatus status,
                                                const android::sp<V1_0::IPreparedModel>& preparedModel)
 {
     m_ErrorStatus = status;
     m_PreparedModel = preparedModel;
     return Void();
 }

 Return<void> PreparedModelCallback_1_2::notify_1_2(V1_0::ErrorStatus status,
                                                    const android::sp<V1_2::IPreparedModel>& preparedModel)
 {
     m_ErrorStatus = status;
     m_PreparedModel_1_2 = preparedModel;
     return Void();
 }

 #endif

 #ifdef ARMNN_ANDROID_NN_V1_3

 Return<void> PreparedModelCallback_1_3::notify(V1_0::ErrorStatus status,
                                                const android::sp<V1_0::IPreparedModel>& preparedModel)
 {
     m_1_0_ErrorStatus = status;
     m_PreparedModel = preparedModel;
     return Void();
 }

 Return<void> PreparedModelCallback_1_3::notify_1_2(V1_0::ErrorStatus status,
                                                    const android::sp<V1_2::IPreparedModel>& preparedModel)
 {
     m_1_0_ErrorStatus = status;
     m_PreparedModel_1_2 = preparedModel;
     return Void();
 }

 Return<void> PreparedModelCallback_1_3::notify_1_3(V1_3::ErrorStatus status,
                                                    const android::sp<V1_3::IPreparedModel>& preparedModel)
 {
     m_1_3_ErrorStatus = status;
     m_PreparedModel_1_3 = preparedModel;
     return Void();
 }

 #endif

 // lifted from common/Utils.cpp
 hidl_memory allocateSharedMemory(int64_t size)
 {
     hidl_memory memory;

     const std::string& type      = "ashmem";
     android::sp<IAllocator>     allocator = IAllocator::getService(type);
     allocator->allocate(size, [&](bool success, const hidl_memory& mem) {
         if (!success)
         {
             ALOGE("unable to allocate %li bytes of %s", size, type.c_str());
         }
         else
         {
             memory = mem;
         }
     });

     return memory;
 }

 android::sp<V1_0::IPreparedModel> PrepareModelWithStatus(const V1_0::Model& model,
                                                          armnn_driver::ArmnnDriver& driver,
                                                          V1_0::ErrorStatus& prepareStatus,
                                                          V1_0::ErrorStatus expectedStatus)
 {
     android::sp<PreparedModelCallback> cb(new PreparedModelCallback());
     driver.prepareModel(model, cb);

     prepareStatus = cb->GetErrorStatus();
     DOCTEST_CHECK((int)prepareStatus == (int)expectedStatus);
     if (expectedStatus == V1_0::ErrorStatus::NONE)
     {
         DOCTEST_CHECK((cb->GetPreparedModel() != nullptr));
     }
     return cb->GetPreparedModel();
 }

 #if defined(ARMNN_ANDROID_NN_V1_1) || defined(ARMNN_ANDROID_NN_V1_2) || defined(ARMNN_ANDROID_NN_V1_3)

 android::sp<V1_0::IPreparedModel> PrepareModelWithStatus(const V1_1::Model& model,
                                                          armnn_driver::ArmnnDriver& driver,
                                                          V1_0::ErrorStatus& prepareStatus,
                                                          V1_0::ErrorStatus expectedStatus)
 {
     android::sp<PreparedModelCallback> cb(new PreparedModelCallback());
     driver.prepareModel_1_1(model, V1_1::ExecutionPreference::LOW_POWER, cb);

     prepareStatus = cb->GetErrorStatus();
     DOCTEST_CHECK((int)prepareStatus == (int)expectedStatus);
     if (expectedStatus == V1_0::ErrorStatus::NONE)
     {
         DOCTEST_CHECK((cb->GetPreparedModel() != nullptr));
     }
     return cb->GetPreparedModel();
 }

 #endif

 #if defined(ARMNN_ANDROID_NN_V1_2) || defined(ARMNN_ANDROID_NN_V1_3)

 android::sp<V1_2::IPreparedModel> PrepareModelWithStatus_1_2(const armnn_driver::hal_1_2::HalPolicy::Model& model,
                                                              armnn_driver::ArmnnDriver& driver,
                                                              V1_0::ErrorStatus& prepareStatus,
                                                              V1_0::ErrorStatus expectedStatus)
 {
     android::sp<PreparedModelCallback_1_2> cb(new PreparedModelCallback_1_2());

     android::hardware::hidl_vec<android::hardware::hidl_handle> emptyHandle1;
     android::hardware::hidl_vec<android::hardware::hidl_handle> emptyHandle2;
     armnn_driver::ArmnnDriver::HidlToken emptyToken;

     driver.prepareModel_1_2(model, V1_1::ExecutionPreference::LOW_POWER, emptyHandle1, emptyHandle2, emptyToken, cb);

     prepareStatus = cb->GetErrorStatus();
     DOCTEST_CHECK((int)prepareStatus == (int)expectedStatus);
     if (expectedStatus == V1_0::ErrorStatus::NONE)
     {
         DOCTEST_CHECK((cb->GetPreparedModel_1_2() != nullptr));
     }
     return cb->GetPreparedModel_1_2();
 }

 #endif

 #ifdef ARMNN_ANDROID_NN_V1_3

 android::sp<V1_3::IPreparedModel> PrepareModelWithStatus_1_3(const armnn_driver::hal_1_3::HalPolicy::Model& model,
                                                              armnn_driver::ArmnnDriver& driver,
                                                              V1_3::ErrorStatus& prepareStatus,
                                                              V1_3::Priority priority)
 {
     android::sp<PreparedModelCallback_1_3> cb(new PreparedModelCallback_1_3());

     android::hardware::hidl_vec<android::hardware::hidl_handle> emptyHandle1;
     android::hardware::hidl_vec<android::hardware::hidl_handle> emptyHandle2;
     armnn_driver::ArmnnDriver::HidlToken emptyToken;

     driver.prepareModel_1_3(model,
                             V1_1::ExecutionPreference::LOW_POWER,
                             priority,
                             {},
                             emptyHandle1,
                             emptyHandle2,
                             emptyToken,
                             cb);

     prepareStatus = cb->Get_1_3_ErrorStatus();
     if (prepareStatus == V1_3::ErrorStatus::NONE)
     {
         DOCTEST_CHECK((cb->GetPreparedModel_1_3() != nullptr));
     }
     return cb->GetPreparedModel_1_3();
 }

 #endif

 V1_0::ErrorStatus Execute(android::sp<V1_0::IPreparedModel> preparedModel,
                           const V1_0::Request& request,
                           V1_0::ErrorStatus expectedStatus)
 {
     DOCTEST_CHECK(preparedModel.get() != nullptr);
     android::sp<ExecutionCallback> cb(new ExecutionCallback());
     V1_0::ErrorStatus execStatus = preparedModel->execute(request, cb);
     DOCTEST_CHECK((int)execStatus == (int)expectedStatus);
     ALOGI("Execute: waiting for callback to be invoked");
     cb->wait();
     return execStatus;
 }

 android::sp<ExecutionCallback> ExecuteNoWait(android::sp<V1_0::IPreparedModel> preparedModel,
                                              const V1_0::Request& request)
 {
     DOCTEST_CHECK(preparedModel.get() != nullptr);
     android::sp<ExecutionCallback> cb(new ExecutionCallback());
     V1_0::ErrorStatus execStatus = preparedModel->execute(request, cb);
     DOCTEST_CHECK((int)execStatus == (int)V1_0::ErrorStatus::NONE);
     ALOGI("ExecuteNoWait: returning callback object");
     return cb;
 }

 template<>
 OperandType TypeToOperandType<float>()
 {
     return OperandType::TENSOR_FLOAT32;
 }

 template<>
 OperandType TypeToOperandType<int32_t>()
 {
     return OperandType::TENSOR_INT32;
 }

 } // namespace driverTestHelpers
	//
	// Copyright © 2017 Arm Ltd and Contributors. All rights reserved.
	// SPDX-License-Identifier: MIT
	//

	#include "DriverTestHelpers.hpp"
	#include <log/log.h>

	namespace android
	{
	namespace hardware
	{
	namespace neuralnetworks
	{
	namespace V1_0
	{

	std::ostream& operator<<(std::ostream& os, V1_0::ErrorStatus stat)
	{
	return os << static_cast<int>(stat);
	}

	} // namespace android::hardware::neuralnetworks::V1_0
	} // namespace android::hardware::neuralnetworks
	} // namespace android::hardware
	} // namespace android

	namespace driverTestHelpers
	{

	using namespace android::hardware;
	using namespace armnn_driver;

	Return<void> ExecutionCallback::notify(V1_0::ErrorStatus status)
	{
	(void)status;
	ALOGI("ExecutionCallback::notify invoked");
	std::lock_guard<std::mutex> executionLock(mMutex);
	mNotified = true;
	mCondition.notify_one();
	return Void();
	}

	Return<void> ExecutionCallback::wait()
	{
	ALOGI("ExecutionCallback::wait invoked");
	std::unique_lock<std::mutex> executionLock(mMutex);
	while (!mNotified)
	{
	mCondition.wait(executionLock);
	}
	mNotified = false;
	return Void();
	}

	Return<void> PreparedModelCallback::notify(V1_0::ErrorStatus status,
	const android::sp<V1_0::IPreparedModel>& preparedModel)
	{
	m_ErrorStatus = status;
	m_PreparedModel = preparedModel;
	return Void();
	}

	#if defined(ARMNN_ANDROID_NN_V1_2) \|\| defined(ARMNN_ANDROID_NN_V1_3)

	Return<void> PreparedModelCallback_1_2::notify(V1_0::ErrorStatus status,
	const android::sp<V1_0::IPreparedModel>& preparedModel)
	{
	m_ErrorStatus = status;
	m_PreparedModel = preparedModel;
	return Void();
	}

	Return<void> PreparedModelCallback_1_2::notify_1_2(V1_0::ErrorStatus status,
	const android::sp<V1_2::IPreparedModel>& preparedModel)
	{
	m_ErrorStatus = status;
	m_PreparedModel_1_2 = preparedModel;
	return Void();
	}

	#endif

	#ifdef ARMNN_ANDROID_NN_V1_3

	Return<void> PreparedModelCallback_1_3::notify(V1_0::ErrorStatus status,
	const android::sp<V1_0::IPreparedModel>& preparedModel)
	{
	m_1_0_ErrorStatus = status;
	m_PreparedModel = preparedModel;
	return Void();
	}

	Return<void> PreparedModelCallback_1_3::notify_1_2(V1_0::ErrorStatus status,
	const android::sp<V1_2::IPreparedModel>& preparedModel)
	{
	m_1_0_ErrorStatus = status;
	m_PreparedModel_1_2 = preparedModel;
	return Void();
	}

	Return<void> PreparedModelCallback_1_3::notify_1_3(V1_3::ErrorStatus status,
	const android::sp<V1_3::IPreparedModel>& preparedModel)
	{
	m_1_3_ErrorStatus = status;
	m_PreparedModel_1_3 = preparedModel;
	return Void();
	}

	#endif

	// lifted from common/Utils.cpp
	hidl_memory allocateSharedMemory(int64_t size)
	{
	hidl_memory memory;

	const std::string& type = "ashmem";
	android::sp<IAllocator> allocator = IAllocator::getService(type);
	allocator->allocate(size, [&](bool success, const hidl_memory& mem) {
	if (!success)
	{
	ALOGE("unable to allocate %li bytes of %s", size, type.c_str());
	}
	else
	{
	memory = mem;
	}
	});

	return memory;
	}

	android::sp<V1_0::IPreparedModel> PrepareModelWithStatus(const V1_0::Model& model,
	armnn_driver::ArmnnDriver& driver,
	V1_0::ErrorStatus& prepareStatus,
	V1_0::ErrorStatus expectedStatus)
	{
	android::sp<PreparedModelCallback> cb(new PreparedModelCallback());
	driver.prepareModel(model, cb);

	prepareStatus = cb->GetErrorStatus();
	DOCTEST_CHECK((int)prepareStatus == (int)expectedStatus);
	if (expectedStatus == V1_0::ErrorStatus::NONE)
	{
	DOCTEST_CHECK((cb->GetPreparedModel() != nullptr));
	}
	return cb->GetPreparedModel();
	}

	#if defined(ARMNN_ANDROID_NN_V1_1) \|\| defined(ARMNN_ANDROID_NN_V1_2) \|\| defined(ARMNN_ANDROID_NN_V1_3)

	android::sp<V1_0::IPreparedModel> PrepareModelWithStatus(const V1_1::Model& model,
	armnn_driver::ArmnnDriver& driver,
	V1_0::ErrorStatus& prepareStatus,
	V1_0::ErrorStatus expectedStatus)
	{
	android::sp<PreparedModelCallback> cb(new PreparedModelCallback());
	driver.prepareModel_1_1(model, V1_1::ExecutionPreference::LOW_POWER, cb);

	prepareStatus = cb->GetErrorStatus();
	DOCTEST_CHECK((int)prepareStatus == (int)expectedStatus);
	if (expectedStatus == V1_0::ErrorStatus::NONE)
	{
	DOCTEST_CHECK((cb->GetPreparedModel() != nullptr));
	}
	return cb->GetPreparedModel();
	}

	#endif

	#if defined(ARMNN_ANDROID_NN_V1_2) \|\| defined(ARMNN_ANDROID_NN_V1_3)

	android::sp<V1_2::IPreparedModel> PrepareModelWithStatus_1_2(const armnn_driver::hal_1_2::HalPolicy::Model& model,
	armnn_driver::ArmnnDriver& driver,
	V1_0::ErrorStatus& prepareStatus,
	V1_0::ErrorStatus expectedStatus)
	{
	android::sp<PreparedModelCallback_1_2> cb(new PreparedModelCallback_1_2());

	android::hardware::hidl_vec<android::hardware::hidl_handle> emptyHandle1;
	android::hardware::hidl_vec<android::hardware::hidl_handle> emptyHandle2;
	armnn_driver::ArmnnDriver::HidlToken emptyToken;

	driver.prepareModel_1_2(model, V1_1::ExecutionPreference::LOW_POWER, emptyHandle1, emptyHandle2, emptyToken, cb);

	prepareStatus = cb->GetErrorStatus();
	DOCTEST_CHECK((int)prepareStatus == (int)expectedStatus);
	if (expectedStatus == V1_0::ErrorStatus::NONE)
	{
	DOCTEST_CHECK((cb->GetPreparedModel_1_2() != nullptr));
	}
	return cb->GetPreparedModel_1_2();
	}

	#endif

	#ifdef ARMNN_ANDROID_NN_V1_3

	android::sp<V1_3::IPreparedModel> PrepareModelWithStatus_1_3(const armnn_driver::hal_1_3::HalPolicy::Model& model,
	armnn_driver::ArmnnDriver& driver,
	V1_3::ErrorStatus& prepareStatus,
	V1_3::Priority priority)
	{
	android::sp<PreparedModelCallback_1_3> cb(new PreparedModelCallback_1_3());

	android::hardware::hidl_vec<android::hardware::hidl_handle> emptyHandle1;
	android::hardware::hidl_vec<android::hardware::hidl_handle> emptyHandle2;
	armnn_driver::ArmnnDriver::HidlToken emptyToken;

	driver.prepareModel_1_3(model,
	V1_1::ExecutionPreference::LOW_POWER,
	priority,
	{},
	emptyHandle1,
	emptyHandle2,
	emptyToken,
	cb);

	prepareStatus = cb->Get_1_3_ErrorStatus();
	if (prepareStatus == V1_3::ErrorStatus::NONE)
	{
	DOCTEST_CHECK((cb->GetPreparedModel_1_3() != nullptr));
	}
	return cb->GetPreparedModel_1_3();
	}

	#endif

	V1_0::ErrorStatus Execute(android::sp<V1_0::IPreparedModel> preparedModel,
	const V1_0::Request& request,
	V1_0::ErrorStatus expectedStatus)
	{
	DOCTEST_CHECK(preparedModel.get() != nullptr);
	android::sp<ExecutionCallback> cb(new ExecutionCallback());
	V1_0::ErrorStatus execStatus = preparedModel->execute(request, cb);
	DOCTEST_CHECK((int)execStatus == (int)expectedStatus);
	ALOGI("Execute: waiting for callback to be invoked");
	cb->wait();
	return execStatus;
	}

	android::sp<ExecutionCallback> ExecuteNoWait(android::sp<V1_0::IPreparedModel> preparedModel,
	const V1_0::Request& request)
	{
	DOCTEST_CHECK(preparedModel.get() != nullptr);
	android::sp<ExecutionCallback> cb(new ExecutionCallback());
	V1_0::ErrorStatus execStatus = preparedModel->execute(request, cb);
	DOCTEST_CHECK((int)execStatus == (int)V1_0::ErrorStatus::NONE);
	ALOGI("ExecuteNoWait: returning callback object");
	return cb;
	}

	template<>
	OperandType TypeToOperandType<float>()
	{
	return OperandType::TENSOR_FLOAT32;
	}

	template<>
	OperandType TypeToOperandType<int32_t>()
	{
	return OperandType::TENSOR_INT32;
	}

	} // namespace driverTestHelpers