neuralnetworks/1.3/utils/src/Device.cpp - android_hardware_interfaces - Gitiles

 /*
  * Copyright (C) 2020 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "Device.h"

 #include "Buffer.h"
 #include "Callbacks.h"
 #include "Conversions.h"
 #include "PreparedModel.h"
 #include "Utils.h"

 #include <android/hardware/neuralnetworks/1.0/types.h>
 #include <android/hardware/neuralnetworks/1.1/types.h>
 #include <android/hardware/neuralnetworks/1.2/types.h>
 #include <android/hardware/neuralnetworks/1.3/IDevice.h>
 #include <android/hardware/neuralnetworks/1.3/types.h>
 #include <nnapi/IBuffer.h>
 #include <nnapi/IDevice.h>
 #include <nnapi/IPreparedModel.h>
 #include <nnapi/OperandTypes.h>
 #include <nnapi/Result.h>
 #include <nnapi/Types.h>
 #include <nnapi/hal/1.1/Conversions.h>
 #include <nnapi/hal/1.2/Conversions.h>
 #include <nnapi/hal/1.2/Device.h>
 #include <nnapi/hal/CommonUtils.h>
 #include <nnapi/hal/HandleError.h>
 #include <nnapi/hal/ProtectCallback.h>

 #include <any>
 #include <functional>
 #include <memory>
 #include <optional>
 #include <string>
 #include <vector>

 namespace android::hardware::neuralnetworks::V1_3::utils {
 namespace {

 nn::GeneralResult<hidl_vec<sp<IPreparedModel>>> convert(
         const std::vector<nn::SharedPreparedModel>& preparedModels) {
     hidl_vec<sp<IPreparedModel>> hidlPreparedModels(preparedModels.size());
     for (size_t i = 0; i < preparedModels.size(); ++i) {
         std::any underlyingResource = preparedModels[i]->getUnderlyingResource();
         if (const auto* hidlPreparedModel =
                     std::any_cast<sp<IPreparedModel>>(&underlyingResource)) {
             hidlPreparedModels[i] = *hidlPreparedModel;
         } else {
             return NN_ERROR(nn::ErrorStatus::INVALID_ARGUMENT)
                    << "Unable to convert from nn::IPreparedModel to V1_3::IPreparedModel";
         }
     }
     return hidlPreparedModels;
 }

 nn::GeneralResult<nn::SharedBuffer> convert(
         nn::GeneralResult<std::shared_ptr<const Buffer>> result) {
     return NN_TRY(std::move(result));
 }

 }  // namespace

 nn::GeneralResult<std::shared_ptr<const Device>> Device::create(std::string name,
                                                                 sp<V1_3::IDevice> device) {
     if (name.empty()) {
         return NN_ERROR(nn::ErrorStatus::INVALID_ARGUMENT)
                << "V1_3::utils::Device::create must have non-empty name";
     }
     if (device == nullptr) {
         return NN_ERROR(nn::ErrorStatus::INVALID_ARGUMENT)
                << "V1_3::utils::Device::create must have non-null device";
     }

     auto versionString = NN_TRY(V1_2::utils::initVersionString(device.get()));
     const auto deviceType = NN_TRY(V1_2::utils::initDeviceType(device.get()));
     auto extensions = NN_TRY(V1_2::utils::initExtensions(device.get()));
     auto capabilities = NN_TRY(V1_2::utils::initCapabilities(device.get()));
     const auto numberOfCacheFilesNeeded =
             NN_TRY(V1_2::utils::initNumberOfCacheFilesNeeded(device.get()));

     auto deathHandler = NN_TRY(hal::utils::DeathHandler::create(device));
     return std::make_shared<const Device>(
             PrivateConstructorTag{}, std::move(name), std::move(versionString), deviceType,
             std::move(extensions), std::move(capabilities), numberOfCacheFilesNeeded,
             std::move(device), std::move(deathHandler));
 }

 Device::Device(PrivateConstructorTag /*tag*/, std::string name, std::string versionString,
                nn::DeviceType deviceType, std::vector<nn::Extension> extensions,
                nn::Capabilities capabilities,
                std::pair<uint32_t, uint32_t> numberOfCacheFilesNeeded, sp<V1_3::IDevice> device,
                hal::utils::DeathHandler deathHandler)
     : kName(std::move(name)),
       kVersionString(std::move(versionString)),
       kDeviceType(deviceType),
       kExtensions(std::move(extensions)),
       kCapabilities(std::move(capabilities)),
       kNumberOfCacheFilesNeeded(numberOfCacheFilesNeeded),
       kDevice(std::move(device)),
       kDeathHandler(std::move(deathHandler)) {}

 const std::string& Device::getName() const {
     return kName;
 }

 const std::string& Device::getVersionString() const {
     return kVersionString;
 }

 nn::Version Device::getFeatureLevel() const {
     return nn::Version::ANDROID_R;
 }

 nn::DeviceType Device::getType() const {
     return kDeviceType;
 }

 const std::vector<nn::Extension>& Device::getSupportedExtensions() const {
     return kExtensions;
 }

 const nn::Capabilities& Device::getCapabilities() const {
     return kCapabilities;
 }

 std::pair<uint32_t, uint32_t> Device::getNumberOfCacheFilesNeeded() const {
     return kNumberOfCacheFilesNeeded;
 }

 nn::GeneralResult<void> Device::wait() const {
     const auto ret = kDevice->ping();
     return hal::utils::handleTransportError(ret);
 }

 nn::GeneralResult<std::vector<bool>> Device::getSupportedOperations(const nn::Model& model) const {
     // Ensure that model is ready for IPC.
     std::optional<nn::Model> maybeModelInShared;
     const nn::Model& modelInShared =
             NN_TRY(hal::utils::flushDataFromPointerToShared(&model, &maybeModelInShared));

     const auto hidlModel = NN_TRY(convert(modelInShared));

     nn::GeneralResult<std::vector<bool>> result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE)
                                                   << "uninitialized";
     auto cb = [&result, &model](ErrorStatus status, const hidl_vec<bool>& supportedOperations) {
         if (status != ErrorStatus::NONE) {
             const auto canonical =
                     validatedConvertToCanonical(status).value_or(nn::ErrorStatus::GENERAL_FAILURE);
             result = NN_ERROR(canonical)
                      << "IDevice::getSupportedOperations_1_3 failed with " << toString(status);
         } else if (supportedOperations.size() != model.main.operations.size()) {
             result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE)
                      << "IDevice::getSupportedOperations_1_3 returned vector of size "
                      << supportedOperations.size() << " but expected "
                      << model.main.operations.size();
         } else {
             result = supportedOperations;
         }
     };

     const auto ret = kDevice->getSupportedOperations_1_3(hidlModel, cb);
     NN_TRY(hal::utils::handleTransportError(ret));

     return result;
 }

 nn::GeneralResult<nn::SharedPreparedModel> Device::prepareModel(
         const nn::Model& model, nn::ExecutionPreference preference, nn::Priority priority,
         nn::OptionalTimePoint deadline, const std::vector<nn::NativeHandle>& modelCache,
         const std::vector<nn::NativeHandle>& dataCache, const nn::CacheToken& token) const {
     // Ensure that model is ready for IPC.
     std::optional<nn::Model> maybeModelInShared;
     const nn::Model& modelInShared =
             NN_TRY(hal::utils::flushDataFromPointerToShared(&model, &maybeModelInShared));

     const auto hidlModel = NN_TRY(convert(modelInShared));
     const auto hidlPreference = NN_TRY(V1_1::utils::convert(preference));
     const auto hidlPriority = NN_TRY(convert(priority));
     const auto hidlDeadline = NN_TRY(convert(deadline));
     const auto hidlModelCache = NN_TRY(V1_2::utils::convert(modelCache));
     const auto hidlDataCache = NN_TRY(V1_2::utils::convert(dataCache));
     const auto hidlToken = token;

     const auto cb = sp<PreparedModelCallback>::make();
     const auto scoped = kDeathHandler.protectCallback(cb.get());

     const auto ret =
             kDevice->prepareModel_1_3(hidlModel, hidlPreference, hidlPriority, hidlDeadline,
                                       hidlModelCache, hidlDataCache, hidlToken, cb);
     const auto status = NN_TRY(hal::utils::handleTransportError(ret));
     if (status != ErrorStatus::NONE) {
         const auto canonical =
                 validatedConvertToCanonical(status).value_or(nn::ErrorStatus::GENERAL_FAILURE);
         return NN_ERROR(canonical) << "prepareModel_1_3 failed with " << toString(status);
     }

     return cb->get();
 }

 nn::GeneralResult<nn::SharedPreparedModel> Device::prepareModelFromCache(
         nn::OptionalTimePoint deadline, const std::vector<nn::NativeHandle>& modelCache,
         const std::vector<nn::NativeHandle>& dataCache, const nn::CacheToken& token) const {
     const auto hidlDeadline = NN_TRY(convert(deadline));
     const auto hidlModelCache = NN_TRY(V1_2::utils::convert(modelCache));
     const auto hidlDataCache = NN_TRY(V1_2::utils::convert(dataCache));
     const auto hidlToken = token;

     const auto cb = sp<PreparedModelCallback>::make();
     const auto scoped = kDeathHandler.protectCallback(cb.get());

     const auto ret = kDevice->prepareModelFromCache_1_3(hidlDeadline, hidlModelCache, hidlDataCache,
                                                         hidlToken, cb);
     const auto status = NN_TRY(hal::utils::handleTransportError(ret));
     if (status != ErrorStatus::NONE) {
         const auto canonical =
                 validatedConvertToCanonical(status).value_or(nn::ErrorStatus::GENERAL_FAILURE);
         return NN_ERROR(canonical) << "prepareModelFromCache_1_3 failed with " << toString(status);
     }

     return cb->get();
 }

 nn::GeneralResult<nn::SharedBuffer> Device::allocate(
         const nn::BufferDesc& desc, const std::vector<nn::SharedPreparedModel>& preparedModels,
         const std::vector<nn::BufferRole>& inputRoles,
         const std::vector<nn::BufferRole>& outputRoles) const {
     const auto hidlDesc = NN_TRY(convert(desc));
     const auto hidlPreparedModels = NN_TRY(convert(preparedModels));
     const auto hidlInputRoles = NN_TRY(convert(inputRoles));
     const auto hidlOutputRoles = NN_TRY(convert(outputRoles));

     nn::GeneralResult<nn::SharedBuffer> result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE)
                                                  << "uninitialized";
     auto cb = [&result](ErrorStatus status, const sp<IBuffer>& buffer, uint32_t token) {
         if (status != ErrorStatus::NONE) {
             const auto canonical =
                     validatedConvertToCanonical(status).value_or(nn::ErrorStatus::GENERAL_FAILURE);
             result = NN_ERROR(canonical) << "IDevice::allocate failed with " << toString(status);
         } else if (buffer == nullptr) {
             result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE) << "Returned buffer is nullptr";
         } else if (token == 0) {
             result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE) << "Returned token is invalid (0)";
         } else {
             result = convert(
                     Buffer::create(buffer, static_cast<nn::Request::MemoryDomainToken>(token)));
         }
     };

     const auto ret =
             kDevice->allocate(hidlDesc, hidlPreparedModels, hidlInputRoles, hidlOutputRoles, cb);
     NN_TRY(hal::utils::handleTransportError(ret));

     return result;
 }

 }  // namespace android::hardware::neuralnetworks::V1_3::utils
	/*
	* Copyright (C) 2020 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "Device.h"

	#include "Buffer.h"
	#include "Callbacks.h"
	#include "Conversions.h"
	#include "PreparedModel.h"
	#include "Utils.h"

	#include <android/hardware/neuralnetworks/1.0/types.h>
	#include <android/hardware/neuralnetworks/1.1/types.h>
	#include <android/hardware/neuralnetworks/1.2/types.h>
	#include <android/hardware/neuralnetworks/1.3/IDevice.h>
	#include <android/hardware/neuralnetworks/1.3/types.h>
	#include <nnapi/IBuffer.h>
	#include <nnapi/IDevice.h>
	#include <nnapi/IPreparedModel.h>
	#include <nnapi/OperandTypes.h>
	#include <nnapi/Result.h>
	#include <nnapi/Types.h>
	#include <nnapi/hal/1.1/Conversions.h>
	#include <nnapi/hal/1.2/Conversions.h>
	#include <nnapi/hal/1.2/Device.h>
	#include <nnapi/hal/CommonUtils.h>
	#include <nnapi/hal/HandleError.h>
	#include <nnapi/hal/ProtectCallback.h>

	#include <any>
	#include <functional>
	#include <memory>
	#include <optional>
	#include <string>
	#include <vector>

	namespace android::hardware::neuralnetworks::V1_3::utils {
	namespace {

	nn::GeneralResult<hidl_vec<sp<IPreparedModel>>> convert(
	const std::vector<nn::SharedPreparedModel>& preparedModels) {
	hidl_vec<sp<IPreparedModel>> hidlPreparedModels(preparedModels.size());
	for (size_t i = 0; i < preparedModels.size(); ++i) {
	std::any underlyingResource = preparedModels[i]->getUnderlyingResource();
	if (const auto* hidlPreparedModel =
	std::any_cast<sp<IPreparedModel>>(&underlyingResource)) {
	hidlPreparedModels[i] = *hidlPreparedModel;
	} else {
	return NN_ERROR(nn::ErrorStatus::INVALID_ARGUMENT)
	<< "Unable to convert from nn::IPreparedModel to V1_3::IPreparedModel";
	}
	}
	return hidlPreparedModels;
	}

	nn::GeneralResult<nn::SharedBuffer> convert(
	nn::GeneralResult<std::shared_ptr<const Buffer>> result) {
	return NN_TRY(std::move(result));
	}

	} // namespace

	nn::GeneralResult<std::shared_ptr<const Device>> Device::create(std::string name,
	sp<V1_3::IDevice> device) {
	if (name.empty()) {
	return NN_ERROR(nn::ErrorStatus::INVALID_ARGUMENT)
	<< "V1_3::utils::Device::create must have non-empty name";
	}
	if (device == nullptr) {
	return NN_ERROR(nn::ErrorStatus::INVALID_ARGUMENT)
	<< "V1_3::utils::Device::create must have non-null device";
	}

	auto versionString = NN_TRY(V1_2::utils::initVersionString(device.get()));
	const auto deviceType = NN_TRY(V1_2::utils::initDeviceType(device.get()));
	auto extensions = NN_TRY(V1_2::utils::initExtensions(device.get()));
	auto capabilities = NN_TRY(V1_2::utils::initCapabilities(device.get()));
	const auto numberOfCacheFilesNeeded =
	NN_TRY(V1_2::utils::initNumberOfCacheFilesNeeded(device.get()));

	auto deathHandler = NN_TRY(hal::utils::DeathHandler::create(device));
	return std::make_shared<const Device>(
	PrivateConstructorTag{}, std::move(name), std::move(versionString), deviceType,
	std::move(extensions), std::move(capabilities), numberOfCacheFilesNeeded,
	std::move(device), std::move(deathHandler));
	}

	Device::Device(PrivateConstructorTag /tag/, std::string name, std::string versionString,
	nn::DeviceType deviceType, std::vector<nn::Extension> extensions,
	nn::Capabilities capabilities,
	std::pair<uint32_t, uint32_t> numberOfCacheFilesNeeded, sp<V1_3::IDevice> device,
	hal::utils::DeathHandler deathHandler)
	: kName(std::move(name)),
	kVersionString(std::move(versionString)),
	kDeviceType(deviceType),
	kExtensions(std::move(extensions)),
	kCapabilities(std::move(capabilities)),
	kNumberOfCacheFilesNeeded(numberOfCacheFilesNeeded),
	kDevice(std::move(device)),
	kDeathHandler(std::move(deathHandler)) {}

	const std::string& Device::getName() const {
	return kName;
	}

	const std::string& Device::getVersionString() const {
	return kVersionString;
	}

	nn::Version Device::getFeatureLevel() const {
	return nn::Version::ANDROID_R;
	}

	nn::DeviceType Device::getType() const {
	return kDeviceType;
	}

	const std::vector<nn::Extension>& Device::getSupportedExtensions() const {
	return kExtensions;
	}

	const nn::Capabilities& Device::getCapabilities() const {
	return kCapabilities;
	}

	std::pair<uint32_t, uint32_t> Device::getNumberOfCacheFilesNeeded() const {
	return kNumberOfCacheFilesNeeded;
	}

	nn::GeneralResult<void> Device::wait() const {
	const auto ret = kDevice->ping();
	return hal::utils::handleTransportError(ret);
	}

	nn::GeneralResult<std::vector<bool>> Device::getSupportedOperations(const nn::Model& model) const {
	// Ensure that model is ready for IPC.
	std::optional<nn::Model> maybeModelInShared;
	const nn::Model& modelInShared =
	NN_TRY(hal::utils::flushDataFromPointerToShared(&model, &maybeModelInShared));

	const auto hidlModel = NN_TRY(convert(modelInShared));

	nn::GeneralResult<std::vector<bool>> result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE)
	<< "uninitialized";
	auto cb = [&result, &model](ErrorStatus status, const hidl_vec<bool>& supportedOperations) {
	if (status != ErrorStatus::NONE) {
	const auto canonical =
	validatedConvertToCanonical(status).value_or(nn::ErrorStatus::GENERAL_FAILURE);
	result = NN_ERROR(canonical)
	<< "IDevice::getSupportedOperations_1_3 failed with " << toString(status);
	} else if (supportedOperations.size() != model.main.operations.size()) {
	result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE)
	<< "IDevice::getSupportedOperations_1_3 returned vector of size "
	<< supportedOperations.size() << " but expected "
	<< model.main.operations.size();
	} else {
	result = supportedOperations;
	}
	};

	const auto ret = kDevice->getSupportedOperations_1_3(hidlModel, cb);
	NN_TRY(hal::utils::handleTransportError(ret));

	return result;
	}

	nn::GeneralResult<nn::SharedPreparedModel> Device::prepareModel(
	const nn::Model& model, nn::ExecutionPreference preference, nn::Priority priority,
	nn::OptionalTimePoint deadline, const std::vector<nn::NativeHandle>& modelCache,
	const std::vector<nn::NativeHandle>& dataCache, const nn::CacheToken& token) const {
	// Ensure that model is ready for IPC.
	std::optional<nn::Model> maybeModelInShared;
	const nn::Model& modelInShared =
	NN_TRY(hal::utils::flushDataFromPointerToShared(&model, &maybeModelInShared));

	const auto hidlModel = NN_TRY(convert(modelInShared));
	const auto hidlPreference = NN_TRY(V1_1::utils::convert(preference));
	const auto hidlPriority = NN_TRY(convert(priority));
	const auto hidlDeadline = NN_TRY(convert(deadline));
	const auto hidlModelCache = NN_TRY(V1_2::utils::convert(modelCache));
	const auto hidlDataCache = NN_TRY(V1_2::utils::convert(dataCache));
	const auto hidlToken = token;

	const auto cb = sp<PreparedModelCallback>::make();
	const auto scoped = kDeathHandler.protectCallback(cb.get());

	const auto ret =
	kDevice->prepareModel_1_3(hidlModel, hidlPreference, hidlPriority, hidlDeadline,
	hidlModelCache, hidlDataCache, hidlToken, cb);
	const auto status = NN_TRY(hal::utils::handleTransportError(ret));
	if (status != ErrorStatus::NONE) {
	const auto canonical =
	validatedConvertToCanonical(status).value_or(nn::ErrorStatus::GENERAL_FAILURE);
	return NN_ERROR(canonical) << "prepareModel_1_3 failed with " << toString(status);
	}

	return cb->get();
	}

	nn::GeneralResult<nn::SharedPreparedModel> Device::prepareModelFromCache(
	nn::OptionalTimePoint deadline, const std::vector<nn::NativeHandle>& modelCache,
	const std::vector<nn::NativeHandle>& dataCache, const nn::CacheToken& token) const {
	const auto hidlDeadline = NN_TRY(convert(deadline));
	const auto hidlModelCache = NN_TRY(V1_2::utils::convert(modelCache));
	const auto hidlDataCache = NN_TRY(V1_2::utils::convert(dataCache));
	const auto hidlToken = token;

	const auto cb = sp<PreparedModelCallback>::make();
	const auto scoped = kDeathHandler.protectCallback(cb.get());

	const auto ret = kDevice->prepareModelFromCache_1_3(hidlDeadline, hidlModelCache, hidlDataCache,
	hidlToken, cb);
	const auto status = NN_TRY(hal::utils::handleTransportError(ret));
	if (status != ErrorStatus::NONE) {
	const auto canonical =
	validatedConvertToCanonical(status).value_or(nn::ErrorStatus::GENERAL_FAILURE);
	return NN_ERROR(canonical) << "prepareModelFromCache_1_3 failed with " << toString(status);
	}

	return cb->get();
	}

	nn::GeneralResult<nn::SharedBuffer> Device::allocate(
	const nn::BufferDesc& desc, const std::vector<nn::SharedPreparedModel>& preparedModels,
	const std::vector<nn::BufferRole>& inputRoles,
	const std::vector<nn::BufferRole>& outputRoles) const {
	const auto hidlDesc = NN_TRY(convert(desc));
	const auto hidlPreparedModels = NN_TRY(convert(preparedModels));
	const auto hidlInputRoles = NN_TRY(convert(inputRoles));
	const auto hidlOutputRoles = NN_TRY(convert(outputRoles));

	nn::GeneralResult<nn::SharedBuffer> result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE)
	<< "uninitialized";
	auto cb = [&result](ErrorStatus status, const sp<IBuffer>& buffer, uint32_t token) {
	if (status != ErrorStatus::NONE) {
	const auto canonical =
	validatedConvertToCanonical(status).value_or(nn::ErrorStatus::GENERAL_FAILURE);
	result = NN_ERROR(canonical) << "IDevice::allocate failed with " << toString(status);
	} else if (buffer == nullptr) {
	result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE) << "Returned buffer is nullptr";
	} else if (token == 0) {
	result = NN_ERROR(nn::ErrorStatus::GENERAL_FAILURE) << "Returned token is invalid (0)";
	} else {
	result = convert(
	Buffer::create(buffer, static_cast<nn::Request::MemoryDomainToken>(token)));
	}
	};

	const auto ret =
	kDevice->allocate(hidlDesc, hidlPreparedModels, hidlInputRoles, hidlOutputRoles, cb);
	NN_TRY(hal::utils::handleTransportError(ret));

	return result;
	}

	} // namespace android::hardware::neuralnetworks::V1_3::utils