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//
// Copyright © 2020 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#pragma once
#include <HalInterfaces.h>
#include "../ArmnnDevice.hpp"
#include "ArmnnDriverImpl.hpp"
#include "HalPolicy.hpp"
#include "../ArmnnDriverImpl.hpp"
#include "../1.3/ArmnnDriverImpl.hpp"
#include "../1.3/HalPolicy.hpp"
#include "../1.2/ArmnnDriverImpl.hpp"
#include "../1.2/HalPolicy.hpp"
#include "../1.1/ArmnnDriverImpl.hpp"
#include "../1.1/HalPolicy.hpp"
#include "../1.0/ArmnnDriverImpl.hpp"
#include "../1.0/HalPolicy.hpp"
#include <log/log.h>
namespace armnn_driver
{
namespace hal_1_3
{
class ArmnnDriver : public ArmnnDevice, public V1_3::IDevice
{
public:
ArmnnDriver(DriverOptions options)
: ArmnnDevice(std::move(options))
{
ALOGV("hal_1_3::ArmnnDriver::ArmnnDriver()");
}
~ArmnnDriver() {}
using HidlToken = android::hardware::hidl_array<uint8_t, ANEURALNETWORKS_BYTE_SIZE_OF_CACHE_TOKEN>;
public:
Return<void> getCapabilities(V1_0::IDevice::getCapabilities_cb cb) override
{
ALOGV("hal_1_3::ArmnnDriver::getCapabilities()");
return hal_1_0::ArmnnDriverImpl::getCapabilities(m_Runtime, cb);
}
Return<void> getSupportedOperations(const V1_0::Model& model,
V1_0::IDevice::getSupportedOperations_cb cb) override
{
ALOGV("hal_1_3::ArmnnDriver::getSupportedOperations()");
return armnn_driver::ArmnnDriverImpl<hal_1_0::HalPolicy>::getSupportedOperations(m_Runtime,
m_Options,
model,
cb);
}
Return<V1_0::ErrorStatus> prepareModel(const V1_0::Model& model,
const android::sp<V1_0::IPreparedModelCallback>& cb) override
{
ALOGV("hal_1_3::ArmnnDriver::prepareModel()");
return armnn_driver::ArmnnDriverImpl<hal_1_0::HalPolicy>::prepareModel(m_Runtime,
m_ClTunedParameters,
m_Options,
model,
cb);
}
Return<void> getCapabilities_1_1(V1_1::IDevice::getCapabilities_1_1_cb cb) override
{
ALOGV("hal_1_3::ArmnnDriver::getCapabilities_1_1()");
return hal_1_1::ArmnnDriverImpl::getCapabilities_1_1(m_Runtime, cb);
}
Return<void> getSupportedOperations_1_1(const V1_1::Model& model,
V1_1::IDevice::getSupportedOperations_1_1_cb cb) override
{
ALOGV("hal_1_3::ArmnnDriver::getSupportedOperations_1_1()");
return armnn_driver::ArmnnDriverImpl<hal_1_1::HalPolicy>::getSupportedOperations(m_Runtime,
m_Options,
model,
cb);
}
Return<V1_0::ErrorStatus> prepareModel_1_1(const V1_1::Model& model,
V1_1::ExecutionPreference preference,
const android::sp<V1_0::IPreparedModelCallback>& cb) override
{
ALOGV("hal_1_3::ArmnnDriver::prepareModel_1_1()");
if (!(preference == ExecutionPreference::LOW_POWER ||
preference == ExecutionPreference::FAST_SINGLE_ANSWER ||
preference == ExecutionPreference::SUSTAINED_SPEED))
{
ALOGV("hal_1_3::ArmnnDriver::prepareModel_1_1: Invalid execution preference");
cb->notify(V1_0::ErrorStatus::INVALID_ARGUMENT, nullptr);
return V1_0::ErrorStatus::INVALID_ARGUMENT;
}
return armnn_driver::ArmnnDriverImpl<hal_1_1::HalPolicy>::prepareModel(m_Runtime,
m_ClTunedParameters,
m_Options,
model,
cb,
model.relaxComputationFloat32toFloat16
&& m_Options.GetFp16Enabled());
}
Return<void> getCapabilities_1_2(getCapabilities_1_2_cb cb)
{
ALOGV("hal_1_3::ArmnnDriver::getCapabilities()");
return hal_1_2::ArmnnDriverImpl::getCapabilities_1_2(m_Runtime, cb);
}
Return<void> getSupportedOperations_1_2(const V1_2::Model& model,
getSupportedOperations_1_2_cb cb)
{
ALOGV("hal_1_3::ArmnnDriver::getSupportedOperations()");
return armnn_driver::ArmnnDriverImpl<hal_1_2::HalPolicy>::getSupportedOperations(m_Runtime,
m_Options,
model,
cb);
}
Return<V1_0::ErrorStatus> prepareModel_1_2(const V1_2::Model& model, V1_1::ExecutionPreference preference,
const android::hardware::hidl_vec<android::hardware::hidl_handle>&,
const android::hardware::hidl_vec<android::hardware::hidl_handle>&, const HidlToken&,
const android::sp<V1_2::IPreparedModelCallback>& cb)
{
ALOGV("hal_1_3::ArmnnDriver::prepareModel_1_2()");
if (!(preference == ExecutionPreference::LOW_POWER ||
preference == ExecutionPreference::FAST_SINGLE_ANSWER ||
preference == ExecutionPreference::SUSTAINED_SPEED))
{
ALOGV("hal_1_3::ArmnnDriver::prepareModel_1_2: Invalid execution preference");
cb->notify(V1_0::ErrorStatus::INVALID_ARGUMENT, nullptr);
return V1_0::ErrorStatus::INVALID_ARGUMENT;
}
return hal_1_2::ArmnnDriverImpl::prepareArmnnModel_1_2(m_Runtime,
m_ClTunedParameters,
m_Options,
model,
cb,
model.relaxComputationFloat32toFloat16
&& m_Options.GetFp16Enabled());
}
Return<void> getCapabilities_1_3(getCapabilities_1_3_cb cb)
{
ALOGV("hal_1_3::ArmnnDriver::getCapabilities()");
return hal_1_3::ArmnnDriverImpl::getCapabilities_1_3(m_Runtime, cb);
}
Return<void> getSupportedOperations_1_3(const V1_3::Model& model,
getSupportedOperations_1_3_cb cb)
{
ALOGV("hal_1_3::ArmnnDriver::getSupportedOperations()");
return armnn_driver::ArmnnDriverImpl<hal_1_3::HalPolicy>::getSupportedOperations(m_Runtime,
m_Options,
model,
cb);
}
Return<V1_3::ErrorStatus> prepareModel_1_3(const V1_3::Model& model,
V1_1::ExecutionPreference preference,
V1_3::Priority priority,
const V1_3::OptionalTimePoint&,
const android::hardware::hidl_vec<android::hardware::hidl_handle>&,
const android::hardware::hidl_vec<android::hardware::hidl_handle>&,
const HidlToken&,
const android::sp<V1_3::IPreparedModelCallback>& cb)
{
ALOGV("hal_1_3::ArmnnDriver::prepareModel_1_3()");
if (!(preference == ExecutionPreference::LOW_POWER ||
preference == ExecutionPreference::FAST_SINGLE_ANSWER ||
preference == ExecutionPreference::SUSTAINED_SPEED))
{
ALOGV("hal_1_3::ArmnnDriver::prepareModel_1_3: Invalid execution preference");
cb->notify_1_3(V1_3::ErrorStatus::INVALID_ARGUMENT, nullptr);
return V1_3::ErrorStatus::INVALID_ARGUMENT;
}
if (!android::nn::validatePriority(priority)) {
cb->notify_1_3(V1_3::ErrorStatus::INVALID_ARGUMENT, nullptr);
return V1_3::ErrorStatus::INVALID_ARGUMENT;
}
return ArmnnDriverImpl::prepareArmnnModel_1_3(m_Runtime,
m_ClTunedParameters,
m_Options,
model,
cb,
model.relaxComputationFloat32toFloat16
&& m_Options.GetFp16Enabled(),
priority);
}
Return<void> getSupportedExtensions(getSupportedExtensions_cb cb)
{
ALOGV("hal_1_3::ArmnnDriver::getSupportedExtensions()");
cb(V1_0::ErrorStatus::NONE, {/* No extensions. */});
return Void();
}
Return<void> getNumberOfCacheFilesNeeded(getNumberOfCacheFilesNeeded_cb cb)
{
ALOGV("hal_1_3::ArmnnDriver::getSupportedExtensions()");
// Set both numbers to be 0 for cache not supported.
cb(V1_0::ErrorStatus::NONE, 0, 0);
return Void();
}
Return<DeviceStatus> getStatus() override
{
ALOGV("hal_1_3::ArmnnDriver::getStatus()");
return armnn_driver::ArmnnDriverImpl<hal_1_3::HalPolicy>::getStatus();
}
Return<void> getVersionString(getVersionString_cb cb)
{
ALOGV("hal_1_3::ArmnnDriver::getVersionString()");
cb(V1_0::ErrorStatus::NONE, "ArmNN");
return Void();
}
Return<void> getType(getType_cb cb)
{
ALOGV("hal_1_3::ArmnnDriver::getType()");
cb(V1_0::ErrorStatus::NONE, V1_2::DeviceType::CPU);
return Void();
}
Return<V1_0::ErrorStatus> prepareModelFromCache(
const android::hardware::hidl_vec<android::hardware::hidl_handle>&,
const android::hardware::hidl_vec<android::hardware::hidl_handle>&,
const HidlToken&,
const sp<V1_2::IPreparedModelCallback>& callback)
{
ALOGV("hal_1_3::ArmnnDriver::prepareModelFromCache()");
callback->notify_1_2(V1_0::ErrorStatus::GENERAL_FAILURE, nullptr);
return V1_0::ErrorStatus::GENERAL_FAILURE;
}
Return<ErrorStatus> prepareModelFromCache_1_3(
const V1_3::OptionalTimePoint&,
const android::hardware::hidl_vec<android::hardware::hidl_handle>&,
const android::hardware::hidl_vec<android::hardware::hidl_handle>&,
const HidlToken&,
const sp<V1_3::IPreparedModelCallback>& callback)
{
ALOGV("hal_1_3::ArmnnDriver::prepareModelFromCache()");
callback->notify_1_3(ErrorStatus::GENERAL_FAILURE, nullptr);
return ErrorStatus::GENERAL_FAILURE;
}
Return<void> allocate(const V1_3::BufferDesc& /*desc*/,
const hidl_vec<sp<V1_3::IPreparedModel>>& /*preparedModels*/,
const hidl_vec<V1_3::BufferRole>& /*inputRoles*/,
const hidl_vec<V1_3::BufferRole>& /*outputRoles*/,
allocate_cb cb) {
ALOGV("hal_1_3::ArmnnDriver::allocate()");
cb(ErrorStatus::GENERAL_FAILURE, nullptr, 0);
return Void();
}
};
} // namespace hal_1_3
} // namespace armnn_driver
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