services/inputflinger/host/InputDriver.cpp - platform/frameworks/native - Gitiles

 /*
  * Copyright (C) 2015 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 <functional>
 #include <stdint.h>
 #include <sys/types.h>
 #include <unordered_map>
 #include <vector>

 #define LOG_TAG "InputDriver"

 #define LOG_NDEBUG 0

 #include "InputDriver.h"
 #include "InputHost.h"

 #include <hardware/input.h>
 #include <input/InputDevice.h>
 #include <input/PropertyMap.h>
 #include <utils/Log.h>
 #include <utils/String8.h>

 #define INDENT2 "    "

 struct input_property_map {
     std::unique_ptr<android::PropertyMap> propertyMap;
 };

 struct input_property {
     android::String8 key;
     android::String8 value;
 };

 struct input_device_identifier {
     const char* name;
     const char* uniqueId;
     input_bus_t bus;
     int32_t     vendorId;
     int32_t     productId;
     int32_t     version;
 };

 struct input_device_definition {
     std::vector<input_report_definition*> reportDefs;
 };

 struct input_device_handle {
     input_device_identifier_t* id;
     input_device_definition_t* def;
 };

 struct input_int_usage {
     input_usage_t usage;
     int32_t min;
     int32_t max;
     float   resolution;
 };

 struct input_collection {
     int32_t arity;
     std::vector<input_int_usage> intUsages;
     std::vector<input_usage_t> boolUsages;
 };

 struct InputCollectionIdHasher {
     std::size_t operator()(const input_collection_id& id) const {
         return std::hash<int>()(static_cast<int>(id));
     }
 };

 struct input_report_definition {
     std::unordered_map<input_collection_id_t, input_collection, InputCollectionIdHasher> collections;
 };


 namespace android {

 static input_host_callbacks_t kCallbacks = {
     .create_device_identifier = create_device_identifier,
     .create_device_definition = create_device_definition,
     .create_input_report_definition = create_input_report_definition,
     .create_output_report_definition = create_output_report_definition,
     .free_report_definition = free_report_definition,
     .input_device_definition_add_report = input_device_definition_add_report,
     .input_report_definition_add_collection = input_report_definition_add_collection,
     .input_report_definition_declare_usage_int = input_report_definition_declare_usage_int,
     .input_report_definition_declare_usages_bool = input_report_definition_declare_usages_bool,
     .register_device = register_device,
     .input_allocate_report = input_allocate_report,
     .input_report_set_usage_int = input_report_set_usage_int,
     .input_report_set_usage_bool = input_report_set_usage_bool,
     .report_event = report_event,
     .input_get_device_property_map = input_get_device_property_map,
     .input_get_device_property = input_get_device_property,
     .input_get_property_key = input_get_property_key,
     .input_get_property_value = input_get_property_value,
     .input_free_device_property = input_free_device_property,
     .input_free_device_property_map = input_free_device_property_map,
 };

 InputDriver::InputDriver(const char* name) : mName(String8(name)) {
     const hw_module_t* module;
     int err = input_open(&module, name);
     LOG_ALWAYS_FATAL_IF(err != 0, "Input module %s not found", name);
     mHal = reinterpret_cast<const input_module_t*>(module);
 }

 void InputDriver::init() {
     mHal->init(mHal, static_cast<input_host_t*>(this), kCallbacks);
 }

 input_device_identifier_t* InputDriver::createDeviceIdentifier(
             const char* name, int32_t productId, int32_t vendorId,
             input_bus_t bus, const char* uniqueId) {
     auto identifier = new ::input_device_identifier {
         .name = name,
         .uniqueId = uniqueId,
         .bus = bus,
         .vendorId = vendorId,
         .productId = productId,
     };
     // TODO: store this identifier somewhere
     return identifier;
 }

 input_device_definition_t* InputDriver::createDeviceDefinition() {
     return new ::input_device_definition;
 }

 input_report_definition_t* InputDriver::createInputReportDefinition() {
     return new ::input_report_definition;
 }

 input_report_definition_t* InputDriver::createOutputReportDefinition() {
     return new ::input_report_definition;
 }

 void InputDriver::freeReportDefinition(input_report_definition_t* reportDef) {
     delete reportDef;
 }

 void InputDriver::inputDeviceDefinitionAddReport(input_device_definition_t* d,
         input_report_definition_t* r) {
     d->reportDefs.push_back(r);
 }

 void InputDriver::inputReportDefinitionAddCollection(input_report_definition_t* report,
         input_collection_id_t id, int32_t arity) {
     report->collections[id] = {.arity = arity};
 }

 void InputDriver::inputReportDefinitionDeclareUsageInt(input_report_definition_t* report,
         input_collection_id_t id, input_usage_t usage, int32_t min, int32_t max,
         float resolution) {
     if (report->collections.find(id) != report->collections.end()) {
         report->collections[id].intUsages.push_back({
                 .usage = usage, .min = min, .max = max, .resolution = resolution});
     }
 }

 void InputDriver::inputReportDefinitionDeclareUsagesBool(input_report_definition_t* report,
         input_collection_id_t id, input_usage_t* usage, size_t usageCount) {
     if (report->collections.find(id) != report->collections.end()) {
         for (size_t i = 0; i < usageCount; ++i) {
             report->collections[id].boolUsages.push_back(usage[i]);
         }
     }
 }

 input_device_handle_t* InputDriver::registerDevice(input_device_identifier_t* id,
         input_device_definition_t* d) {
     ALOGD("Registering device %s with %zu input reports", id->name, d->reportDefs.size());
     // TODO: save this device handle
     return new input_device_handle{ .id = id, .def = d };
 }

 void InputDriver::unregisterDevice(input_device_handle_t* handle) {
     delete handle;
 }

 input_report_t* InputDriver::inputAllocateReport(input_report_definition_t* r) {
     ALOGD("Allocating input report for definition %p", r);
     return nullptr;
 }

 void InputDriver::inputReportSetUsageInt(input_report_t* r, input_collection_id_t id,
         input_usage_t usage, int32_t value, int32_t arity_index) {
 }

 void InputDriver::inputReportSetUsageBool(input_report_t* r, input_collection_id_t id,
         input_usage_t usage, bool value, int32_t arity_index) {
 }

 void InputDriver::reportEvent(input_device_handle_t* d, input_report_t* report) {
     ALOGD("report_event %p for handle %p", report, d);
 }

 input_property_map_t* InputDriver::inputGetDevicePropertyMap(input_device_identifier_t* id) {
     InputDeviceIdentifier idi;
     idi.name = id->name;
     idi.uniqueId = id->uniqueId;
     idi.bus = id->bus;
     idi.vendor = id->vendorId;
     idi.product = id->productId;
     idi.version = id->version;

     std::string configFile =
             getInputDeviceConfigurationFilePathByDeviceIdentifier(idi,
                                                                   InputDeviceConfigurationFileType::
                                                                           CONFIGURATION);
     if (configFile.empty()) {
         ALOGD("No input device configuration file found for device '%s'.",
                 idi.name.c_str());
     } else {
         std::unique_ptr<input_property_map_t> propMap = std::make_unique<input_property_map_t>();
         android::base::Result<std::unique_ptr<PropertyMap>> result =
                 PropertyMap::load(configFile.c_str());
         if (!result.ok()) {
             ALOGE("Error loading input device configuration file for device '%s'. "
                     "Using default configuration.",
                     idi.name.c_str());
             return nullptr;
         }
         propMap->propertyMap = std::move(*result);
         return propMap.release();
     }
     return nullptr;
 }

 input_property_t* InputDriver::inputGetDeviceProperty(input_property_map_t* map,
         const char* key) {
     String8 keyString(key);
     if (map != nullptr) {
         if (map->propertyMap->hasProperty(keyString)) {
             auto prop = new input_property_t();
             if (!map->propertyMap->tryGetProperty(keyString, prop->value)) {
                 delete prop;
                 return nullptr;
             }
             prop->key = keyString;
             return prop;
         }
     }
     return nullptr;
 }

 const char* InputDriver::inputGetPropertyKey(input_property_t* property) {
     if (property != nullptr) {
         return property->key.string();
     }
     return nullptr;
 }

 const char* InputDriver::inputGetPropertyValue(input_property_t* property) {
     if (property != nullptr) {
         return property->value.string();
     }
     return nullptr;
 }

 void InputDriver::inputFreeDeviceProperty(input_property_t* property) {
     if (property != nullptr) {
         delete property;
     }
 }

 void InputDriver::inputFreeDevicePropertyMap(input_property_map_t* map) {
     if (map != nullptr) {
         delete map;
     }
 }

 void InputDriver::dump(String8& result) {
     result.appendFormat(INDENT2 "HAL Input Driver (%s)\n", mName.string());
 }

 } // namespace android

 // HAL wrapper functions

 namespace android {

 ::input_device_identifier_t* create_device_identifier(input_host_t* host,
         const char* name, int32_t product_id, int32_t vendor_id,
         input_bus_t bus, const char* unique_id) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->createDeviceIdentifier(name, product_id, vendor_id, bus, unique_id);
 }

 input_device_definition_t* create_device_definition(input_host_t* host) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->createDeviceDefinition();
 }

 input_report_definition_t* create_input_report_definition(input_host_t* host) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->createInputReportDefinition();
 }

 input_report_definition_t* create_output_report_definition(input_host_t* host) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->createOutputReportDefinition();
 }

 void free_report_definition(input_host_t* host, input_report_definition_t* report_def) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->freeReportDefinition(report_def);
 }

 void input_device_definition_add_report(input_host_t* host,
         input_device_definition_t* d, input_report_definition_t* r) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->inputDeviceDefinitionAddReport(d, r);
 }

 void input_report_definition_add_collection(input_host_t* host,
         input_report_definition_t* report, input_collection_id_t id, int32_t arity) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->inputReportDefinitionAddCollection(report, id, arity);
 }

 void input_report_definition_declare_usage_int(input_host_t* host,
         input_report_definition_t* report, input_collection_id_t id,
         input_usage_t usage, int32_t min, int32_t max, float resolution) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->inputReportDefinitionDeclareUsageInt(report, id, usage, min, max, resolution);
 }

 void input_report_definition_declare_usages_bool(input_host_t* host,
         input_report_definition_t* report, input_collection_id_t id,
         input_usage_t* usage, size_t usage_count) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->inputReportDefinitionDeclareUsagesBool(report, id, usage, usage_count);
 }

 input_device_handle_t* register_device(input_host_t* host,
         input_device_identifier_t* id, input_device_definition_t* d) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->registerDevice(id, d);
 }

 void unregister_device(input_host_t* host, input_device_handle_t* handle) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->unregisterDevice(handle);
 }

 input_report_t* input_allocate_report(input_host_t* host, input_report_definition_t* r) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->inputAllocateReport(r);
 }

 void input_report_set_usage_int(input_host_t* host, input_report_t* r,
         input_collection_id_t id, input_usage_t usage, int32_t value, int32_t arity_index) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->inputReportSetUsageInt(r, id, usage, value, arity_index);
 }

 void input_report_set_usage_bool(input_host_t* host, input_report_t* r,
         input_collection_id_t id, input_usage_t usage, bool value, int32_t arity_index) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->inputReportSetUsageBool(r, id, usage, value, arity_index);
 }

 void report_event(input_host_t* host, input_device_handle_t* d, input_report_t* report) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->reportEvent(d, report);
 }

 input_property_map_t* input_get_device_property_map(input_host_t* host,
         input_device_identifier_t* id) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->inputGetDevicePropertyMap(id);
 }

 input_property_t* input_get_device_property(input_host_t* host, input_property_map_t* map,
         const char* key) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->inputGetDeviceProperty(map, key);
 }

 const char* input_get_property_key(input_host_t* host, input_property_t* property) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->inputGetPropertyKey(property);
 }

 const char* input_get_property_value(input_host_t* host, input_property_t* property) {
     auto driver = static_cast<InputDriverInterface*>(host);
     return driver->inputGetPropertyValue(property);
 }

 void input_free_device_property(input_host_t* host, input_property_t* property) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->inputFreeDeviceProperty(property);
 }

 void input_free_device_property_map(input_host_t* host, input_property_map_t* map) {
     auto driver = static_cast<InputDriverInterface*>(host);
     driver->inputFreeDevicePropertyMap(map);
 }

 } // namespace android
	/*
	* Copyright (C) 2015 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 <functional>
	#include <stdint.h>
	#include <sys/types.h>
	#include <unordered_map>
	#include <vector>

	#define LOG_TAG "InputDriver"

	#define LOG_NDEBUG 0

	#include "InputDriver.h"
	#include "InputHost.h"

	#include <hardware/input.h>
	#include <input/InputDevice.h>
	#include <input/PropertyMap.h>
	#include <utils/Log.h>
	#include <utils/String8.h>

	#define INDENT2 " "

	struct input_property_map {
	std::unique_ptr<android::PropertyMap> propertyMap;
	};

	struct input_property {
	android::String8 key;
	android::String8 value;
	};

	struct input_device_identifier {
	const char* name;
	const char* uniqueId;
	input_bus_t bus;
	int32_t vendorId;
	int32_t productId;
	int32_t version;
	};

	struct input_device_definition {
	std::vector<input_report_definition*> reportDefs;
	};

	struct input_device_handle {
	input_device_identifier_t* id;
	input_device_definition_t* def;
	};

	struct input_int_usage {
	input_usage_t usage;
	int32_t min;
	int32_t max;
	float resolution;
	};

	struct input_collection {
	int32_t arity;
	std::vector<input_int_usage> intUsages;
	std::vector<input_usage_t> boolUsages;
	};

	struct InputCollectionIdHasher {
	std::size_t operator()(const input_collection_id& id) const {
	return std::hash<int>()(static_cast<int>(id));
	}
	};

	struct input_report_definition {
	std::unordered_map<input_collection_id_t, input_collection, InputCollectionIdHasher> collections;
	};


	namespace android {

	static input_host_callbacks_t kCallbacks = {
	.create_device_identifier = create_device_identifier,
	.create_device_definition = create_device_definition,
	.create_input_report_definition = create_input_report_definition,
	.create_output_report_definition = create_output_report_definition,
	.free_report_definition = free_report_definition,
	.input_device_definition_add_report = input_device_definition_add_report,
	.input_report_definition_add_collection = input_report_definition_add_collection,
	.input_report_definition_declare_usage_int = input_report_definition_declare_usage_int,
	.input_report_definition_declare_usages_bool = input_report_definition_declare_usages_bool,
	.register_device = register_device,
	.input_allocate_report = input_allocate_report,
	.input_report_set_usage_int = input_report_set_usage_int,
	.input_report_set_usage_bool = input_report_set_usage_bool,
	.report_event = report_event,
	.input_get_device_property_map = input_get_device_property_map,
	.input_get_device_property = input_get_device_property,
	.input_get_property_key = input_get_property_key,
	.input_get_property_value = input_get_property_value,
	.input_free_device_property = input_free_device_property,
	.input_free_device_property_map = input_free_device_property_map,
	};

	InputDriver::InputDriver(const char* name) : mName(String8(name)) {
	const hw_module_t* module;
	int err = input_open(&module, name);
	LOG_ALWAYS_FATAL_IF(err != 0, "Input module %s not found", name);
	mHal = reinterpret_cast<const input_module_t*>(module);
	}

	void InputDriver::init() {
	mHal->init(mHal, static_cast<input_host_t*>(this), kCallbacks);
	}

	input_device_identifier_t* InputDriver::createDeviceIdentifier(
	const char* name, int32_t productId, int32_t vendorId,
	input_bus_t bus, const char* uniqueId) {
	auto identifier = new ::input_device_identifier {
	.name = name,
	.uniqueId = uniqueId,
	.bus = bus,
	.vendorId = vendorId,
	.productId = productId,
	};
	// TODO: store this identifier somewhere
	return identifier;
	}

	input_device_definition_t* InputDriver::createDeviceDefinition() {
	return new ::input_device_definition;
	}

	input_report_definition_t* InputDriver::createInputReportDefinition() {
	return new ::input_report_definition;
	}

	input_report_definition_t* InputDriver::createOutputReportDefinition() {
	return new ::input_report_definition;
	}

	void InputDriver::freeReportDefinition(input_report_definition_t* reportDef) {
	delete reportDef;
	}

	void InputDriver::inputDeviceDefinitionAddReport(input_device_definition_t* d,
	input_report_definition_t* r) {
	d->reportDefs.push_back(r);
	}

	void InputDriver::inputReportDefinitionAddCollection(input_report_definition_t* report,
	input_collection_id_t id, int32_t arity) {
	report->collections[id] = {.arity = arity};
	}

	void InputDriver::inputReportDefinitionDeclareUsageInt(input_report_definition_t* report,
	input_collection_id_t id, input_usage_t usage, int32_t min, int32_t max,
	float resolution) {
	if (report->collections.find(id) != report->collections.end()) {
	report->collections[id].intUsages.push_back({
	.usage = usage, .min = min, .max = max, .resolution = resolution});
	}
	}

	void InputDriver::inputReportDefinitionDeclareUsagesBool(input_report_definition_t* report,
	input_collection_id_t id, input_usage_t* usage, size_t usageCount) {
	if (report->collections.find(id) != report->collections.end()) {
	for (size_t i = 0; i < usageCount; ++i) {
	report->collections[id].boolUsages.push_back(usage[i]);
	}
	}
	}

	input_device_handle_t* InputDriver::registerDevice(input_device_identifier_t* id,
	input_device_definition_t* d) {
	ALOGD("Registering device %s with %zu input reports", id->name, d->reportDefs.size());
	// TODO: save this device handle
	return new input_device_handle{ .id = id, .def = d };
	}

	void InputDriver::unregisterDevice(input_device_handle_t* handle) {
	delete handle;
	}

	input_report_t* InputDriver::inputAllocateReport(input_report_definition_t* r) {
	ALOGD("Allocating input report for definition %p", r);
	return nullptr;
	}

	void InputDriver::inputReportSetUsageInt(input_report_t* r, input_collection_id_t id,
	input_usage_t usage, int32_t value, int32_t arity_index) {
	}

	void InputDriver::inputReportSetUsageBool(input_report_t* r, input_collection_id_t id,
	input_usage_t usage, bool value, int32_t arity_index) {
	}

	void InputDriver::reportEvent(input_device_handle_t* d, input_report_t* report) {
	ALOGD("report_event %p for handle %p", report, d);
	}

	input_property_map_t* InputDriver::inputGetDevicePropertyMap(input_device_identifier_t* id) {
	InputDeviceIdentifier idi;
	idi.name = id->name;
	idi.uniqueId = id->uniqueId;
	idi.bus = id->bus;
	idi.vendor = id->vendorId;
	idi.product = id->productId;
	idi.version = id->version;

	std::string configFile =
	getInputDeviceConfigurationFilePathByDeviceIdentifier(idi,
	InputDeviceConfigurationFileType::
	CONFIGURATION);
	if (configFile.empty()) {
	ALOGD("No input device configuration file found for device '%s'.",
	idi.name.c_str());
	} else {
	std::unique_ptr<input_property_map_t> propMap = std::make_unique<input_property_map_t>();
	android::base::Result<std::unique_ptr<PropertyMap>> result =
	PropertyMap::load(configFile.c_str());
	if (!result.ok()) {
	ALOGE("Error loading input device configuration file for device '%s'. "
	"Using default configuration.",
	idi.name.c_str());
	return nullptr;
	}
	propMap->propertyMap = std::move(*result);
	return propMap.release();
	}
	return nullptr;
	}

	input_property_t* InputDriver::inputGetDeviceProperty(input_property_map_t* map,
	const char* key) {
	String8 keyString(key);
	if (map != nullptr) {
	if (map->propertyMap->hasProperty(keyString)) {
	auto prop = new input_property_t();
	if (!map->propertyMap->tryGetProperty(keyString, prop->value)) {
	delete prop;
	return nullptr;
	}
	prop->key = keyString;
	return prop;
	}
	}
	return nullptr;
	}

	const char* InputDriver::inputGetPropertyKey(input_property_t* property) {
	if (property != nullptr) {
	return property->key.string();
	}
	return nullptr;
	}

	const char* InputDriver::inputGetPropertyValue(input_property_t* property) {
	if (property != nullptr) {
	return property->value.string();
	}
	return nullptr;
	}

	void InputDriver::inputFreeDeviceProperty(input_property_t* property) {
	if (property != nullptr) {
	delete property;
	}
	}

	void InputDriver::inputFreeDevicePropertyMap(input_property_map_t* map) {
	if (map != nullptr) {
	delete map;
	}
	}

	void InputDriver::dump(String8& result) {
	result.appendFormat(INDENT2 "HAL Input Driver (%s)\n", mName.string());
	}

	} // namespace android

	// HAL wrapper functions

	namespace android {

	::input_device_identifier_t* create_device_identifier(input_host_t* host,
	const char* name, int32_t product_id, int32_t vendor_id,
	input_bus_t bus, const char* unique_id) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->createDeviceIdentifier(name, product_id, vendor_id, bus, unique_id);
	}

	input_device_definition_t* create_device_definition(input_host_t* host) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->createDeviceDefinition();
	}

	input_report_definition_t* create_input_report_definition(input_host_t* host) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->createInputReportDefinition();
	}

	input_report_definition_t* create_output_report_definition(input_host_t* host) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->createOutputReportDefinition();
	}

	void free_report_definition(input_host_t* host, input_report_definition_t* report_def) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->freeReportDefinition(report_def);
	}

	void input_device_definition_add_report(input_host_t* host,
	input_device_definition_t* d, input_report_definition_t* r) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->inputDeviceDefinitionAddReport(d, r);
	}

	void input_report_definition_add_collection(input_host_t* host,
	input_report_definition_t* report, input_collection_id_t id, int32_t arity) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->inputReportDefinitionAddCollection(report, id, arity);
	}

	void input_report_definition_declare_usage_int(input_host_t* host,
	input_report_definition_t* report, input_collection_id_t id,
	input_usage_t usage, int32_t min, int32_t max, float resolution) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->inputReportDefinitionDeclareUsageInt(report, id, usage, min, max, resolution);
	}

	void input_report_definition_declare_usages_bool(input_host_t* host,
	input_report_definition_t* report, input_collection_id_t id,
	input_usage_t* usage, size_t usage_count) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->inputReportDefinitionDeclareUsagesBool(report, id, usage, usage_count);
	}

	input_device_handle_t* register_device(input_host_t* host,
	input_device_identifier_t* id, input_device_definition_t* d) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->registerDevice(id, d);
	}

	void unregister_device(input_host_t* host, input_device_handle_t* handle) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->unregisterDevice(handle);
	}

	input_report_t* input_allocate_report(input_host_t* host, input_report_definition_t* r) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->inputAllocateReport(r);
	}

	void input_report_set_usage_int(input_host_t* host, input_report_t* r,
	input_collection_id_t id, input_usage_t usage, int32_t value, int32_t arity_index) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->inputReportSetUsageInt(r, id, usage, value, arity_index);
	}

	void input_report_set_usage_bool(input_host_t* host, input_report_t* r,
	input_collection_id_t id, input_usage_t usage, bool value, int32_t arity_index) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->inputReportSetUsageBool(r, id, usage, value, arity_index);
	}

	void report_event(input_host_t* host, input_device_handle_t* d, input_report_t* report) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->reportEvent(d, report);
	}

	input_property_map_t* input_get_device_property_map(input_host_t* host,
	input_device_identifier_t* id) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->inputGetDevicePropertyMap(id);
	}

	input_property_t* input_get_device_property(input_host_t* host, input_property_map_t* map,
	const char* key) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->inputGetDeviceProperty(map, key);
	}

	const char* input_get_property_key(input_host_t* host, input_property_t* property) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->inputGetPropertyKey(property);
	}

	const char* input_get_property_value(input_host_t* host, input_property_t* property) {
	auto driver = static_cast<InputDriverInterface*>(host);
	return driver->inputGetPropertyValue(property);
	}

	void input_free_device_property(input_host_t* host, input_property_t* property) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->inputFreeDeviceProperty(property);
	}

	void input_free_device_property_map(input_host_t* host, input_property_map_t* map) {
	auto driver = static_cast<InputDriverInterface*>(host);
	driver->inputFreeDevicePropertyMap(map);
	}

	} // namespace android