/* * 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 #include #include #include #include #define LOG_TAG "InputDriver" #define LOG_NDEBUG 0 #include "InputDriver.h" #include "InputHost.h" #include #include #include #include #include #define INDENT2 " " struct input_property_map { 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 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 intUsages; std::vector boolUsages; }; struct InputCollectionIdHasher { std::size_t operator()(const input_collection_id& id) const { return std::hash()(static_cast(id)); } }; struct input_report_definition { std::unordered_map 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(module); } void InputDriver::init() { mHal->init(mHal, static_cast(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, .productId = productId, .vendorId = vendorId, .bus = bus, .uniqueId = uniqueId, }; // 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, INPUT_DEVICE_CONFIGURATION_FILE_TYPE_CONFIGURATION); if (configFile.empty()) { ALOGD("No input device configuration file found for device '%s'.", idi.name.c_str()); } else { auto propMap = new input_property_map_t(); status_t status = PropertyMap::load(String8(configFile.c_str()), &propMap->propertyMap); if (status) { ALOGE("Error loading input device configuration file for device '%s'. " "Using default configuration.", idi.name.c_str()); delete propMap; return nullptr; } return propMap; } 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->propertyMap; 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(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(host); return driver->createDeviceDefinition(); } input_report_definition_t* create_input_report_definition(input_host_t* host) { auto driver = static_cast(host); return driver->createInputReportDefinition(); } input_report_definition_t* create_output_report_definition(input_host_t* host) { auto driver = static_cast(host); return driver->createOutputReportDefinition(); } void free_report_definition(input_host_t* host, input_report_definition_t* report_def) { auto driver = static_cast(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(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(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(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(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(host); return driver->registerDevice(id, d); } void unregister_device(input_host_t* host, input_device_handle_t* handle) { auto driver = static_cast(host); driver->unregisterDevice(handle); } input_report_t* input_allocate_report(input_host_t* host, input_report_definition_t* r) { auto driver = static_cast(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(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(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(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(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(host); return driver->inputGetDeviceProperty(map, key); } const char* input_get_property_key(input_host_t* host, input_property_t* property) { auto driver = static_cast(host); return driver->inputGetPropertyKey(property); } const char* input_get_property_value(input_host_t* host, input_property_t* property) { auto driver = static_cast(host); return driver->inputGetPropertyValue(property); } void input_free_device_property(input_host_t* host, input_property_t* property) { auto driver = static_cast(host); driver->inputFreeDeviceProperty(property); } void input_free_device_property_map(input_host_t* host, input_property_map_t* map) { auto driver = static_cast(host); driver->inputFreeDevicePropertyMap(map); } } // namespace android