/* * Copyright (C) 2017 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. */ #ifndef ANDROID_SENSORHAL_EXT_HIDRAW_SENSOR_H #define ANDROID_SENSORHAL_EXT_HIDRAW_SENSOR_H #include "BaseSensorObject.h" #include "HidDevice.h" #include "Utils.h" #include #include namespace android { namespace SensorHalExt { using HidUtil::HidParser; using ReportPacket = HidParser::ReportPacket; using ReportItem = HidParser::ReportItem; class HidRawSensor : public BaseSensorObject { friend class HidRawSensorTest; friend class HidRawDeviceTest; public: HidRawSensor(SP(HidDevice) device, uint32_t usage, const std::vector &report); // implements BaseSensorObject virtual const sensor_t* getSensor() const; virtual void getUuid(uint8_t* uuid) const; virtual int enable(bool enable); virtual int batch(int64_t samplePeriod, int64_t batchPeriod); // unit nano-seconds // handle input report received void handleInput(uint8_t id, const std::vector &message); // indicate if the HidRawSensor is a valid one bool isValid() const { return mValid; }; private: // structure used for holding descriptor parse result for each report field enum { TYPE_FLOAT, TYPE_INT64, TYPE_ACCURACY }; struct ReportTranslateRecord { int type; int index; int64_t maxValue; int64_t minValue; size_t byteOffset; size_t byteSize; double a; int64_t b; }; // sensor related information parsed from HID descriptor struct FeatureValue { // information needed to furnish sensor_t structure (see hardware/sensors.h) std::string name; std::string vendor; std::string permission; std::string typeString; int32_t type; int version; float maxRange; float resolution; float power; int32_t minDelay; int64_t maxDelay; size_t fifoSize; size_t fifoMaxSize; uint32_t reportModeFlag; bool isWakeUp; // dynamic sensor specific std::string uniqueId; uint8_t uuid[16]; // if the device is custom sensor HID device that furnished android specific descriptors bool isAndroidCustom; }; // helper function to find the first report item with specified usage, type and id. // if parameter id is omitted, this function looks for usage with all ids. // return nullptr if nothing is found. static const HidParser::ReportItem* find (const std::vector &packets, unsigned int usage, int type, int id = -1); // helper function to decode std::string from HID feature report buffer. static bool decodeString( const HidParser::ReportItem &report, const std::vector &buffer, std::string *d); // initialize default feature values default based on hid device info static void initFeatureValueFromHidDeviceInfo( FeatureValue *featureValue, const HidDevice::HidDeviceInfo &info); // populates feature values from descripitors and hid feature reports bool populateFeatureValueFromFeatureReport( FeatureValue *featureValue, const std::vector &packets); // validate feature values and construct sensor_t structure if values are ok. bool validateFeatureValueAndBuildSensor(); // helper function to find sensor control feature usage from packets bool findSensorControlUsage(const std::vector &packets); // try to parse sensor description feature value to see if it matches any // known sensors void detectSensorFromDescription(const std::string &description); // try to parse sensor description feature value to see if it matches the // Android header tracker sensor bool detectAndroidHeadTrackerSensor(const std::string &description); // try to parse sensor description feature value to see if it matches // android specified custom sensor definition. bool detectAndroidCustomSensor(const std::string &description); // process HID sensor spec defined three axis sensors usages: accel, gyro, mag. bool processTriAxisUsage(const std::vector &packets, uint32_t usageX, uint32_t usageY, uint32_t usageZ, double defaultScaling = 1); // process HID snesor spec defined orientation(quaternion) sensor usages. bool processQuaternionUsage(const std::vector &packets); // dump data for test/debug purpose std::string dump() const; // Features for control sensor int mReportingStateId; unsigned int mReportingStateBitOffset; unsigned int mReportingStateBitSize; int mReportingStateDisableIndex; int mReportingStateEnableIndex; int mPowerStateId; unsigned int mPowerStateBitOffset; unsigned int mPowerStateBitSize; int mPowerStateOffIndex; int mPowerStateOnIndex; int mReportIntervalId; unsigned int mReportIntervalBitOffset; unsigned int mReportIntervalBitSize; // Input report translate table std::vector mTranslateTable; unsigned mInputReportId; FeatureValue mFeatureInfo; sensor_t mSensor; // runtime states variable bool mEnabled; int64_t mSamplingPeriod; // ns int64_t mBatchingPeriod; // ns WP(HidDevice) mDevice; bool mValid; }; } // namespace SensorHalExt } // namespace android #endif // ANDROID_SENSORHAL_EXT_HIDRAW_SENSOR_H