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199 lines
6.3 KiB
199 lines
6.3 KiB
/*
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* Copyright (C) 2019 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "Sensor.h"
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#include <hardware/sensors.h>
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#include <utils/SystemClock.h>
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#include <cmath>
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namespace android {
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namespace hardware {
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namespace sensors {
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namespace V2_1 {
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namespace subhal {
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namespace implementation {
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using ::android::hardware::sensors::V1_0::MetaDataEventType;
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using ::android::hardware::sensors::V1_0::OperationMode;
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using ::android::hardware::sensors::V1_0::Result;
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using ::android::hardware::sensors::V1_0::SensorFlagBits;
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using ::android::hardware::sensors::V1_0::SensorStatus;
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using ::android::hardware::sensors::V2_1::Event;
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using ::android::hardware::sensors::V2_1::SensorInfo;
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using ::android::hardware::sensors::V2_1::SensorType;
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Sensor::Sensor(int32_t sensorHandle, ISensorsEventCallback* callback)
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: mIsEnabled(false),
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mSamplingPeriodNs(0),
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mLastSampleTimeNs(0),
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mCallback(callback),
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mMode(OperationMode::NORMAL) {
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mSensorInfo.sensorHandle = sensorHandle;
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mSensorInfo.vendor = "The LineageOS Project";
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mSensorInfo.version = 1;
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constexpr float kDefaultMaxDelayUs = 1000 * 1000;
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mSensorInfo.maxDelay = kDefaultMaxDelayUs;
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mSensorInfo.fifoReservedEventCount = 0;
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mSensorInfo.fifoMaxEventCount = 0;
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mSensorInfo.requiredPermission = "";
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mSensorInfo.flags = 0;
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mRunThread = std::thread(startThread, this);
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}
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Sensor::~Sensor() {
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// Ensure that lock is unlocked before calling mRunThread.join() or a
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// deadlock will occur.
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{
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std::unique_lock<std::mutex> lock(mRunMutex);
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mStopThread = true;
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mIsEnabled = false;
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mWaitCV.notify_all();
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}
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mRunThread.join();
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}
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const SensorInfo& Sensor::getSensorInfo() const {
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return mSensorInfo;
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}
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void Sensor::batch(int32_t samplingPeriodNs) {
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samplingPeriodNs =
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std::clamp(samplingPeriodNs, mSensorInfo.minDelay * 1000, mSensorInfo.maxDelay * 1000);
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if (mSamplingPeriodNs != samplingPeriodNs) {
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mSamplingPeriodNs = samplingPeriodNs;
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// Wake up the 'run' thread to check if a new event should be generated now
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mWaitCV.notify_all();
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}
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}
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void Sensor::activate(bool enable) {
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if (mIsEnabled != enable) {
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std::unique_lock<std::mutex> lock(mRunMutex);
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mIsEnabled = enable;
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mWaitCV.notify_all();
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}
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}
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Result Sensor::flush() {
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// Only generate a flush complete event if the sensor is enabled and if the sensor is not a
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// one-shot sensor.
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if (!mIsEnabled) {
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return Result::BAD_VALUE;
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}
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// Note: If a sensor supports batching, write all of the currently batched events for the sensor
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// to the Event FMQ prior to writing the flush complete event.
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Event ev;
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ev.sensorHandle = mSensorInfo.sensorHandle;
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ev.sensorType = SensorType::META_DATA;
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ev.u.meta.what = MetaDataEventType::META_DATA_FLUSH_COMPLETE;
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std::vector<Event> evs{ev};
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mCallback->postEvents(evs, isWakeUpSensor());
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return Result::OK;
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}
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void Sensor::startThread(Sensor* sensor) {
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sensor->run();
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}
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void Sensor::run() {
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std::unique_lock<std::mutex> runLock(mRunMutex);
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constexpr int64_t kNanosecondsInSeconds = 1000 * 1000 * 1000;
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while (!mStopThread) {
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if (!mIsEnabled || mMode == OperationMode::DATA_INJECTION) {
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mWaitCV.wait(runLock, [&] {
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return ((mIsEnabled && mMode == OperationMode::NORMAL) || mStopThread);
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});
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} else {
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timespec curTime;
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clock_gettime(CLOCK_REALTIME, &curTime);
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int64_t now = (curTime.tv_sec * kNanosecondsInSeconds) + curTime.tv_nsec;
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int64_t nextSampleTime = mLastSampleTimeNs + mSamplingPeriodNs;
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if (now >= nextSampleTime) {
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mLastSampleTimeNs = now;
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nextSampleTime = mLastSampleTimeNs + mSamplingPeriodNs;
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mCallback->postEvents(readEvents(), isWakeUpSensor());
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}
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mWaitCV.wait_for(runLock, std::chrono::nanoseconds(nextSampleTime - now));
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}
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}
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}
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bool Sensor::isWakeUpSensor() {
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return mSensorInfo.flags & static_cast<uint32_t>(SensorFlagBits::WAKE_UP);
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}
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std::vector<Event> Sensor::readEvents() {
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std::vector<Event> events;
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Event event;
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event.sensorHandle = mSensorInfo.sensorHandle;
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event.sensorType = mSensorInfo.type;
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event.timestamp = ::android::elapsedRealtimeNano();
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event.u.vec3.x = 0;
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event.u.vec3.y = 0;
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event.u.vec3.z = 0;
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event.u.vec3.status = SensorStatus::ACCURACY_HIGH;
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events.push_back(event);
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return events;
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}
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void Sensor::setOperationMode(OperationMode mode) {
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if (mMode != mode) {
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std::unique_lock<std::mutex> lock(mRunMutex);
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mMode = mode;
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mWaitCV.notify_all();
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}
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}
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bool Sensor::supportsDataInjection() const {
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return mSensorInfo.flags & static_cast<uint32_t>(SensorFlagBits::DATA_INJECTION);
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}
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Result Sensor::injectEvent(const Event& event) {
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Result result = Result::OK;
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if (event.sensorType == SensorType::ADDITIONAL_INFO) {
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// When in OperationMode::NORMAL, SensorType::ADDITIONAL_INFO is used to push operation
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// environment data into the device.
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} else if (!supportsDataInjection()) {
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result = Result::INVALID_OPERATION;
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} else if (mMode == OperationMode::DATA_INJECTION) {
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mCallback->postEvents(std::vector<Event>{event}, isWakeUpSensor());
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} else {
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result = Result::BAD_VALUE;
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}
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return result;
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}
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OneShotSensor::OneShotSensor(int32_t sensorHandle, ISensorsEventCallback* callback)
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: Sensor(sensorHandle, callback) {
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mSensorInfo.minDelay = -1;
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mSensorInfo.maxDelay = 0;
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mSensorInfo.flags |= SensorFlagBits::ONE_SHOT_MODE;
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}
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} // namespace implementation
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} // namespace subhal
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} // namespace V2_1
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} // namespace sensors
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} // namespace hardware
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} // namespace android
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