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373 lines
11 KiB
373 lines
11 KiB
/*
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* Copyright (C) 2016 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 "Sensors.h"
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#include <sensors/convert.h>
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#include "multihal.h"
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#include <android-base/logging.h>
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#include <sys/stat.h>
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namespace android {
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namespace hardware {
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namespace sensors {
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namespace V1_0 {
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namespace implementation {
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/*
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* If a multi-hal configuration file exists in the proper location,
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* return true indicating we need to use multi-hal functionality.
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*/
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static bool UseMultiHal() {
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const std::string& name = MULTI_HAL_CONFIG_FILE_PATH;
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struct stat buffer;
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return (stat (name.c_str(), &buffer) == 0);
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}
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static Result ResultFromStatus(status_t err) {
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switch (err) {
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case OK:
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return Result::OK;
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case PERMISSION_DENIED:
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return Result::PERMISSION_DENIED;
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case NO_MEMORY:
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return Result::NO_MEMORY;
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case BAD_VALUE:
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return Result::BAD_VALUE;
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default:
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return Result::INVALID_OPERATION;
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}
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}
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Sensors::Sensors()
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: mInitCheck(NO_INIT),
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mSensorModule(nullptr),
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mSensorDevice(nullptr) {
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status_t err = OK;
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if (UseMultiHal()) {
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mSensorModule = ::get_multi_hal_module_info();
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} else {
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err = hw_get_module(
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SENSORS_HARDWARE_MODULE_ID,
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(hw_module_t const **)&mSensorModule);
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}
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if (mSensorModule == NULL) {
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err = UNKNOWN_ERROR;
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}
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if (err != OK) {
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LOG(ERROR) << "Couldn't load "
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<< SENSORS_HARDWARE_MODULE_ID
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<< " module ("
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<< strerror(-err)
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<< ")";
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mInitCheck = err;
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return;
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}
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err = sensors_open_1(&mSensorModule->common, &mSensorDevice);
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if (err != OK) {
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LOG(ERROR) << "Couldn't open device for module "
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<< SENSORS_HARDWARE_MODULE_ID
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<< " ("
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<< strerror(-err)
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<< ")";
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mInitCheck = err;
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return;
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}
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// Require all the old HAL APIs to be present except for injection, which
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// is considered optional.
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CHECK_GE(getHalDeviceVersion(), SENSORS_DEVICE_API_VERSION_1_3);
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if (getHalDeviceVersion() == SENSORS_DEVICE_API_VERSION_1_4) {
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if (mSensorDevice->inject_sensor_data == nullptr) {
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LOG(ERROR) << "HAL specifies version 1.4, but does not implement inject_sensor_data()";
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}
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if (mSensorModule->set_operation_mode == nullptr) {
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LOG(ERROR) << "HAL specifies version 1.4, but does not implement set_operation_mode()";
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}
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}
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/* Get us all sensors */
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setOperationMode(static_cast<hardware::sensors::V1_0::OperationMode>(5555));
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mInitCheck = OK;
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}
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status_t Sensors::initCheck() const {
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return mInitCheck;
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}
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Return<void> Sensors::getSensorsList(getSensorsList_cb _hidl_cb) {
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sensor_t const *list;
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size_t count = mSensorModule->get_sensors_list(mSensorModule, &list);
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hidl_vec<SensorInfo> out;
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out.resize(count);
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for (size_t i = 0; i < count; ++i) {
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const sensor_t *src = &list[i];
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SensorInfo *dst = &out[i];
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convertFromSensor(*src, dst);
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if (dst->requiredPermission == "com.samsung.permission.SSENSOR") {
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dst->requiredPermission = "";
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}
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if (dst->typeAsString == "com.samsung.sensor.physical_proximity") {
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LOG(INFO) << "Fixing com.samsung.sensor.physical_proximity";
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dst->type = SensorType::PROXIMITY;
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dst->typeAsString = SENSOR_STRING_TYPE_PROXIMITY;
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}
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}
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_hidl_cb(out);
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return Void();
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}
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int Sensors::getHalDeviceVersion() const {
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if (!mSensorDevice) {
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return -1;
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}
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return mSensorDevice->common.version;
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}
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Return<Result> Sensors::setOperationMode(OperationMode mode) {
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if (getHalDeviceVersion() < SENSORS_DEVICE_API_VERSION_1_4
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|| mSensorModule->set_operation_mode == nullptr) {
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return Result::INVALID_OPERATION;
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}
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return ResultFromStatus(mSensorModule->set_operation_mode((uint32_t)mode));
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}
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Return<Result> Sensors::activate(
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int32_t sensor_handle, bool enabled) {
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return ResultFromStatus(
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mSensorDevice->activate(
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reinterpret_cast<sensors_poll_device_t *>(mSensorDevice),
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sensor_handle,
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enabled));
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}
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Return<void> Sensors::poll(int32_t maxCount, poll_cb _hidl_cb) {
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hidl_vec<Event> out;
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hidl_vec<SensorInfo> dynamicSensorsAdded;
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std::unique_ptr<sensors_event_t[]> data;
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int err = android::NO_ERROR;
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{ // scope of reentry lock
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// This enforces a single client, meaning that a maximum of one client can call poll().
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// If this function is re-entred, it means that we are stuck in a state that may prevent
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// the system from proceeding normally.
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//
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// Exit and let the system restart the sensor-hal-implementation hidl service.
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//
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// This function must not call _hidl_cb(...) or return until there is no risk of blocking.
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std::unique_lock<std::mutex> lock(mPollLock, std::try_to_lock);
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if(!lock.owns_lock()){
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// cannot get the lock, hidl service will go into deadlock if it is not restarted.
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// This is guaranteed to not trigger in passthrough mode.
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LOG(ERROR) <<
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"ISensors::poll() re-entry. I do not know what to do except killing myself.";
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::exit(-1);
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}
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if (maxCount <= 0) {
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err = android::BAD_VALUE;
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} else {
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int bufferSize = maxCount <= kPollMaxBufferSize ? maxCount : kPollMaxBufferSize;
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data.reset(new sensors_event_t[bufferSize]);
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err = mSensorDevice->poll(
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reinterpret_cast<sensors_poll_device_t *>(mSensorDevice),
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data.get(), bufferSize);
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}
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}
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if (err < 0) {
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_hidl_cb(ResultFromStatus(err), out, dynamicSensorsAdded);
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return Void();
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}
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const size_t count = (size_t)err;
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for (size_t i = 0; i < count; ++i) {
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if (data[i].type != SENSOR_TYPE_DYNAMIC_SENSOR_META) {
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continue;
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}
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const dynamic_sensor_meta_event_t *dyn = &data[i].dynamic_sensor_meta;
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if (!dyn->connected) {
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continue;
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}
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CHECK(dyn->sensor != nullptr);
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CHECK_EQ(dyn->sensor->handle, dyn->handle);
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SensorInfo info;
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convertFromSensor(*dyn->sensor, &info);
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size_t numDynamicSensors = dynamicSensorsAdded.size();
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dynamicSensorsAdded.resize(numDynamicSensors + 1);
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dynamicSensorsAdded[numDynamicSensors] = info;
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}
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out.resize(count);
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convertFromSensorEvents(err, data.get(), &out);
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_hidl_cb(Result::OK, out, dynamicSensorsAdded);
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return Void();
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}
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Return<Result> Sensors::batch(
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int32_t sensor_handle,
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int64_t sampling_period_ns,
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int64_t max_report_latency_ns) {
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return ResultFromStatus(
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mSensorDevice->batch(
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mSensorDevice,
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sensor_handle,
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0, /*flags*/
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sampling_period_ns,
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max_report_latency_ns));
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}
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Return<Result> Sensors::flush(int32_t sensor_handle) {
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return ResultFromStatus(mSensorDevice->flush(mSensorDevice, sensor_handle));
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}
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Return<Result> Sensors::injectSensorData(const Event& event) {
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if (getHalDeviceVersion() < SENSORS_DEVICE_API_VERSION_1_4
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|| mSensorDevice->inject_sensor_data == nullptr) {
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return Result::INVALID_OPERATION;
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}
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sensors_event_t out;
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convertToSensorEvent(event, &out);
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return ResultFromStatus(
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mSensorDevice->inject_sensor_data(mSensorDevice, &out));
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}
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Return<void> Sensors::registerDirectChannel(
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const SharedMemInfo& mem, registerDirectChannel_cb _hidl_cb) {
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if (mSensorDevice->register_direct_channel == nullptr
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|| mSensorDevice->config_direct_report == nullptr) {
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// HAL does not support
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_hidl_cb(Result::INVALID_OPERATION, -1);
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return Void();
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}
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sensors_direct_mem_t m;
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if (!convertFromSharedMemInfo(mem, &m)) {
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_hidl_cb(Result::BAD_VALUE, -1);
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return Void();
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}
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int err = mSensorDevice->register_direct_channel(mSensorDevice, &m, -1);
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if (err < 0) {
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_hidl_cb(ResultFromStatus(err), -1);
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} else {
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int32_t channelHandle = static_cast<int32_t>(err);
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_hidl_cb(Result::OK, channelHandle);
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}
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return Void();
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}
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Return<Result> Sensors::unregisterDirectChannel(int32_t channelHandle) {
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if (mSensorDevice->register_direct_channel == nullptr
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|| mSensorDevice->config_direct_report == nullptr) {
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// HAL does not support
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return Result::INVALID_OPERATION;
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}
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mSensorDevice->register_direct_channel(mSensorDevice, nullptr, channelHandle);
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return Result::OK;
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}
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Return<void> Sensors::configDirectReport(
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int32_t sensorHandle, int32_t channelHandle, RateLevel rate,
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configDirectReport_cb _hidl_cb) {
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if (mSensorDevice->register_direct_channel == nullptr
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|| mSensorDevice->config_direct_report == nullptr) {
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// HAL does not support
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_hidl_cb(Result::INVALID_OPERATION, -1);
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return Void();
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}
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sensors_direct_cfg_t cfg = {
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.rate_level = convertFromRateLevel(rate)
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};
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if (cfg.rate_level < 0) {
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_hidl_cb(Result::BAD_VALUE, -1);
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return Void();
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}
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int err = mSensorDevice->config_direct_report(mSensorDevice,
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sensorHandle, channelHandle, &cfg);
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if (rate == RateLevel::STOP) {
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_hidl_cb(ResultFromStatus(err), -1);
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} else {
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_hidl_cb(err > 0 ? Result::OK : ResultFromStatus(err), err);
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}
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return Void();
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}
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// static
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void Sensors::convertFromSensorEvents(
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size_t count,
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const sensors_event_t *srcArray,
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hidl_vec<Event> *dstVec) {
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for (size_t i = 0; i < count; ++i) {
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const sensors_event_t &src = srcArray[i];
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Event *dst = &(*dstVec)[i];
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convertFromSensorEvent(src, dst);
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}
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}
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ISensors *HIDL_FETCH_ISensors(const char * /* hal */) {
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Sensors *sensors = new Sensors;
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if (sensors->initCheck() != OK) {
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delete sensors;
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sensors = nullptr;
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return nullptr;
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}
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return sensors;
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}
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} // namespace implementation
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} // namespace V1_0
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} // namespace sensors
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} // namespace hardware
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} // namespace android
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