b2969d4eaa
Bug: 36580454 Test: unlock watch with LLOB sensor and verify no SensorService crash Change-Id: Ib1d086efd80e829bb844521fa39325f095b1c2c9 Signed-off-by: Ben Fennema <fennema@google.com>
402 lines
12 KiB
C++
402 lines
12 KiB
C++
/*
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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 "convert.h"
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#include <android-base/logging.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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void convertFromSensor(const sensor_t &src, SensorInfo *dst) {
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dst->name = src.name;
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dst->vendor = src.vendor;
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dst->version = src.version;
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dst->sensorHandle = src.handle;
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dst->type = (SensorType)src.type;
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dst->maxRange = src.maxRange;
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dst->resolution = src.resolution;
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dst->power = src.power;
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dst->minDelay = src.minDelay;
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dst->fifoReservedEventCount = src.fifoReservedEventCount;
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dst->fifoMaxEventCount = src.fifoMaxEventCount;
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dst->typeAsString = src.stringType;
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dst->requiredPermission = src.requiredPermission;
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dst->maxDelay = src.maxDelay;
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dst->flags = src.flags;
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}
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void convertToSensor(
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const ::android::hardware::sensors::V1_0::SensorInfo &src,
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sensor_t *dst) {
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dst->name = strdup(src.name.c_str());
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dst->vendor = strdup(src.vendor.c_str());
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dst->version = src.version;
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dst->handle = src.sensorHandle;
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dst->type = (int)src.type;
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dst->maxRange = src.maxRange;
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dst->resolution = src.resolution;
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dst->power = src.power;
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dst->minDelay = src.minDelay;
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dst->fifoReservedEventCount = src.fifoReservedEventCount;
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dst->fifoMaxEventCount = src.fifoMaxEventCount;
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dst->stringType = strdup(src.typeAsString.c_str());
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dst->requiredPermission = strdup(src.requiredPermission.c_str());
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dst->maxDelay = src.maxDelay;
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dst->flags = src.flags;
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dst->reserved[0] = dst->reserved[1] = 0;
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}
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void convertFromSensorEvent(const sensors_event_t &src, Event *dst) {
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typedef ::android::hardware::sensors::V1_0::SensorType SensorType;
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typedef ::android::hardware::sensors::V1_0::MetaDataEventType MetaDataEventType;
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dst->sensorHandle = src.sensor;
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dst->sensorType = (SensorType)src.type;
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dst->timestamp = src.timestamp;
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switch (dst->sensorType) {
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case SensorType::META_DATA:
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{
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dst->u.meta.what = (MetaDataEventType)src.meta_data.what;
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// Legacy HALs contain the handle reference in the meta data field.
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// Copy that over to the handle of the event. In legacy HALs this
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// field was expected to be 0.
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dst->sensorHandle = src.meta_data.sensor;
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break;
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}
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case SensorType::ACCELEROMETER:
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case SensorType::MAGNETIC_FIELD:
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case SensorType::ORIENTATION:
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case SensorType::GYROSCOPE:
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case SensorType::GRAVITY:
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case SensorType::LINEAR_ACCELERATION:
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{
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dst->u.vec3.x = src.acceleration.x;
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dst->u.vec3.y = src.acceleration.y;
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dst->u.vec3.z = src.acceleration.z;
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dst->u.vec3.status = (SensorStatus)src.acceleration.status;
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break;
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}
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case SensorType::ROTATION_VECTOR:
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case SensorType::GAME_ROTATION_VECTOR:
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case SensorType::GEOMAGNETIC_ROTATION_VECTOR:
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{
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dst->u.vec4.x = src.data[0];
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dst->u.vec4.y = src.data[1];
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dst->u.vec4.z = src.data[2];
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dst->u.vec4.w = src.data[3];
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break;
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}
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case SensorType::MAGNETIC_FIELD_UNCALIBRATED:
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case SensorType::GYROSCOPE_UNCALIBRATED:
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case SensorType::ACCELEROMETER_UNCALIBRATED:
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{
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dst->u.uncal.x = src.uncalibrated_gyro.x_uncalib;
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dst->u.uncal.y = src.uncalibrated_gyro.y_uncalib;
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dst->u.uncal.z = src.uncalibrated_gyro.z_uncalib;
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dst->u.uncal.x_bias = src.uncalibrated_gyro.x_bias;
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dst->u.uncal.y_bias = src.uncalibrated_gyro.y_bias;
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dst->u.uncal.z_bias = src.uncalibrated_gyro.z_bias;
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break;
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}
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case SensorType::DEVICE_ORIENTATION:
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case SensorType::LIGHT:
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case SensorType::PRESSURE:
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case SensorType::TEMPERATURE:
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case SensorType::PROXIMITY:
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case SensorType::RELATIVE_HUMIDITY:
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case SensorType::AMBIENT_TEMPERATURE:
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case SensorType::SIGNIFICANT_MOTION:
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case SensorType::STEP_DETECTOR:
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case SensorType::TILT_DETECTOR:
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case SensorType::WAKE_GESTURE:
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case SensorType::GLANCE_GESTURE:
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case SensorType::PICK_UP_GESTURE:
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case SensorType::WRIST_TILT_GESTURE:
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case SensorType::STATIONARY_DETECT:
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case SensorType::MOTION_DETECT:
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case SensorType::HEART_BEAT:
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case SensorType::LOW_LATENCY_OFFBODY_DETECT:
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{
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dst->u.scalar = src.data[0];
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break;
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}
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case SensorType::STEP_COUNTER:
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{
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dst->u.stepCount = src.u64.step_counter;
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break;
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}
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case SensorType::HEART_RATE:
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{
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dst->u.heartRate.bpm = src.heart_rate.bpm;
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dst->u.heartRate.status = (SensorStatus)src.heart_rate.status;
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break;
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}
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case SensorType::POSE_6DOF: // 15 floats
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{
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for (size_t i = 0; i < 15; ++i) {
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dst->u.pose6DOF[i] = src.data[i];
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}
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break;
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}
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case SensorType::DYNAMIC_SENSOR_META:
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{
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dst->u.dynamic.connected = src.dynamic_sensor_meta.connected;
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dst->u.dynamic.sensorHandle = src.dynamic_sensor_meta.handle;
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memcpy(dst->u.dynamic.uuid.data(),
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src.dynamic_sensor_meta.uuid,
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16);
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break;
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}
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case SensorType::ADDITIONAL_INFO:
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{
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::android::hardware::sensors::V1_0::AdditionalInfo *dstInfo =
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&dst->u.additional;
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const additional_info_event_t &srcInfo = src.additional_info;
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dstInfo->type =
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(::android::hardware::sensors::V1_0::AdditionalInfoType)
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srcInfo.type;
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dstInfo->serial = srcInfo.serial;
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CHECK_EQ(sizeof(dstInfo->u), sizeof(srcInfo.data_int32));
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memcpy(&dstInfo->u, srcInfo.data_int32, sizeof(srcInfo.data_int32));
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break;
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}
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default:
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{
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CHECK_GE((int32_t)dst->sensorType,
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(int32_t)SensorType::DEVICE_PRIVATE_BASE);
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memcpy(dst->u.data.data(), src.data, 16 * sizeof(float));
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break;
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}
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}
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}
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void convertToSensorEvent(const Event &src, sensors_event_t *dst) {
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dst->version = sizeof(sensors_event_t);
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dst->sensor = src.sensorHandle;
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dst->type = (int32_t)src.sensorType;
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dst->reserved0 = 0;
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dst->timestamp = src.timestamp;
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dst->flags = 0;
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dst->reserved1[0] = dst->reserved1[1] = dst->reserved1[2] = 0;
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switch (src.sensorType) {
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case SensorType::META_DATA:
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{
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// Legacy HALs expect the handle reference in the meta data field.
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// Copy it over from the handle of the event.
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dst->meta_data.what = (int32_t)src.u.meta.what;
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dst->meta_data.sensor = src.sensorHandle;
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// Set the sensor handle to 0 to maintain compatibility.
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dst->sensor = 0;
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break;
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}
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case SensorType::ACCELEROMETER:
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case SensorType::MAGNETIC_FIELD:
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case SensorType::ORIENTATION:
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case SensorType::GYROSCOPE:
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case SensorType::GRAVITY:
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case SensorType::LINEAR_ACCELERATION:
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{
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dst->acceleration.x = src.u.vec3.x;
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dst->acceleration.y = src.u.vec3.y;
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dst->acceleration.z = src.u.vec3.z;
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dst->acceleration.status = (int8_t)src.u.vec3.status;
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break;
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}
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case SensorType::ROTATION_VECTOR:
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case SensorType::GAME_ROTATION_VECTOR:
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case SensorType::GEOMAGNETIC_ROTATION_VECTOR:
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{
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dst->data[0] = src.u.vec4.x;
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dst->data[1] = src.u.vec4.y;
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dst->data[2] = src.u.vec4.z;
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dst->data[3] = src.u.vec4.w;
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break;
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}
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case SensorType::MAGNETIC_FIELD_UNCALIBRATED:
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case SensorType::GYROSCOPE_UNCALIBRATED:
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case SensorType::ACCELEROMETER_UNCALIBRATED:
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{
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dst->uncalibrated_gyro.x_uncalib = src.u.uncal.x;
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dst->uncalibrated_gyro.y_uncalib = src.u.uncal.y;
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dst->uncalibrated_gyro.z_uncalib = src.u.uncal.z;
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dst->uncalibrated_gyro.x_bias = src.u.uncal.x_bias;
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dst->uncalibrated_gyro.y_bias = src.u.uncal.y_bias;
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dst->uncalibrated_gyro.z_bias = src.u.uncal.z_bias;
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break;
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}
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case SensorType::DEVICE_ORIENTATION:
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case SensorType::LIGHT:
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case SensorType::PRESSURE:
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case SensorType::TEMPERATURE:
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case SensorType::PROXIMITY:
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case SensorType::RELATIVE_HUMIDITY:
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case SensorType::AMBIENT_TEMPERATURE:
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case SensorType::SIGNIFICANT_MOTION:
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case SensorType::STEP_DETECTOR:
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case SensorType::TILT_DETECTOR:
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case SensorType::WAKE_GESTURE:
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case SensorType::GLANCE_GESTURE:
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case SensorType::PICK_UP_GESTURE:
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case SensorType::WRIST_TILT_GESTURE:
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case SensorType::STATIONARY_DETECT:
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case SensorType::MOTION_DETECT:
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case SensorType::HEART_BEAT:
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case SensorType::LOW_LATENCY_OFFBODY_DETECT:
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{
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dst->data[0] = src.u.scalar;
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break;
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}
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case SensorType::STEP_COUNTER:
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{
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dst->u64.step_counter = src.u.stepCount;
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break;
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}
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case SensorType::HEART_RATE:
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{
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dst->heart_rate.bpm = src.u.heartRate.bpm;
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dst->heart_rate.status = (int8_t)src.u.heartRate.status;
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break;
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}
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case SensorType::POSE_6DOF: // 15 floats
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{
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for (size_t i = 0; i < 15; ++i) {
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dst->data[i] = src.u.pose6DOF[i];
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}
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break;
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}
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case SensorType::DYNAMIC_SENSOR_META:
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{
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dst->dynamic_sensor_meta.connected = src.u.dynamic.connected;
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dst->dynamic_sensor_meta.handle = src.u.dynamic.sensorHandle;
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dst->dynamic_sensor_meta.sensor = NULL; // to be filled in later
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memcpy(dst->dynamic_sensor_meta.uuid,
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src.u.dynamic.uuid.data(),
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16);
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break;
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}
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case SensorType::ADDITIONAL_INFO:
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{
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const ::android::hardware::sensors::V1_0::AdditionalInfo &srcInfo =
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src.u.additional;
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additional_info_event_t *dstInfo = &dst->additional_info;
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dstInfo->type = (int32_t)srcInfo.type;
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dstInfo->serial = srcInfo.serial;
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CHECK_EQ(sizeof(srcInfo.u), sizeof(dstInfo->data_int32));
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memcpy(dstInfo->data_int32,
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&srcInfo.u,
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sizeof(dstInfo->data_int32));
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break;
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}
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default:
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{
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CHECK_GE((int32_t)src.sensorType,
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(int32_t)SensorType::DEVICE_PRIVATE_BASE);
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memcpy(dst->data, src.u.data.data(), 16 * sizeof(float));
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break;
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}
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}
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}
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bool convertFromSharedMemInfo(const SharedMemInfo& memIn, sensors_direct_mem_t *memOut) {
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if (memOut == nullptr) {
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return false;
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}
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switch(memIn.type) {
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case SharedMemType::ASHMEM:
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memOut->type = SENSOR_DIRECT_MEM_TYPE_ASHMEM;
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break;
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case SharedMemType::GRALLOC:
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memOut->type = SENSOR_DIRECT_MEM_TYPE_GRALLOC;
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break;
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default:
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return false;
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}
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switch(memIn.format) {
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case SharedMemFormat::SENSORS_EVENT:
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memOut->format = SENSOR_DIRECT_FMT_SENSORS_EVENT;
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break;
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default:
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return false;
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}
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memOut->size = memIn.size;
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memOut->handle = memIn.memoryHandle;
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return true;
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}
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int convertFromRateLevel(RateLevel rate) {
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switch(rate) {
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case RateLevel::STOP:
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return SENSOR_DIRECT_RATE_STOP;
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case RateLevel::NORMAL:
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return SENSOR_DIRECT_RATE_NORMAL;
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case RateLevel::FAST:
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return SENSOR_DIRECT_RATE_FAST;
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case RateLevel::VERY_FAST:
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return SENSOR_DIRECT_RATE_VERY_FAST;
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default:
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return -1;
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}
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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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