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513 lines
19 KiB
513 lines
19 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 <sstream>
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#include <fstream>
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#include <thread>
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#include <hardware/gralloc.h>
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#include <utils/SystemClock.h>
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#include <android/hardware/camera/device/3.2/ICameraDevice.h>
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#include "ConfigManager.h"
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using ::android::hardware::camera::device::V3_2::StreamRotation;
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ConfigManager::~ConfigManager() {
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/* Nothing to do */
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}
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void ConfigManager::readCameraInfo(const XMLElement * const aCameraElem) {
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if (aCameraElem == nullptr) {
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ALOGW("XML file does not have required camera element");
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return;
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}
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const XMLElement *curElem = aCameraElem->FirstChildElement();
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while (curElem != nullptr) {
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if (!strcmp(curElem->Name(), "group")) {
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/* camera group identifier */
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const char *id = curElem->FindAttribute("id")->Value();
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/* create a camera group to be filled */
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CameraGroupInfo *aCamera = new CameraGroupInfo();
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/* read camera device information */
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if (!readCameraDeviceInfo(aCamera, curElem)) {
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ALOGW("Failed to read a camera information of %s", id);
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delete aCamera;
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continue;
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}
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/* camera group synchronization */
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const char *sync = curElem->FindAttribute("synchronized")->Value();
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if (!strcmp(sync, "CALIBRATED")) {
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aCamera->synchronized =
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ANDROID_LOGICAL_MULTI_CAMERA_SENSOR_SYNC_TYPE_CALIBRATED;
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} else if (!strcmp(sync, "APPROXIMATE")) {
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aCamera->synchronized =
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ANDROID_LOGICAL_MULTI_CAMERA_SENSOR_SYNC_TYPE_APPROXIMATE;
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} else {
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aCamera->synchronized = 0; // Not synchronized
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}
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/* add a group to hash map */
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mCameraGroupInfos.insert_or_assign(id, unique_ptr<CameraGroupInfo>(aCamera));
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} else if (!strcmp(curElem->Name(), "device")) {
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/* camera unique identifier */
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const char *id = curElem->FindAttribute("id")->Value();
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/* camera mount location */
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const char *pos = curElem->FindAttribute("position")->Value();
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/* create a camera device to be filled */
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CameraInfo *aCamera = new CameraInfo();
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/* read camera device information */
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if (!readCameraDeviceInfo(aCamera, curElem)) {
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ALOGW("Failed to read a camera information of %s", id);
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delete aCamera;
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continue;
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}
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/* store read camera module information */
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mCameraInfo.insert_or_assign(id, unique_ptr<CameraInfo>(aCamera));
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/* assign a camera device to a position group */
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mCameraPosition[pos].emplace(id);
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} else {
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/* ignore other device types */
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ALOGD("Unknown element %s is ignored", curElem->Name());
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}
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curElem = curElem->NextSiblingElement();
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}
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}
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bool
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ConfigManager::readCameraDeviceInfo(CameraInfo *aCamera,
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const XMLElement *aDeviceElem) {
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if (aCamera == nullptr || aDeviceElem == nullptr) {
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return false;
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}
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/* size information to allocate camera_metadata_t */
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size_t totalEntries = 0;
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size_t totalDataSize = 0;
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/* read device capabilities */
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totalEntries +=
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readCameraCapabilities(aDeviceElem->FirstChildElement("caps"),
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aCamera,
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totalDataSize);
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/* read camera metadata */
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totalEntries +=
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readCameraMetadata(aDeviceElem->FirstChildElement("characteristics"),
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aCamera,
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totalDataSize);
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/* construct camera_metadata_t */
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if (!constructCameraMetadata(aCamera, totalEntries, totalDataSize)) {
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ALOGW("Either failed to allocate memory or "
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"allocated memory was not large enough");
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}
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return true;
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}
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size_t
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ConfigManager::readCameraCapabilities(const XMLElement * const aCapElem,
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CameraInfo *aCamera,
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size_t &dataSize) {
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if (aCapElem == nullptr || aCamera == nullptr) {
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return 0;
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}
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string token;
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const XMLElement *curElem = nullptr;
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/* a list of supported camera parameters/controls */
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curElem = aCapElem->FirstChildElement("supported_controls");
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if (curElem != nullptr) {
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const XMLElement *ctrlElem = curElem->FirstChildElement("control");
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while (ctrlElem != nullptr) {
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const char *nameAttr = ctrlElem->FindAttribute("name")->Value();;
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const int32_t minVal = stoi(ctrlElem->FindAttribute("min")->Value());
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const int32_t maxVal = stoi(ctrlElem->FindAttribute("max")->Value());
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int32_t stepVal = 1;
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const XMLAttribute *stepAttr = ctrlElem->FindAttribute("step");
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if (stepAttr != nullptr) {
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stepVal = stoi(stepAttr->Value());
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}
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CameraParam aParam;
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if (ConfigManagerUtil::convertToEvsCameraParam(nameAttr,
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aParam)) {
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aCamera->controls.emplace(
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aParam,
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make_tuple(minVal, maxVal, stepVal)
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);
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}
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ctrlElem = ctrlElem->NextSiblingElement("control");
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}
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}
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/* a list of camera stream configurations */
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curElem = aCapElem->FirstChildElement("stream");
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while (curElem != nullptr) {
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/* read 5 attributes */
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const XMLAttribute *idAttr = curElem->FindAttribute("id");
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const XMLAttribute *widthAttr = curElem->FindAttribute("width");
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const XMLAttribute *heightAttr = curElem->FindAttribute("height");
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const XMLAttribute *fmtAttr = curElem->FindAttribute("format");
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const XMLAttribute *fpsAttr = curElem->FindAttribute("framerate");
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const int32_t id = stoi(idAttr->Value());
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int32_t framerate = 0;
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if (fpsAttr != nullptr) {
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framerate = stoi(fpsAttr->Value());
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}
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int32_t pixFormat;
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if (ConfigManagerUtil::convertToPixelFormat(fmtAttr->Value(),
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pixFormat)) {
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RawStreamConfiguration cfg = {
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id,
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stoi(widthAttr->Value()),
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stoi(heightAttr->Value()),
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pixFormat,
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ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS_OUTPUT,
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framerate
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};
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aCamera->streamConfigurations.insert_or_assign(id, cfg);
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}
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curElem = curElem->NextSiblingElement("stream");
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}
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dataSize = calculate_camera_metadata_entry_data_size(
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get_camera_metadata_tag_type(
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ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS
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),
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aCamera->streamConfigurations.size() * kStreamCfgSz
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);
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/* a single camera metadata entry contains multiple stream configurations */
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return dataSize > 0 ? 1 : 0;
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}
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size_t
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ConfigManager::readCameraMetadata(const XMLElement * const aParamElem,
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CameraInfo *aCamera,
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size_t &dataSize) {
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if (aParamElem == nullptr || aCamera == nullptr) {
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return 0;
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}
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const XMLElement *curElem = aParamElem->FirstChildElement("parameter");
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size_t numEntries = 0;
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camera_metadata_tag_t tag;
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while (curElem != nullptr) {
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if (!ConfigManagerUtil::convertToMetadataTag(curElem->FindAttribute("name")->Value(),
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tag)) {
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switch(tag) {
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case ANDROID_LENS_DISTORTION:
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case ANDROID_LENS_POSE_ROTATION:
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case ANDROID_LENS_POSE_TRANSLATION:
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case ANDROID_LENS_INTRINSIC_CALIBRATION: {
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/* float[] */
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size_t count = 0;
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void *data = ConfigManagerUtil::convertFloatArray(
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curElem->FindAttribute("size")->Value(),
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curElem->FindAttribute("value")->Value(),
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count
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);
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aCamera->cameraMetadata.insert_or_assign(
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tag, make_pair(make_unique<void *>(data), count)
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);
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++numEntries;
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dataSize += calculate_camera_metadata_entry_data_size(
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get_camera_metadata_tag_type(tag), count
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);
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break;
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}
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case ANDROID_REQUEST_AVAILABLE_CAPABILITIES: {
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camera_metadata_enum_android_request_available_capabilities_t *data =
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new camera_metadata_enum_android_request_available_capabilities_t[1];
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if (ConfigManagerUtil::convertToCameraCapability(
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curElem->FindAttribute("value")->Value(), *data)) {
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curElem->FindAttribute("value")->Value(),
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aCamera->cameraMetadata.insert_or_assign(
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tag, make_pair(make_unique<void *>(data), 1)
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);
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++numEntries;
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dataSize += calculate_camera_metadata_entry_data_size(
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get_camera_metadata_tag_type(tag), 1
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);
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}
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break;
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}
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case ANDROID_LOGICAL_MULTI_CAMERA_PHYSICAL_IDS: {
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/* a comma-separated list of physical camera devices */
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size_t len = strlen(curElem->FindAttribute("value")->Value());
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char *data = new char[len + 1];
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memcpy(data,
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curElem->FindAttribute("value")->Value(),
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len * sizeof(char));
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/* replace commas with null char */
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char *p = data;
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while (*p != '\0') {
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if (*p == ',') {
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*p = '\0';
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}
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++p;
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}
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aCamera->cameraMetadata.insert_or_assign(
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tag, make_pair(make_unique<void *>(data), len)
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);
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++numEntries;
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dataSize += calculate_camera_metadata_entry_data_size(
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get_camera_metadata_tag_type(tag), len
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);
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break;
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}
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default:
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ALOGW("Parameter %s is not supported",
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curElem->FindAttribute("name")->Value());
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break;
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}
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}
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curElem = curElem->NextSiblingElement("parameter");
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}
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return numEntries;
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}
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bool
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ConfigManager::constructCameraMetadata(CameraInfo *aCamera,
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const size_t totalEntries,
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const size_t totalDataSize) {
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if (aCamera == nullptr || !aCamera->allocate(totalEntries, totalDataSize)) {
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ALOGE("Failed to allocate memory for camera metadata");
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return false;
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}
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const size_t numStreamConfigs = aCamera->streamConfigurations.size();
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unique_ptr<int32_t[]> data(new int32_t[kStreamCfgSz * numStreamConfigs]);
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int32_t *ptr = data.get();
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for (auto &cfg : aCamera->streamConfigurations) {
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for (auto i = 0; i < kStreamCfgSz; ++i) {
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*ptr++ = cfg.second[i];
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}
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}
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int32_t err = add_camera_metadata_entry(aCamera->characteristics,
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ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS,
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data.get(),
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numStreamConfigs * kStreamCfgSz);
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if (err) {
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ALOGE("Failed to add stream configurations to metadata, ignored");
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return false;
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}
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bool success = true;
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for (auto &[tag, entry] : aCamera->cameraMetadata) {
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/* try to add new camera metadata entry */
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int32_t err = add_camera_metadata_entry(aCamera->characteristics,
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tag,
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entry.first.get(),
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entry.second);
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if (err) {
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ALOGE("Failed to add an entry with a tag 0x%X", tag);
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/* may exceed preallocated capacity */
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ALOGE("Camera metadata has %ld / %ld entries and %ld / %ld bytes are filled",
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(long)get_camera_metadata_entry_count(aCamera->characteristics),
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(long)get_camera_metadata_entry_capacity(aCamera->characteristics),
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(long)get_camera_metadata_data_count(aCamera->characteristics),
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(long)get_camera_metadata_data_capacity(aCamera->characteristics));
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ALOGE("\tCurrent metadata entry requires %ld bytes",
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(long)calculate_camera_metadata_entry_data_size(tag, entry.second));
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success = false;
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}
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}
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ALOGV("Camera metadata has %ld / %ld entries and %ld / %ld bytes are filled",
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(long)get_camera_metadata_entry_count(aCamera->characteristics),
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(long)get_camera_metadata_entry_capacity(aCamera->characteristics),
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(long)get_camera_metadata_data_count(aCamera->characteristics),
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(long)get_camera_metadata_data_capacity(aCamera->characteristics));
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return success;
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}
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void ConfigManager::readSystemInfo(const XMLElement * const aSysElem) {
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if (aSysElem == nullptr) {
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return;
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}
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/*
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* Please note that this function assumes that a given system XML element
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* and its child elements follow DTD. If it does not, it will cause a
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* segmentation fault due to the failure of finding expected attributes.
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*/
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/* read number of cameras available in the system */
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const XMLElement *xmlElem = aSysElem->FirstChildElement("num_cameras");
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if (xmlElem != nullptr) {
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mSystemInfo.numCameras =
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stoi(xmlElem->FindAttribute("value")->Value());
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}
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}
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void ConfigManager::readDisplayInfo(const XMLElement * const aDisplayElem) {
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if (aDisplayElem == nullptr) {
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ALOGW("XML file does not have required camera element");
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return;
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}
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const XMLElement *curDev = aDisplayElem->FirstChildElement("device");
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while (curDev != nullptr) {
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const char *id = curDev->FindAttribute("id")->Value();
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//const char *pos = curDev->FirstAttribute("position")->Value();
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unique_ptr<DisplayInfo> dpy(new DisplayInfo());
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if (dpy == nullptr) {
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ALOGE("Failed to allocate memory for DisplayInfo");
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return;
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}
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const XMLElement *cap = curDev->FirstChildElement("caps");
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if (cap != nullptr) {
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const XMLElement *curStream = cap->FirstChildElement("stream");
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while (curStream != nullptr) {
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/* read 4 attributes */
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const XMLAttribute *idAttr = curStream->FindAttribute("id");
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const XMLAttribute *widthAttr = curStream->FindAttribute("width");
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const XMLAttribute *heightAttr = curStream->FindAttribute("height");
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const XMLAttribute *fmtAttr = curStream->FindAttribute("format");
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const int32_t id = stoi(idAttr->Value());
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int32_t pixFormat;
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if (ConfigManagerUtil::convertToPixelFormat(fmtAttr->Value(),
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pixFormat)) {
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RawStreamConfiguration cfg = {
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id,
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stoi(widthAttr->Value()),
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stoi(heightAttr->Value()),
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pixFormat,
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ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS_INPUT,
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0 // unused
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};
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dpy->streamConfigurations.insert_or_assign(id, cfg);
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}
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curStream = curStream->NextSiblingElement("stream");
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}
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}
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mDisplayInfo.insert_or_assign(id, std::move(dpy));
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curDev = curDev->NextSiblingElement("device");
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}
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return;
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}
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bool ConfigManager::readConfigDataFromXML() noexcept {
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XMLDocument xmlDoc;
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const int64_t parsingStart = android::elapsedRealtimeNano();
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/* load and parse a configuration file */
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xmlDoc.LoadFile(mConfigFilePath);
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if (xmlDoc.ErrorID() != XML_SUCCESS) {
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ALOGE("Failed to load and/or parse a configuration file, %s", xmlDoc.ErrorStr());
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return false;
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}
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/* retrieve the root element */
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const XMLElement *rootElem = xmlDoc.RootElement();
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if (strcmp(rootElem->Name(), "configuration")) {
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ALOGE("A configuration file is not in the required format. "
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"See /etc/automotive/evs/evs_configuration.dtd");
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return false;
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}
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/*
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* parse camera information; this needs to be done before reading system
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* information
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*/
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readCameraInfo(rootElem->FirstChildElement("camera"));
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/* parse system information */
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readSystemInfo(rootElem->FirstChildElement("system"));
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/* parse display information */
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readDisplayInfo(rootElem->FirstChildElement("display"));
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const int64_t parsingEnd = android::elapsedRealtimeNano();
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ALOGI("Parsing configuration file takes %lf (ms)",
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(double)(parsingEnd - parsingStart) / 1000000.0);
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return true;
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}
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std::unique_ptr<ConfigManager> ConfigManager::Create(const char *path) {
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unique_ptr<ConfigManager> cfgMgr(new ConfigManager(path));
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/*
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* Read a configuration from XML file
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*
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* If this is too slow, ConfigManager::readConfigDataFromBinary() and
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* ConfigManager::writeConfigDataToBinary()can serialize CameraInfo object
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* to the filesystem and construct CameraInfo instead; this was
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* evaluated as 10x faster.
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*/
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if (!cfgMgr->readConfigDataFromXML()) {
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return nullptr;
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} else {
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return cfgMgr;
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}
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}
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