/* * Copyright (C) 2019 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef CONFIG_MANAGER_H #define CONFIG_MANAGER_H #include #include #include #include #include #include #include #include #include "ConfigManagerUtil.h" using namespace std; using namespace tinyxml2; using ::android::hardware::hidl_vec; using ::android::hardware::camera::device::V3_2::Stream; using ::android::hardware::automotive::evs::V1_1::CameraParam; /* * Plese note that this is different from what is defined in * libhardware/modules/camera/3_4/metadata/types.h; this has one additional * field to store a framerate. */ const size_t kStreamCfgSz = 6; typedef std::array RawStreamConfiguration; class ConfigManager { public: static std::unique_ptr Create(); ConfigManager(const ConfigManager&) = delete; ConfigManager& operator=(const ConfigManager&) = delete; virtual ~ConfigManager(); /* Camera device's capabilities and metadata */ class CameraInfo { public: CameraInfo() : characteristics(nullptr) { /* Nothing to do */ } virtual ~CameraInfo(); /* Allocate memory for camera_metadata_t */ bool allocate(size_t entry_cap, size_t data_cap) { if (characteristics != nullptr) { LOG(ERROR) << "Camera metadata is already allocated"; return false; } characteristics = allocate_camera_metadata(entry_cap, data_cap); return characteristics != nullptr; } /* * List of supported controls that the primary client can program. * Paraemters are stored with its valid range */ unordered_map> controls; /* * List of supported output stream configurations; each array stores * format, width, height, and direction values in the order. */ unordered_map streamConfigurations; /* * Internal storage for camera metadata. Each entry holds a pointer to * data and number of elements */ unordered_map> cameraMetadata; /* Camera module characteristics */ camera_metadata_t *characteristics; }; class CameraGroupInfo : public CameraInfo { public: CameraGroupInfo() {} /* ID of member camera devices */ unordered_set devices; /* The capture operation of member camera devices are synchronized */ int32_t synchronized = 0; }; class SystemInfo { public: /* number of available cameras */ int32_t numCameras = 0; }; class DisplayInfo { public: /* * List of supported input stream configurations; each array stores * format, width, height, and direction values in the order. */ unordered_map streamConfigurations; }; /* * Return system information * * @return SystemInfo * Constant reference of SystemInfo. */ const SystemInfo &getSystemInfo() { unique_lock lock(mConfigLock); mConfigCond.wait(lock, [this] { return mIsReady; }); return mSystemInfo; } /* * Return a list of camera identifiers * * This function assumes that it is not being called frequently. * * @return vector * A vector that contains unique camera device identifiers. */ vector getCameraIdList() { unique_lock lock(mConfigLock); mConfigCond.wait(lock, [this] { return mIsReady; }); vector aList; for (auto&& v : mCameraInfo) { aList.emplace_back(v.first); } return aList; } /* * Return a list of camera group identifiers * * This function assumes that it is not being called frequently. * * @return vector * A vector that contains unique camera device identifiers. */ vector getCameraGroupIdList() { unique_lock lock(mConfigLock); mConfigCond.wait(lock, [this] { return mIsReady; }); vector aList; for (auto&& v : mCameraGroups) { aList.emplace_back(v.first); } return aList; } /* * Return a pointer to the camera group * * @return CameraGroup * A pointer to a camera group identified by a given id. */ unique_ptr& getCameraGroupInfo(const string& gid) { unique_lock lock(mConfigLock); mConfigCond.wait(lock, [this] { return mIsReady; }); return mCameraGroups[gid]; } /* * Return a camera metadata * * @param cameraId * Unique camera node identifier in string * * @return unique_ptr * A pointer to CameraInfo that is associated with a given camera * ID. This returns a null pointer if this does not recognize a * given camera identifier. */ unique_ptr& getCameraInfo(const string cameraId) noexcept { unique_lock lock(mConfigLock); mConfigCond.wait(lock, [this] { return mIsReady; }); return mCameraInfo[cameraId]; } /* * Tell whether the configuration data is ready to be used * * @return bool * True if configuration data is ready to be consumed. */ bool isReady() const { return mIsReady; } private: /* Constructors */ ConfigManager() : mBinaryFilePath("") { } static const char* CONFIG_DEFAULT_PATH; static const char* CONFIG_OVERRIDE_PATH; /* System configuration */ SystemInfo mSystemInfo; /* Internal data structure for camera device information */ unordered_map> mCameraInfo; /* Internal data structure for camera device information */ unordered_map> mDisplayInfo; /* Camera groups are stored in hash map */ unordered_map> mCameraGroups; /* * Camera positions are stored in hash map. * The position must be one of front, rear, left, and right. */ unordered_map> mCameraPosition; /* Configuration data lock */ mutex mConfigLock; /* * This condition is signalled when it completes a configuration data * preparation. */ condition_variable mConfigCond; /* A path to a binary configuration file */ const char *mBinaryFilePath; /* Configuration data readiness */ bool mIsReady = false; /* * Parse a given EVS configuration file and store the information * internally. * * @return bool * True if it completes parsing a file successfully. */ bool readConfigDataFromXML() noexcept; /* * read the information of the vehicle * * @param aSysElem * A pointer to "system" XML element. */ void readSystemInfo(const XMLElement * const aSysElem); /* * read the information of camera devices * * @param aCameraElem * A pointer to "camera" XML element that may contain multiple * "device" elements. */ void readCameraInfo(const XMLElement * const aCameraElem); /* * read display device information * * @param aDisplayElem * A pointer to "display" XML element that may contain multiple * "device" elements. */ void readDisplayInfo(const XMLElement * const aDisplayElem); /* * read camera device information * * @param aCamera * A pointer to CameraInfo that will be completed by this * method. * aDeviceElem * A pointer to "device" XML element that contains camera module * capability info and its characteristics. * * @return bool * Return false upon any failure in reading and processing camera * device information. */ bool readCameraDeviceInfo(CameraInfo *aCamera, const XMLElement *aDeviceElem); /* * read camera metadata * * @param aCapElem * A pointer to "cap" XML element. * @param aCamera * A pointer to CameraInfo that is being filled by this method. * @param dataSize * Required size of memory to store camera metadata found in this * method. This is calculated in this method and returned to the * caller for camera_metadata allocation. * * @return size_t * Number of camera metadata entries */ size_t readCameraCapabilities(const XMLElement * const aCapElem, CameraInfo *aCamera, size_t &dataSize); /* * read camera metadata * * @param aParamElem * A pointer to "characteristics" XML element. * @param aCamera * A pointer to CameraInfo that is being filled by this method. * @param dataSize * Required size of memory to store camera metadata found in this * method. * * @return size_t * Number of camera metadata entries */ size_t readCameraMetadata(const XMLElement * const aParamElem, CameraInfo *aCamera, size_t &dataSize); /* * construct camera_metadata_t from camera capabilities and metadata * * @param aCamera * A pointer to CameraInfo that is being filled by this method. * @param totalEntries * Number of camera metadata entries to be added. * @param totalDataSize * Sum of sizes of camera metadata entries to be added. * * @return bool * False if either it fails to allocate memory for camera metadata * or its size is not large enough to add all found camera metadata * entries. */ bool constructCameraMetadata(CameraInfo *aCamera, const size_t totalEntries, const size_t totalDataSize); /* * Read configuration data from the binary file * * @return bool * True if it succeeds to read configuration data from a binary * file. */ bool readConfigDataFromBinary(); /* * Store configuration data to the file * * @return bool * True if it succeeds to serialize mCameraInfo to the file. */ bool writeConfigDataToBinary(); /* * debugging method to print out all XML elements and their attributes in * logcat message. * * @param aNode * A pointer to the root XML element to navigate. * @param prefix * A prefix to XML string. */ void printElementNames(const XMLElement *aNode, string prefix = "") const; }; #endif // CONFIG_MANAGER_H