/* * Copyright (c) 2021 Huawei Device Co., Ltd. * 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 FOUNDATION_APPEXECFWK_OHOS_DATA_ABILITY_IMPL_H #define FOUNDATION_APPEXECFWK_OHOS_DATA_ABILITY_IMPL_H #include "ability_impl.h" namespace OHOS { namespace NativeRdb { class DataAbilityPredicates; class ValuesBucket; } // namespace NativeRdb namespace AppExecFwk { class DataAbilityImpl final : public AbilityImpl { public: /** * @brief Constructor. * */ DataAbilityImpl() = default; /** * @brief Destructor. * */ ~DataAbilityImpl() = default; /** * @brief Handling the life cycle switching of PageAbility. * * @param want Indicates the structure containing information about the ability. * @param targetState The life cycle state to switch to. * */ void HandleAbilityTransaction(const Want &want, const AAFwk::LifeCycleStateInfo &targetState); /** * @brief Obtains the MIME types of files supported. * * @param uri Indicates the path of the files to obtain. * @param mimeTypeFilter Indicates the MIME types of the files to obtain. This parameter cannot be null. * * @return Returns the matched MIME types. If there is no match, null is returned. */ std::vector GetFileTypes(const Uri &uri, const std::string &mimeTypeFilter); /** * @brief Opens a file in a specified remote path. * * @param uri Indicates the path of the file to open. * @param mode Indicates the file open mode, which can be "r" for read-only access, "w" for write-only access * (erasing whatever data is currently in the file), "wt" for write access that truncates any existing file, * "wa" for write-only access to append to any existing data, "rw" for read and write access on any existing data, * or "rwt" for read and write access that truncates any existing file. * * @return Returns the file descriptor. */ int OpenFile(const Uri &uri, const std::string &mode); /** * @brief This is like openFile, open a file that need to be able to return sub-sections of files,often assets * inside of their .hap. * * @param uri Indicates the path of the file to open. * @param mode Indicates the file open mode, which can be "r" for read-only access, "w" for write-only access * (erasing whatever data is currently in the file), "wt" for write access that truncates any existing file, * "wa" for write-only access to append to any existing data, "rw" for read and write access on any existing * data, or "rwt" for read and write access that truncates any existing file. * * @return Returns the RawFileDescriptor object containing file descriptor. */ int OpenRawFile(const Uri &uri, const std::string &mode); /** * @brief Inserts a single data record into the database. * * @param uri Indicates the path of the data to operate. * @param value Indicates the data record to insert. If this parameter is null, a blank row will be inserted. * * @return Returns the index of the inserted data record. */ int Insert(const Uri &uri, const NativeRdb::ValuesBucket &value); /** * @brief Updates data records in the database. * * @param uri Indicates the path of data to update. * @param value Indicates the data to update. This parameter can be null. * @param predicates Indicates filter criteria. You should define the processing logic when this parameter is null. * * @return Returns the number of data records updated. */ int Update( const Uri &uri, const NativeRdb::ValuesBucket &value, const NativeRdb::DataAbilityPredicates &predicates); /** * @brief Deletes one or more data records from the database. * * @param uri Indicates the path of the data to operate. * @param predicates Indicates filter criteria. You should define the processing logic when this parameter is null. * * @return Returns the number of data records deleted. */ int Delete(const Uri &uri, const NativeRdb::DataAbilityPredicates &predicates); /** * @brief Deletes one or more data records from the database. * * @param uri Indicates the path of data to query. * @param columns Indicates the columns to query. If this parameter is null, all columns are queried. * @param predicates Indicates filter criteria. You should define the processing logic when this parameter is null. * * @return Returns the query result. */ std::shared_ptr Query( const Uri &uri, std::vector &columns, const NativeRdb::DataAbilityPredicates &predicates); /** * @brief Obtains the MIME type matching the data specified by the URI of the Data ability. This method should be * implemented by a Data ability. Data abilities supports general data types, including text, HTML, and JPEG. * * @param uri Indicates the URI of the data. * * @return Returns the MIME type that matches the data specified by uri. */ std::string GetType(const Uri &uri); /** * @brief Reloads data in the database. * * @param uri Indicates the position where the data is to reload. This parameter is mandatory. * @param extras Indicates the PacMap object containing the additional parameters to be passed in this call. This * parameter can be null. If a custom Sequenceable object is put in the PacMap object and will be transferred across * processes, you must call BasePacMap.setClassLoader(ClassLoader) to set a class loader for the custom object. * * @return Returns true if the data is successfully reloaded; returns false otherwise. */ bool Reload(const Uri &uri, const PacMap &extras); /** * @brief Inserts multiple data records into the database. * * @param uri Indicates the path of the data to operate. * @param values Indicates the data records to insert. * * @return Returns the number of data records inserted. */ int BatchInsert(const Uri &uri, const std::vector &values); /** * @brief Converts the given uri that refer to the Data ability into a normalized URI. A normalized URI can be used * across devices, persisted, backed up, and restored. It can refer to the same item in the Data ability even if the * context has changed. If you implement URI normalization for a Data ability, you must also implement * denormalizeUri(ohos.utils.net.Uri) to enable URI denormalization. After this feature is enabled, URIs passed to any * method that is called on the Data ability must require normalization verification and denormalization. The default * implementation of this method returns null, indicating that this Data ability does not support URI normalization. * * @param uri Indicates the Uri object to normalize. * * @return Returns the normalized Uri object if the Data ability supports URI normalization; returns null otherwise. */ Uri NormalizeUri(const Uri &uri); /** * @brief Converts the given normalized uri generated by normalizeUri(ohos.utils.net.Uri) into a denormalized one. * The default implementation of this method returns the original URI passed to it. * * @param uri uri Indicates the Uri object to denormalize. * * @return Returns the denormalized Uri object if the denormalization is successful; returns the original Uri passed to * this method if there is nothing to do; returns null if the data identified by the original Uri cannot be found in the * current environment. */ Uri DenormalizeUri(const Uri &uri); /** * @brief Performs batch operations on the database. * * @param operations Indicates a list of database operations on the database. * @return Returns the result of each operation, in array. */ std::vector> ExecuteBatch( const std::vector> &operations); }; } // namespace AppExecFwk } // namespace OHOS #endif // FOUNDATION_APPEXECFWK_OHOS_DATA_ABILITY_IMPL_H