/* * 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. */ const { Sqlite } = ChromeUtils.import("resource://gre/modules/Sqlite.jsm"); const { Kinto } = ChromeUtils.import( "resource://services-common/kinto-offline-client.js" ); /** * Filter and sort list against provided filters and order. * * @param {Object} filters The filters to apply. * @param {String} order The order to apply. * @param {Array} list The list to reduce. * @return {Array} */ function reduceRecords(filters, order, list) { const filtered = filters ? filterObjects(filters, list) : list; return order ? sortObjects(order, filtered) : filtered; } /** * Checks if a value is undefined. * * This is a copy of `_isUndefined` from kinto.js/src/utils.js. * @param {Any} value * @return {Boolean} */ function _isUndefined(value) { return typeof value === "undefined"; } /** * Sorts records in a list according to a given ordering. * * This is a copy of `sortObjects` from kinto.js/src/utils.js. * * @param {String} order The ordering, eg. `-last_modified`. * @param {Array} list The collection to order. * @return {Array} */ function sortObjects(order, list) { const hasDash = order[0] === "-"; const field = hasDash ? order.slice(1) : order; const direction = hasDash ? -1 : 1; return list.slice().sort((a, b) => { if (a[field] && _isUndefined(b[field])) { return direction; } if (b[field] && _isUndefined(a[field])) { return -direction; } if (_isUndefined(a[field]) && _isUndefined(b[field])) { return 0; } return a[field] > b[field] ? direction : -direction; }); } /** * Test if a single object matches all given filters. * * This is a copy of `filterObject` from kinto.js/src/utils.js. * * @param {Object} filters The filters object. * @param {Object} entry The object to filter. * @return {Function} */ function filterObject(filters, entry) { return Object.keys(filters).every(filter => { const value = filters[filter]; if (Array.isArray(value)) { return value.some(candidate => candidate === entry[filter]); } return entry[filter] === value; }); } /** * Filters records in a list matching all given filters. * * This is a copy of `filterObjects` from kinto.js/src/utils.js. * * @param {Object} filters The filters object. * @param {Array} list The collection to filter. * @return {Array} */ function filterObjects(filters, list) { return list.filter(entry => { return filterObject(filters, entry); }); } const statements = { createCollectionData: ` CREATE TABLE collection_data ( collection_name TEXT, record_id TEXT, record TEXT );`, createCollectionMetadata: ` CREATE TABLE collection_metadata ( collection_name TEXT PRIMARY KEY, last_modified INTEGER, metadata TEXT ) WITHOUT ROWID;`, createCollectionDataRecordIdIndex: ` CREATE UNIQUE INDEX unique_collection_record ON collection_data(collection_name, record_id);`, clearData: ` DELETE FROM collection_data WHERE collection_name = :collection_name;`, createData: ` INSERT INTO collection_data (collection_name, record_id, record) VALUES (:collection_name, :record_id, :record);`, updateData: ` INSERT OR REPLACE INTO collection_data (collection_name, record_id, record) VALUES (:collection_name, :record_id, :record);`, deleteData: ` DELETE FROM collection_data WHERE collection_name = :collection_name AND record_id = :record_id;`, saveLastModified: ` INSERT INTO collection_metadata(collection_name, last_modified) VALUES(:collection_name, :last_modified) ON CONFLICT(collection_name) DO UPDATE SET last_modified = :last_modified`, getLastModified: ` SELECT last_modified FROM collection_metadata WHERE collection_name = :collection_name;`, saveMetadata: ` INSERT INTO collection_metadata(collection_name, metadata) VALUES(:collection_name, :metadata) ON CONFLICT(collection_name) DO UPDATE SET metadata = :metadata`, getMetadata: ` SELECT metadata FROM collection_metadata WHERE collection_name = :collection_name;`, getRecord: ` SELECT record FROM collection_data WHERE collection_name = :collection_name AND record_id = :record_id;`, listRecords: ` SELECT record FROM collection_data WHERE collection_name = :collection_name;`, // N.B. we have to have a dynamic number of placeholders, which you // can't do without building your own statement. See `execute` for details listRecordsById: ` SELECT record_id, record FROM collection_data WHERE collection_name = ? AND record_id IN `, importData: ` REPLACE INTO collection_data (collection_name, record_id, record) VALUES (:collection_name, :record_id, :record);`, scanAllRecords: `SELECT * FROM collection_data;`, clearCollectionMetadata: `DELETE FROM collection_metadata;`, calculateStorage: ` SELECT collection_name, SUM(LENGTH(record)) as size, COUNT(record) as num_records FROM collection_data GROUP BY collection_name;`, addMetadataColumn: ` ALTER TABLE collection_metadata ADD COLUMN metadata TEXT;`, }; const createStatements = [ "createCollectionData", "createCollectionMetadata", "createCollectionDataRecordIdIndex", ]; const currentSchemaVersion = 2; /** * Firefox adapter. * * Uses Sqlite as a backing store. * * Options: * - sqliteHandle: a handle to the Sqlite database this adapter will * use as its backing store. To open such a handle, use the * static openConnection() method. */ class FirefoxAdapter extends Kinto.adapters.BaseAdapter { constructor(collection, options = {}) { super(); const { sqliteHandle = null } = options; this.collection = collection; this._connection = sqliteHandle; this._options = options; } /** * Initialize a Sqlite connection to be suitable for use with Kinto. * * This will be called automatically by open(). */ static async _init(connection) { await connection.executeTransaction(async function doSetup() { const schema = await connection.getSchemaVersion(); if (schema == 0) { for (let statementName of createStatements) { await connection.execute(statements[statementName]); } await connection.setSchemaVersion(currentSchemaVersion); } else if (schema == 1) { await connection.execute(statements.addMetadataColumn); await connection.setSchemaVersion(currentSchemaVersion); } else if (schema != 2) { throw new Error("Unknown database schema: " + schema); } }); return connection; } _executeStatement(statement, params) { return this._connection.executeCached(statement, params); } /** * Open and initialize a Sqlite connection to a database that Kinto * can use. When you are done with this connection, close it by * calling close(). * * Options: * - path: The path for the Sqlite database * * @returns SqliteConnection */ static async openConnection(options) { const opts = Object.assign({}, { sharedMemoryCache: false }, options); const conn = await Sqlite.openConnection(opts).then(this._init); try { Sqlite.shutdown.addBlocker( "Kinto storage adapter connection closing", () => conn.close() ); } catch (e) { // It's too late to block shutdown, just close the connection. await conn.close(); throw e; } return conn; } clear() { const params = { collection_name: this.collection }; return this._executeStatement(statements.clearData, params); } execute(callback, options = { preload: [] }) { let result; const conn = this._connection; const collection = this.collection; return conn .executeTransaction(async function doExecuteTransaction() { // Preload specified records from DB, within transaction. // if options.preload has more elements than the sqlite variable // limit, split it up. const limit = 100; let preloaded = {}; let preload; let more = options.preload; while (more.length > 0) { preload = more.slice(0, limit); more = more.slice(limit, more.length); const parameters = [collection, ...preload]; const placeholders = preload.map(_ => "?"); const stmt = statements.listRecordsById + "(" + placeholders.join(",") + ");"; const rows = await conn.execute(stmt, parameters); rows.reduce((acc, row) => { const record = JSON.parse(row.getResultByName("record")); acc[row.getResultByName("record_id")] = record; return acc; }, preloaded); } const proxy = transactionProxy(collection, preloaded); result = callback(proxy); for (let { statement, params } of proxy.operations) { await conn.executeCached(statement, params); } }, conn.TRANSACTION_EXCLUSIVE) .then(_ => result); } get(id) { const params = { collection_name: this.collection, record_id: id, }; return this._executeStatement(statements.getRecord, params).then(result => { if (result.length == 0) { return null; } return JSON.parse(result[0].getResultByName("record")); }); } list(params = { filters: {}, order: "" }) { const parameters = { collection_name: this.collection, }; return this._executeStatement(statements.listRecords, parameters) .then(result => { const records = []; for (let k = 0; k < result.length; k++) { const row = result[k]; records.push(JSON.parse(row.getResultByName("record"))); } return records; }) .then(results => { // The resulting list of records is filtered and sorted. // XXX: with some efforts, this could be implemented using SQL. return reduceRecords(params.filters, params.order, results); }); } async loadDump(records) { return this.importBulk(records); } /** * Load a list of records into the local database. * * Note: The adapter is not in charge of filtering the already imported * records. This is done in `Collection#loadDump()`, as a common behaviour * between every adapters. * * @param {Array} records. * @return {Array} imported records. */ async importBulk(records) { const connection = this._connection; const collection_name = this.collection; await connection.executeTransaction(async function doImport() { for (let record of records) { const params = { collection_name, record_id: record.id, record: JSON.stringify(record), }; await connection.execute(statements.importData, params); } const lastModified = Math.max( ...records.map(record => record.last_modified) ); const params = { collection_name, }; const previousLastModified = await connection .execute(statements.getLastModified, params) .then(result => { return result.length > 0 ? result[0].getResultByName("last_modified") : -1; }); if (lastModified > previousLastModified) { const params = { collection_name, last_modified: lastModified, }; await connection.execute(statements.saveLastModified, params); } }); return records; } saveLastModified(lastModified) { const parsedLastModified = parseInt(lastModified, 10) || null; const params = { collection_name: this.collection, last_modified: parsedLastModified, }; return this._executeStatement(statements.saveLastModified, params).then( () => parsedLastModified ); } getLastModified() { const params = { collection_name: this.collection, }; return this._executeStatement(statements.getLastModified, params).then( result => { if (result.length == 0) { return 0; } return result[0].getResultByName("last_modified"); } ); } async saveMetadata(metadata) { const params = { collection_name: this.collection, metadata: JSON.stringify(metadata), }; await this._executeStatement(statements.saveMetadata, params); return metadata; } async getMetadata() { const params = { collection_name: this.collection, }; const result = await this._executeStatement(statements.getMetadata, params); if (result.length == 0) { return null; } return JSON.parse(result[0].getResultByName("metadata")); } calculateStorage() { return this._executeStatement(statements.calculateStorage, {}).then( result => { return Array.from(result, row => ({ collectionName: row.getResultByName("collection_name"), size: row.getResultByName("size"), numRecords: row.getResultByName("num_records"), })); } ); } /** * Reset the sync status of every record and collection we have * access to. */ resetSyncStatus() { // We're going to use execute instead of executeCached, so build // in our own sanity check if (!this._connection) { throw new Error("The storage adapter is not open"); } return this._connection.executeTransaction(async function(conn) { const promises = []; await conn.execute(statements.scanAllRecords, null, function(row) { const record = JSON.parse(row.getResultByName("record")); const record_id = row.getResultByName("record_id"); const collection_name = row.getResultByName("collection_name"); if (record._status === "deleted") { // Garbage collect deleted records. promises.push( conn.execute(statements.deleteData, { collection_name, record_id }) ); } else { const newRecord = Object.assign({}, record, { _status: "created", last_modified: undefined, }); promises.push( conn.execute(statements.updateData, { record: JSON.stringify(newRecord), record_id, collection_name, }) ); } }); await Promise.all(promises); await conn.execute(statements.clearCollectionMetadata); }); } } function transactionProxy(collection, preloaded) { const _operations = []; return { get operations() { return _operations; }, create(record) { _operations.push({ statement: statements.createData, params: { collection_name: collection, record_id: record.id, record: JSON.stringify(record), }, }); }, update(record) { _operations.push({ statement: statements.updateData, params: { collection_name: collection, record_id: record.id, record: JSON.stringify(record), }, }); }, delete(id) { _operations.push({ statement: statements.deleteData, params: { collection_name: collection, record_id: id, }, }); }, get(id) { // Gecko JS engine outputs undesired warnings if id is not in preloaded. return id in preloaded ? preloaded[id] : undefined; }, }; } this.FirefoxAdapter = FirefoxAdapter; var EXPORTED_SYMBOLS = ["FirefoxAdapter"];