var util = require('util'); var Connector = require('loopback-connector').Connector; var geo = require('../geo'); var utils = require('../utils'); var fs = require('fs'); var async = require('async'); /** * Initialize the Memory connector against the given data source * * @param {DataSource} dataSource The loopback-datasource-juggler dataSource * @param {Function} [callback] The callback function */ exports.initialize = function initializeDataSource(dataSource, callback) { dataSource.connector = new Memory(null, dataSource.settings); dataSource.connector.connect(callback); }; exports.Memory = Memory; exports.applyFilter = applyFilter; function Memory(m, settings) { if (m instanceof Memory) { this.isTransaction = true; this.cache = m.cache; this.ids = m.ids; this.constructor.super_.call(this, 'memory', settings); this._models = m._models; } else { this.isTransaction = false; this.cache = {}; this.ids = {}; this.constructor.super_.call(this, 'memory', settings); } } util.inherits(Memory, Connector); Memory.prototype.getDefaultIdType = function() { return Number; }; Memory.prototype.getTypes = function() { return ['db', 'nosql', 'memory']; }; Memory.prototype.connect = function (callback) { if (this.isTransaction) { this.onTransactionExec = callback; } else { this.loadFromFile(callback); } }; function serialize(obj) { if(obj === null || obj === undefined) { return obj; } return JSON.stringify(obj); } function deserialize(dbObj) { if(dbObj === null || dbObj === undefined) { return dbObj; } if(typeof dbObj === 'string') { return JSON.parse(dbObj); } else { return dbObj; } } Memory.prototype.getCollection = function(model) { var modelClass = this._models[model]; if (modelClass && modelClass.settings.memory) { model = modelClass.settings.memory.collection || model; } return model; } Memory.prototype.initCollection = function(model) { this.collection(model, {}); this.collectionSeq(model, 1); } Memory.prototype.collection = function(model, val) { model = this.getCollection(model); if (arguments.length > 1) this.cache[model] = val; return this.cache[model]; }; Memory.prototype.collectionSeq = function(model, val) { model = this.getCollection(model); if (arguments.length > 1) this.ids[model] = val; return this.ids[model]; }; Memory.prototype.loadFromFile = function(callback) { var self = this; var hasLocalStorage = typeof window !== 'undefined' && window.localStorage; var localStorage = hasLocalStorage && this.settings.localStorage; if (self.settings.file) { fs.readFile(self.settings.file, {encoding: 'utf8', flag: 'r'}, function (err, data) { if (err && err.code !== 'ENOENT') { callback && callback(err); } else { parseAndLoad(data); } }); } else if(localStorage) { var data = window.localStorage.getItem(localStorage); data = data || '{}'; parseAndLoad(data); } else { process.nextTick(callback); } function parseAndLoad(data) { if (data) { try { data = JSON.parse(data.toString()); } catch(e) { return callback(e); } self.ids = data.ids || {}; self.cache = data.models || {}; } else { if(!self.cache) { self.ids = {}; self.cache = {}; } } callback && callback(); } }; /*! * Flush the cache into the json file if necessary * @param {Function} callback */ Memory.prototype.saveToFile = function (result, callback) { var self = this; var file = this.settings.file; var hasLocalStorage = typeof window !== 'undefined' && window.localStorage; var localStorage = hasLocalStorage && this.settings.localStorage; if (file) { if(!self.writeQueue) { // Create a queue for writes self.writeQueue = async.queue(function (task, cb) { // Flush out the models/ids var data = JSON.stringify({ ids: self.ids, models: self.cache }, null, ' '); fs.writeFile(self.settings.file, data, function (err) { cb(err); task.callback && task.callback(err, task.data); }); }, 1); } // Enqueue the write self.writeQueue.push({ data: result, callback: callback }); } else if (localStorage) { // Flush out the models/ids var data = JSON.stringify({ ids: self.ids, models: self.cache }, null, ' '); window.localStorage.setItem(localStorage, data); process.nextTick(function () { callback && callback(null, result); }); } else { process.nextTick(function () { callback && callback(null, result); }); } }; Memory.prototype.define = function defineModel(definition) { this.constructor.super_.prototype.define.apply(this, [].slice.call(arguments)); var m = definition.model.modelName; if(!this.collection(m)) this.initCollection(m); }; Memory.prototype.create = function create(model, data, options, callback) { // FIXME: [rfeng] We need to generate unique ids based on the id type // FIXME: [rfeng] We don't support composite ids yet var currentId = this.collectionSeq(model); if (currentId === undefined) { // First time currentId = this.collectionSeq(model, 1); } var id = this.getIdValue(model, data) || currentId; if (id > currentId) { // If the id is passed in and the value is greater than the current id currentId = id; } this.collectionSeq(model, Number(currentId) + 1); var props = this._models[model].properties; var idName = this.idName(model); id = (props[idName] && props[idName].type && props[idName].type(id)) || id; this.setIdValue(model, data, id); if(!this.collection(model)) { this.collection(model, {}); } if (this.collection(model)[id]) { return process.nextTick(function() { callback(new Error('Duplicate entry for ' + model + '.' + idName)); }); } this.collection(model)[id] = serialize(data); this.saveToFile(id, callback); }; Memory.prototype.updateOrCreate = function (model, data, options, callback) { var self = this; this.exists(model, self.getIdValue(model, data), options, function (err, exists) { if (exists) { self.save(model, data, options, function(err, data) { callback(err, data, { isNewInstance: false }); }); } else { self.create(model, data, options, function (err, id) { self.setIdValue(model, data, id); callback(err, data, { isNewInstance: true }); }); } }); }; Memory.prototype.save = function save(model, data, options, callback) { var self = this; var id = this.getIdValue(model, data); var cachedModels = this.collection(model); var modelData = cachedModels && this.collection(model)[id]; modelData = modelData && deserialize(modelData); if (modelData) { data = merge(modelData, data); } this.collection(model)[id] = serialize(data); this.saveToFile(data, function(err) { callback(err, self.fromDb(model, data), { isNewInstance: !modelData }); }); }; Memory.prototype.exists = function exists(model, id, options, callback) { process.nextTick(function () { callback(null, this.collection(model) && this.collection(model).hasOwnProperty(id)); }.bind(this)); }; Memory.prototype.find = function find(model, id, options, callback) { process.nextTick(function () { callback(null, id in this.collection(model) && this.fromDb(model, this.collection(model)[id])); }.bind(this)); }; Memory.prototype.destroy = function destroy(model, id, options, callback) { delete this.collection(model)[id]; this.saveToFile(null, callback); }; Memory.prototype.fromDb = function (model, data) { if (!data) return null; data = deserialize(data); var props = this._models[model].properties; for (var key in data) { var val = data[key]; if (val === undefined || val === null) { continue; } if (props[key]) { switch (props[key].type.name) { case 'Date': val = new Date(val.toString().replace(/GMT.*$/, 'GMT')); break; case 'Boolean': val = Boolean(val); break; case 'Number': val = Number(val); break; } } data[key] = val; } return data; }; function getValue(obj, path) { if (obj == null) { return undefined; } var keys = path.split('.'); var val = obj; for (var i = 0, n = keys.length; i < n; i++) { val = val[keys[i]]; if (val == null) { return val; } } return val; } Memory.prototype.all = function all(model, filter, options, callback) { var self = this; var nodes = Object.keys(this.collection(model)).map(function (key) { return this.fromDb(model, this.collection(model)[key]); }.bind(this)); if (filter) { if (!filter.order) { var idNames = this.idNames(model); if (idNames && idNames.length) { filter.order = idNames; } } // do we need some sorting? if (filter.order) { var orders = filter.order; if (typeof filter.order === "string") { orders = [filter.order]; } orders.forEach(function (key, i) { var reverse = 1; var m = key.match(/\s+(A|DE)SC$/i); if (m) { key = key.replace(/\s+(A|DE)SC/i, ''); if (m[1].toLowerCase() === 'de') reverse = -1; } orders[i] = {"key": key, "reverse": reverse}; }); nodes = nodes.sort(sorting.bind(orders)); } var nearFilter = geo.nearFilter(filter.where); // geo sorting if (nearFilter) { nodes = geo.filter(nodes, nearFilter); } // do we need some filtration? if (filter.where) { nodes = nodes ? nodes.filter(applyFilter(filter)) : nodes; } // field selection if (filter.fields) { nodes = nodes.map(utils.selectFields(filter.fields)); } // limit/skip var skip = filter.skip || filter.offset || 0; var limit = filter.limit || nodes.length; nodes = nodes.slice(skip, skip + limit); } process.nextTick(function () { if (filter && filter.include) { self._models[model].model.include(nodes, filter.include, options, callback); } else { callback(null, nodes); } }); function sorting(a, b) { var undefinedA, undefinedB; for (var i = 0, l = this.length; i < l; i++) { var aVal = getValue(a, this[i].key); var bVal = getValue(b, this[i].key); undefinedB = bVal === undefined && aVal !== undefined; undefinedA = aVal === undefined && bVal !== undefined; if (undefinedB || aVal > bVal) { return 1 * this[i].reverse; } else if (undefinedA || aVal < bVal) { return -1 * this[i].reverse; } } return 0; } }; function applyFilter(filter) { var where = filter.where; if (typeof where === 'function') { return where; } var keys = Object.keys(where); return function (obj) { var pass = true; keys.forEach(function (key) { if(key === 'and' || key === 'or') { if(Array.isArray(where[key])) { if(key === 'and') { pass = where[key].every(function(cond) { return applyFilter({where: cond})(obj); }); return pass; } if(key === 'or') { pass = where[key].some(function(cond) { return applyFilter({where: cond})(obj); }); return pass; } } } if (!test(where[key], getValue(obj, key))) { pass = false; } }); return pass; } function toRegExp(pattern) { if (pattern instanceof RegExp) { return pattern; } var regex = ''; // Escaping user input to be treated as a literal string within a regular expression // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Guide/Regular_Expressions#Writing_a_Regular_Expression_Pattern pattern = pattern.replace(/([.*+?^=!:${}()|\[\]\/\\])/g, "\\$1"); for (var i = 0, n = pattern.length; i < n; i++) { var char = pattern.charAt(i); if (char === '\\') { i++; // Skip to next char if (i < n) { regex += pattern.charAt(i); } continue; } else if (char === '%') { regex += '.*'; } else if (char === '_') { regex += '.'; } else if (char === '.') { regex += '\\.'; } else if (char === '*') { regex += '\\*'; } else { regex += char; } } return regex; } function test(example, value) { if (typeof value === 'string' && (example instanceof RegExp)) { return value.match(example); } if (example === undefined) { return undefined; } if (typeof example === 'object' && example !== null) { // ignore geo near filter if (example.near) { return true; } if (example.inq) { // if (!value) return false; for (var i = 0; i < example.inq.length; i++) { if (example.inq[i] == value) { return true; } } return false; } if ('neq' in example) { return compare(example.neq, value) !== 0; } if ('between' in example ) { return ( testInEquality({gte:example.between[0]}, value) && testInEquality({lte:example.between[1]}, value) ); } if (example.like || example.nlike) { var like = example.like || example.nlike; if (typeof like === 'string') { like = toRegExp(like); } if (example.like) { return !!new RegExp(like).test(value); } if (example.nlike) { return !new RegExp(like).test(value); } } if (testInEquality(example, value)) { return true; } } // not strict equality return (example !== null ? example.toString() : example) == (value != null ? value.toString() : value); } /** * Compare two values * @param {*} val1 The 1st value * @param {*} val2 The 2nd value * @returns {number} 0: =, positive: >, negative < * @private */ function compare(val1, val2) { if(val1 == null || val2 == null) { // Either val1 or val2 is null or undefined return val1 == val2 ? 0 : NaN; } if (typeof val1 === 'number') { return val1 - val2; } if (typeof val1 === 'string') { return (val1 > val2) ? 1 : ((val1 < val2) ? -1 : (val1 == val2) ? 0 : NaN); } if (typeof val1 === 'boolean') { return val1 - val2; } if (val1 instanceof Date) { var result = val1 - val2; return result; } // Return NaN if we don't know how to compare return (val1 == val2) ? 0 : NaN; } function testInEquality(example, val) { if ('gt' in example) { return compare(val, example.gt) > 0; } if ('gte' in example) { return compare(val, example.gte) >= 0; } if ('lt' in example) { return compare(val, example.lt) < 0; } if ('lte' in example) { return compare(val, example.lte) <= 0; } return false; } } Memory.prototype.destroyAll = function destroyAll(model, where, options, callback) { var cache = this.collection(model); var filter = null; var count = 0; if (where) { filter = applyFilter({where: where}); Object.keys(cache).forEach(function (id) { if (!filter || filter(this.fromDb(model, cache[id]))) { count++; delete cache[id]; } }.bind(this)); } else { count = Object.keys(cache).length; this.collection(model, {}); } this.saveToFile({ count: count }, callback); }; Memory.prototype.count = function count(model, where, options, callback) { var cache = this.collection(model); var data = Object.keys(cache); if (where) { var filter = {where: where}; data = data.map(function (id) { return this.fromDb(model, cache[id]); }.bind(this)); data = data.filter(applyFilter(filter)); } process.nextTick(function () { callback(null, data.length); }); }; Memory.prototype.update = Memory.prototype.updateAll = function updateAll(model, where, data, options, cb) { var self = this; var cache = this.collection(model); var filter = null; where = where || {}; filter = applyFilter({where: where}); var ids = Object.keys(cache); var count = 0; async.each(ids, function (id, done) { var inst = self.fromDb(model, cache[id]); if (!filter || filter(inst)) { count++; // The id value from the cache is string // Get the real id from the inst id = self.getIdValue(model, inst); self.updateAttributes(model, id, data, options, done); } else { process.nextTick(done); } }, function (err) { if (err) return cb(err); self.saveToFile({count: count}, cb); }); }; Memory.prototype.updateAttributes = function updateAttributes(model, id, data, options, cb) { if (!id) { var err = new Error('You must provide an id when updating attributes!'); if (cb) { return cb(err); } else { throw err; } } // Do not modify the data object passed in arguments data = Object.create(data); this.setIdValue(model, data, id); var cachedModels = this.collection(model); var modelData = cachedModels && this.collection(model)[id]; if (modelData) { this.save(model, data, options, cb); } else { cb(new Error('Could not update attributes. Object with id ' + id + ' does not exist!')); } }; Memory.prototype.transaction = function () { return new Memory(this); }; Memory.prototype.exec = function (callback) { this.onTransactionExec(); setTimeout(callback, 50); }; Memory.prototype.buildNearFilter = function (filter) { // noop } Memory.prototype.automigrate = function (models, cb) { var self = this; if ((!cb) && ('function' === typeof models)) { cb = models; models = undefined; } // First argument is a model name if ('string' === typeof models) { models = [models]; } models = models || Object.keys(self._models); if (models.length === 0) { return process.nextTick(cb); } var invalidModels = models.filter(function(m) { return !(m in self._models); }); if (invalidModels.length) { return process.nextTick(function() { cb(new Error('Cannot migrate models not attached to this datasource: ' + invalidModels.join(' '))); }); } models.forEach(function(m) { self.initCollection(m); }); if (cb) process.nextTick(cb); } function merge(base, update) { if (!base) { return update; } // We cannot use Object.keys(update) if the update is an instance of the model // class as the properties are defined at the ModelClass.prototype level for(var key in update) { var val = update[key]; if(typeof val === 'function') { continue; // Skip methods } base[key] = val; } return base; }