var customUtils = require('./customUtils') , model = require('./model') , async = require('async') , Executor = require('./executor') , Index = require('./indexes') , util = require('util') , _ = require('underscore') , Persistence = require('./persistence') ; /** * Create a new collection * @param {String} options.filename Optional, datastore will be in-memory only if not provided * @param {Boolean} options.inMemoryOnly Optional, default to false * @param {Boolean} options.nodeWebkitAppName Optional, specify the name of your NW app if you want options.filename to be relative to the directory where * Node Webkit stores application data such as cookies and local storage (the best place to store data in my opinion) * @param {Boolean} options.autoload Optional, defaults to false */ function Datastore (options) { var filename; // Retrocompatibility with v0.6 and before if (typeof options === 'string') { filename = options; this.inMemoryOnly = false; // Default } else { options = options || {}; filename = options.filename; this.inMemoryOnly = options.inMemoryOnly || false; this.autoload = options.autoload || false; } // Determine whether in memory or persistent if (!filename || typeof filename !== 'string' || filename.length === 0) { this.filename = null; this.inMemoryOnly = true; } else { this.filename = filename; } // Persistence handling this.persistence = new Persistence({ db: this, nodeWebkitAppName: options.nodeWebkitAppName }); // This new executor is ready if we don't use persistence // If we do, it will only be ready once loadDatabase is called this.executor = new Executor(); if (this.inMemoryOnly) { this.executor.ready = true; } // Indexed by field name, dot notation can be used // _id is always indexed and since _ids are generated randomly the underlying // binary is always well-balanced this.indexes = {}; this.indexes._id = new Index({ fieldName: '_id', unique: true }); if (this.autoload) { this.loadDatabase(); } } /** * Load the database from the datafile, and trigger the execution of buffered commands if any */ Datastore.prototype.loadDatabase = function () { this.executor.push({ this: this.persistence, fn: this.persistence.loadDatabase, arguments: arguments }, true); }; /** * Get an array of all the data in the database */ Datastore.prototype.getAllData = function () { return this.indexes._id.getAll(); }; /** * Reset all currently defined indexes */ Datastore.prototype.resetIndexes = function (newData) { var self = this; Object.keys(this.indexes).forEach(function (i) { self.indexes[i].reset(newData); }); }; /** * Ensure an index is kept for this field. Same parameters as lib/indexes * For now this function is synchronous, we need to test how much time it takes * We use an async API for consistency with the rest of the code * @param {String} options.fieldName * @param {Boolean} options.unique * @param {Boolean} options.sparse * @param {Function} cb Optional callback, signature: err */ Datastore.prototype.ensureIndex = function (options, cb) { var callback = cb || function () {}; options = options || {}; if (!options.fieldName) { return callback({ missingFieldName: true }); } if (this.indexes[options.fieldName]) { return callback(null); } this.indexes[options.fieldName] = new Index(options); try { this.indexes[options.fieldName].insert(this.getAllData()); } catch (e) { delete this.indexes[options.fieldName]; return callback(e); } this.persistence.persistNewState([{ $$indexCreated: options }], function (err) { if (err) { return callback(err); } return callback(null); }); }; /** * Add one or several document(s) to all indexes */ Datastore.prototype.addToIndexes = function (doc) { var i, failingIndex, error , keys = Object.keys(this.indexes) ; for (i = 0; i < keys.length; i += 1) { try { this.indexes[keys[i]].insert(doc); } catch (e) { failingIndex = i; error = e; break; } } // If an error happened, we need to rollback the insert on all other indexes if (error) { for (i = 0; i < failingIndex; i += 1) { this.indexes[keys[i]].remove(doc); } throw error; } }; /** * Remove one or several document(s) from all indexes */ Datastore.prototype.removeFromIndexes = function (doc) { var self = this; Object.keys(this.indexes).forEach(function (i) { self.indexes[i].remove(doc); }); }; /** * Update one or several documents in all indexes * To update multiple documents, oldDoc must be an array of { oldDoc, newDoc } pairs * If one update violates a constraint, all changes are rolled back */ Datastore.prototype.updateIndexes = function (oldDoc, newDoc) { var i, failingIndex, error , keys = Object.keys(this.indexes) ; for (i = 0; i < keys.length; i += 1) { try { this.indexes[keys[i]].update(oldDoc, newDoc); } catch (e) { failingIndex = i; error = e; break; } } // If an error happened, we need to rollback the update on all other indexes if (error) { for (i = 0; i < failingIndex; i += 1) { this.indexes[keys[i]].revertUpdate(oldDoc, newDoc); } throw error; } }; /** * Return the list of candidates for a given query * Crude implementation for now, we return the candidates given by the first usable index if any * We try the following query types, in this order: basic match, $in match, comparison match * One way to make it better would be to enable the use of multiple indexes if the first usable index * returns too much data. I may do it in the future. */ Datastore.prototype.getCandidates = function (query) { var indexNames = Object.keys(this.indexes) , usableQueryKeys; // For a basic match usableQueryKeys = []; Object.keys(query).forEach(function (k) { if (typeof query[k] === 'string' || typeof query[k] === 'number' || typeof query[k] === 'boolean' || util.isDate(query[k]) || query[k] === null) { usableQueryKeys.push(k); } }); usableQueryKeys = _.intersection(usableQueryKeys, indexNames); if (usableQueryKeys.length > 0) { return this.indexes[usableQueryKeys[0]].getMatching(query[usableQueryKeys[0]]); } // For a $in match usableQueryKeys = []; Object.keys(query).forEach(function (k) { if (query[k] && query[k].hasOwnProperty('$in')) { usableQueryKeys.push(k); } }); usableQueryKeys = _.intersection(usableQueryKeys, indexNames); if (usableQueryKeys.length > 0) { return this.indexes[usableQueryKeys[0]].getMatching(query[usableQueryKeys[0]].$in); } // For a comparison match usableQueryKeys = []; Object.keys(query).forEach(function (k) { if (query[k] && (query[k].hasOwnProperty('$lt') || query[k].hasOwnProperty('$lte') || query[k].hasOwnProperty('$gt') || query[k].hasOwnProperty('$gte'))) { usableQueryKeys.push(k); } }); usableQueryKeys = _.intersection(usableQueryKeys, indexNames); if (usableQueryKeys.length > 0) { return this.indexes[usableQueryKeys[0]].getBetweenBounds(query[usableQueryKeys[0]]); } // By default, return all the DB data return this.getAllData(); }; /** * Insert a new document * @param {Function} cb Optional callback, signature: err, insertedDoc * * @api private Use Datastore.insert which has the same signature */ Datastore.prototype._insert = function (newDoc, cb) { var callback = cb || function () {} ; try { this._insertInCache(newDoc); } catch (e) { return callback(e); } this.persistence.persistNewState(util.isArray(newDoc) ? newDoc : [newDoc], function (err) { if (err) { return callback(err); } return callback(null, newDoc); }); }; /** * Prepare a document (or array of documents) to be inserted in a database * @api private */ Datastore.prototype.prepareDocumentForInsertion = function (newDoc) { var preparedDoc, self = this; if (util.isArray(newDoc)) { preparedDoc = []; newDoc.forEach(function (doc) { preparedDoc.push(self.prepareDocumentForInsertion(doc)); }); } else { newDoc._id = customUtils.uid(16); preparedDoc = model.deepCopy(newDoc); model.checkObject(preparedDoc); } return preparedDoc; }; /** * If newDoc is an array of documents, this will insert all documents in the cache * @api private */ Datastore.prototype._insertInCache = function (newDoc) { if (util.isArray(newDoc)) { this._insertMultipleDocsInCache(newDoc); } else { this.addToIndexes(this.prepareDocumentForInsertion(newDoc)); } }; /** * If one insertion fails (e.g. because of a unique constraint), roll back all previous * inserts and throws the error * @api private */ Datastore.prototype._insertMultipleDocsInCache = function (newDocs) { var i, failingI, error , preparedDocs = this.prepareDocumentForInsertion(newDocs) ; for (i = 0; i < preparedDocs.length; i += 1) { try { this.addToIndexes(preparedDocs[i]); } catch (e) { error = e; failingI = i; break; } } if (error) { for (i = 0; i < failingI; i += 1) { this.removeFromIndexes(preparedDocs[i]); } throw error; } }; Datastore.prototype.insert = function () { this.executor.push({ this: this, fn: this._insert, arguments: arguments }); }; /** * Count all documents matching the query * @param {Object} query MongoDB-style query * * @api private Use count */ Datastore.prototype._count = function(query, callback) { var res = 0 , self = this , candidates = this.getCandidates(query) , i ; try { for (i = 0; i < candidates.length; i += 1) { if (model.match(candidates[i], query)) { res++; } } } catch (err) { return callback(err); } return callback(null, res); } Datastore.prototype.count = function() { this.executor.push({this: this, fn: this._count, arguments: arguments }); } /** * Find all documents matching the query * @param {Object} query MongoDB-style query * * @api private Use find */ Datastore.prototype._find = function (query, callback) { var res = [] , self = this , candidates = this.getCandidates(query) , i ; try { for (i = 0; i < candidates.length; i += 1) { if (model.match(candidates[i], query)) { res.push(model.deepCopy(candidates[i])); } } } catch (err) { return callback(err); } return callback(null, res); }; Datastore.prototype.find = function () { this.executor.push({ this: this, fn: this._find, arguments: arguments }); }; /** * Find one document matching the query * @param {Object} query MongoDB-style query * * @api private Use findOne */ Datastore.prototype._findOne = function (query, callback) { var self = this , candidates = this.getCandidates(query) , i, found = null ; try { for (i = 0; i < candidates.length; i += 1) { if (model.match(candidates[i], query)) { found = model.deepCopy(candidates[i]); } } } catch (err) { return callback(err); } return callback(null, found); }; Datastore.prototype.findOne = function () { this.executor.push({ this: this, fn: this._findOne, arguments: arguments }); }; /** * Update all docs matching query * For now, very naive implementation (recalculating the whole database) * @param {Object} query * @param {Object} updateQuery * @param {Object} options Optional options * options.multi If true, can update multiple documents (defaults to false) * options.upsert If true, document is inserted if the query doesn't match anything * @param {Function} cb Optional callback, signature: err, numReplaced, upsert (set to true if the update was in fact an upsert) * * @api private Use Datastore.update which has the same signature */ Datastore.prototype._update = function (query, updateQuery, options, cb) { var callback , self = this , numReplaced = 0 , multi, upsert , i ; if (typeof options === 'function') { cb = options; options = {}; } callback = cb || function () {}; multi = options.multi !== undefined ? options.multi : false; upsert = options.upsert !== undefined ? options.upsert : false; async.waterfall([ function (cb) { // If upsert option is set, check whether we need to insert the doc if (!upsert) { return cb(); } self._findOne(query, function (err, doc) { if (err) { return callback(err); } if (doc) { return cb(); } else { // The upserted document is the query (since for now queries have the same structure as // documents), modified by the updateQuery return self._insert(model.modify(query, updateQuery), function (err) { if (err) { return callback(err); } return callback(null, 1, true); }); } }); } , function () { // Perform the update var modifiedDoc , candidates = self.getCandidates(query) , modifications = [] ; // Preparing update (if an error is thrown here neither the datafile nor // the in-memory indexes are affected) try { for (i = 0; i < candidates.length; i += 1) { if (model.match(candidates[i], query) && (multi || numReplaced === 0)) { numReplaced += 1; modifiedDoc = model.modify(candidates[i], updateQuery); modifications.push({ oldDoc: candidates[i], newDoc: modifiedDoc }); } } } catch (err) { return callback(err); } // Change the docs in memory try { self.updateIndexes(modifications); } catch (err) { return callback(err); } // Update the datafile self.persistence.persistNewState(_.pluck(modifications, 'newDoc'), function (err) { if (err) { return callback(err); } return callback(null, numReplaced); }); } ]); }; Datastore.prototype.update = function () { this.executor.push({ this: this, fn: this._update, arguments: arguments }); }; /** * Remove all docs matching the query * For now very naive implementation (similar to update) * @param {Object} query * @param {Object} options Optional options * options.multi If true, can update multiple documents (defaults to false) * @param {Function} cb Optional callback, signature: err, numRemoved * * @api private Use Datastore.remove which has the same signature */ Datastore.prototype._remove = function (query, options, cb) { var callback , self = this , numRemoved = 0 , multi , removedDocs = [] , candidates = this.getCandidates(query) ; if (typeof options === 'function') { cb = options; options = {}; } callback = cb || function () {}; multi = options.multi !== undefined ? options.multi : false; try { candidates.forEach(function (d) { if (model.match(d, query) && (multi || numRemoved === 0)) { numRemoved += 1; removedDocs.push({ $$deleted: true, _id: d._id }); self.removeFromIndexes(d); } }); } catch (err) { return callback(err); } self.persistence.persistNewState(removedDocs, function (err) { if (err) { return callback(err); } return callback(null, numRemoved); }); }; Datastore.prototype.remove = function () { this.executor.push({ this: this, fn: this._remove, arguments: arguments }); }; module.exports = Datastore;