'use strict'; const applyWriteConcern = require('../utils').applyWriteConcern; const Code = require('../core').BSON.Code; const createIndexDb = require('./db_ops').createIndex; const decorateWithCollation = require('../utils').decorateWithCollation; const decorateWithReadConcern = require('../utils').decorateWithReadConcern; const ensureIndexDb = require('./db_ops').ensureIndex; const evaluate = require('./db_ops').evaluate; const executeCommand = require('./db_ops').executeCommand; const handleCallback = require('../utils').handleCallback; const indexInformationDb = require('./db_ops').indexInformation; const Long = require('../core').BSON.Long; const MongoError = require('../core').MongoError; const ReadPreference = require('../core').ReadPreference; const insertDocuments = require('./common_functions').insertDocuments; const updateDocuments = require('./common_functions').updateDocuments; /** * Group function helper * @ignore */ // var groupFunction = function () { // var c = db[ns].find(condition); // var map = new Map(); // var reduce_function = reduce; // // while (c.hasNext()) { // var obj = c.next(); // var key = {}; // // for (var i = 0, len = keys.length; i < len; ++i) { // var k = keys[i]; // key[k] = obj[k]; // } // // var aggObj = map.get(key); // // if (aggObj == null) { // var newObj = Object.extend({}, key); // aggObj = Object.extend(newObj, initial); // map.put(key, aggObj); // } // // reduce_function(obj, aggObj); // } // // return { "result": map.values() }; // }.toString(); const groupFunction = 'function () {\nvar c = db[ns].find(condition);\nvar map = new Map();\nvar reduce_function = reduce;\n\nwhile (c.hasNext()) {\nvar obj = c.next();\nvar key = {};\n\nfor (var i = 0, len = keys.length; i < len; ++i) {\nvar k = keys[i];\nkey[k] = obj[k];\n}\n\nvar aggObj = map.get(key);\n\nif (aggObj == null) {\nvar newObj = Object.extend({}, key);\naggObj = Object.extend(newObj, initial);\nmap.put(key, aggObj);\n}\n\nreduce_function(obj, aggObj);\n}\n\nreturn { "result": map.values() };\n}'; /** * Create an index on the db and collection. * * @method * @param {Collection} a Collection instance. * @param {(string|object)} fieldOrSpec Defines the index. * @param {object} [options] Optional settings. See Collection.prototype.createIndex for a list of options. * @param {Collection~resultCallback} [callback] The command result callback */ function createIndex(coll, fieldOrSpec, options, callback) { createIndexDb(coll.s.db, coll.collectionName, fieldOrSpec, options, callback); } /** * Create multiple indexes in the collection. This method is only supported for * MongoDB 2.6 or higher. Earlier version of MongoDB will throw a command not supported * error. Index specifications are defined at http://docs.mongodb.org/manual/reference/command/createIndexes/. * * @method * @param {Collection} a Collection instance. * @param {array} indexSpecs An array of index specifications to be created * @param {Object} [options] Optional settings. See Collection.prototype.createIndexes for a list of options. * @param {Collection~resultCallback} [callback] The command result callback */ function createIndexes(coll, indexSpecs, options, callback) { const capabilities = coll.s.topology.capabilities(); // Ensure we generate the correct name if the parameter is not set for (let i = 0; i < indexSpecs.length; i++) { if (indexSpecs[i].name == null) { const keys = []; // Did the user pass in a collation, check if our write server supports it if (indexSpecs[i].collation && capabilities && !capabilities.commandsTakeCollation) { return callback(new MongoError('server/primary/mongos does not support collation')); } for (let name in indexSpecs[i].key) { keys.push(`${name}_${indexSpecs[i].key[name]}`); } // Set the name indexSpecs[i].name = keys.join('_'); } } options = Object.assign({}, options, { readPreference: ReadPreference.PRIMARY }); // Execute the index executeCommand( coll.s.db, { createIndexes: coll.collectionName, indexes: indexSpecs }, options, callback ); } /** * Ensure that an index exists. If the index does not exist, this function creates it. * * @method * @param {Collection} a Collection instance. * @param {(string|object)} fieldOrSpec Defines the index. * @param {object} [options] Optional settings. See Collection.prototype.ensureIndex for a list of options. * @param {Collection~resultCallback} [callback] The command result callback */ function ensureIndex(coll, fieldOrSpec, options, callback) { ensureIndexDb(coll.s.db, coll.collectionName, fieldOrSpec, options, callback); } /** * Run a group command across a collection. * * @method * @param {Collection} a Collection instance. * @param {(object|array|function|code)} keys An object, array or function expressing the keys to group by. * @param {object} condition An optional condition that must be true for a row to be considered. * @param {object} initial Initial value of the aggregation counter object. * @param {(function|Code)} reduce The reduce function aggregates (reduces) the objects iterated * @param {(function|Code)} finalize An optional function to be run on each item in the result set just before the item is returned. * @param {boolean} command Specify if you wish to run using the internal group command or using eval, default is true. * @param {object} [options] Optional settings. See Collection.prototype.group for a list of options. * @param {Collection~resultCallback} [callback] The command result callback * @deprecated MongoDB 3.6 or higher will no longer support the group command. We recommend rewriting using the aggregation framework. */ function group(coll, keys, condition, initial, reduce, finalize, command, options, callback) { // Execute using the command if (command) { const reduceFunction = reduce && reduce._bsontype === 'Code' ? reduce : new Code(reduce); const selector = { group: { ns: coll.collectionName, $reduce: reduceFunction, cond: condition, initial: initial, out: 'inline' } }; // if finalize is defined if (finalize != null) selector.group['finalize'] = finalize; // Set up group selector if ('function' === typeof keys || (keys && keys._bsontype === 'Code')) { selector.group.$keyf = keys && keys._bsontype === 'Code' ? keys : new Code(keys); } else { const hash = {}; keys.forEach(key => { hash[key] = 1; }); selector.group.key = hash; } options = Object.assign({}, options); // Ensure we have the right read preference inheritance options.readPreference = ReadPreference.resolve(coll, options); // Do we have a readConcern specified decorateWithReadConcern(selector, coll, options); // Have we specified collation try { decorateWithCollation(selector, coll, options); } catch (err) { return callback(err, null); } // Execute command executeCommand(coll.s.db, selector, options, (err, result) => { if (err) return handleCallback(callback, err, null); handleCallback(callback, null, result.retval); }); } else { // Create execution scope const scope = reduce != null && reduce._bsontype === 'Code' ? reduce.scope : {}; scope.ns = coll.collectionName; scope.keys = keys; scope.condition = condition; scope.initial = initial; // Pass in the function text to execute within mongodb. const groupfn = groupFunction.replace(/ reduce;/, reduce.toString() + ';'); evaluate(coll.s.db, new Code(groupfn, scope), null, options, (err, results) => { if (err) return handleCallback(callback, err, null); handleCallback(callback, null, results.result || results); }); } } /** * Retrieve all the indexes on the collection. * * @method * @param {Collection} a Collection instance. * @param {Object} [options] Optional settings. See Collection.prototype.indexes for a list of options. * @param {Collection~resultCallback} [callback] The command result callback */ function indexes(coll, options, callback) { options = Object.assign({}, { full: true }, options); indexInformationDb(coll.s.db, coll.collectionName, options, callback); } /** * Check if one or more indexes exist on the collection. This fails on the first index that doesn't exist. * * @method * @param {Collection} a Collection instance. * @param {(string|array)} indexes One or more index names to check. * @param {Object} [options] Optional settings. See Collection.prototype.indexExists for a list of options. * @param {Collection~resultCallback} [callback] The command result callback */ function indexExists(coll, indexes, options, callback) { indexInformation(coll, options, (err, indexInformation) => { // If we have an error return if (err != null) return handleCallback(callback, err, null); // Let's check for the index names if (!Array.isArray(indexes)) return handleCallback(callback, null, indexInformation[indexes] != null); // Check in list of indexes for (let i = 0; i < indexes.length; i++) { if (indexInformation[indexes[i]] == null) { return handleCallback(callback, null, false); } } // All keys found return true return handleCallback(callback, null, true); }); } /** * Retrieve this collection's index info. * * @method * @param {Collection} a Collection instance. * @param {object} [options] Optional settings. See Collection.prototype.indexInformation for a list of options. * @param {Collection~resultCallback} [callback] The command result callback */ function indexInformation(coll, options, callback) { indexInformationDb(coll.s.db, coll.collectionName, options, callback); } /** * Return N parallel cursors for a collection to allow parallel reading of the entire collection. There are * no ordering guarantees for returned results. * * @method * @param {Collection} a Collection instance. * @param {object} [options] Optional settings. See Collection.prototype.parallelCollectionScan for a list of options. * @param {Collection~parallelCollectionScanCallback} [callback] The command result callback */ function parallelCollectionScan(coll, options, callback) { // Create command object const commandObject = { parallelCollectionScan: coll.collectionName, numCursors: options.numCursors }; // Do we have a readConcern specified decorateWithReadConcern(commandObject, coll, options); // Store the raw value const raw = options.raw; delete options['raw']; // Execute the command executeCommand(coll.s.db, commandObject, options, (err, result) => { if (err) return handleCallback(callback, err, null); if (result == null) return handleCallback( callback, new Error('no result returned for parallelCollectionScan'), null ); options = Object.assign({ explicitlyIgnoreSession: true }, options); const cursors = []; // Add the raw back to the option if (raw) options.raw = raw; // Create command cursors for each item for (let i = 0; i < result.cursors.length; i++) { const rawId = result.cursors[i].cursor.id; // Convert cursorId to Long if needed const cursorId = typeof rawId === 'number' ? Long.fromNumber(rawId) : rawId; // Add a command cursor cursors.push(coll.s.topology.cursor(coll.namespace, cursorId, options)); } handleCallback(callback, null, cursors); }); } /** * Save a document. * * @method * @param {Collection} a Collection instance. * @param {object} doc Document to save * @param {object} [options] Optional settings. See Collection.prototype.save for a list of options. * @param {Collection~writeOpCallback} [callback] The command result callback * @deprecated use insertOne, insertMany, updateOne or updateMany */ function save(coll, doc, options, callback) { // Get the write concern options const finalOptions = applyWriteConcern( Object.assign({}, options), { db: coll.s.db, collection: coll }, options ); // Establish if we need to perform an insert or update if (doc._id != null) { finalOptions.upsert = true; return updateDocuments(coll, { _id: doc._id }, doc, finalOptions, callback); } // Insert the document insertDocuments(coll, [doc], finalOptions, (err, result) => { if (callback == null) return; if (doc == null) return handleCallback(callback, null, null); if (err) return handleCallback(callback, err, null); handleCallback(callback, null, result); }); } module.exports = { createIndex, createIndexes, ensureIndex, group, indexes, indexExists, indexInformation, parallelCollectionScan, save };