// Copyright IBM Corp. 2014,2016. All Rights Reserved. // Node module: loopback-datasource-juggler // This file is licensed under the MIT License. // License text available at https://opensource.org/licenses/MIT 'use strict'; var jdb = require('../'); var DataSource = jdb.DataSource; var path = require('path'); var fs = require('fs'); var assert = require('assert'); var async = require('async'); var should = require('./init.js'); var Memory = require('../lib/connectors/memory').Memory; describe('Memory connector', function() { var file = path.join(__dirname, 'memory.json'); function readModels(done) { fs.readFile(file, function(err, data) { var json = JSON.parse(data.toString()); assert(json.models); assert(json.ids.User); done(err, json); }); } before(function(done) { fs.unlink(file, function(err) { if (!err || err.code === 'ENOENT') { done(); } }); }); describe('with file', function() { var ds; function createUserModel() { var ds = new DataSource({ connector: 'memory', file: file, }); var User = ds.createModel('User', { id: { type: Number, id: true, generated: true, }, name: String, bio: String, approved: Boolean, joinedAt: Date, age: Number, }); return User; } var User; var ids = []; before(function() { User = createUserModel(); ds = User.dataSource; }); it('should allow multiple connects', function(done) { ds.connected = false; // Change the state to force reconnect async.times(10, function(n, next) { ds.connect(next); }, done); }); it('should persist create', function(done) { var count = 0; async.eachSeries(['John1', 'John2', 'John3'], function(item, cb) { User.create({name: item}, function(err, result) { ids.push(result.id); count++; readModels(function(err, json) { assert.equal(Object.keys(json.models.User).length, count); cb(err); }); }); }, done); }); /** * This test depends on the `should persist create`, which creates 3 * records and saves into the `memory.json`. The following test makes * sure existing records won't be loaded out of sequence to override * newly created ones. */ it('should not have out of sequence read/write', function(done) { // Create the new data source with the same file to simulate // existing records var User = createUserModel(); var ds = User.dataSource; async.times(10, function(n, next) { if (n === 10) { // Make sure the connect finishes return ds.connect(next); } ds.connect(); next(); }, function(err) { async.eachSeries(['John4', 'John5'], function(item, cb) { var count = 0; User.create({name: item}, function(err, result) { ids.push(result.id); cb(err); }); }, function(err) { if (err) return done(err); readModels(function(err, json) { assert.equal(Object.keys(json.models.User).length, 5); done(); }); }); }); }); it('should persist delete', function(done) { // Force the data source to reconnect so that the updated records // are reloaded ds.disconnect(function() { // Now try to delete one User.deleteById(ids[0], function(err) { if (err) { return done(err); } readModels(function(err, json) { if (err) { return done(err); } assert.equal(Object.keys(json.models.User).length, 4); done(); }); }); }); }); it('should persist upsert', function(done) { User.upsert({id: ids[1], name: 'John'}, function(err, result) { if (err) { return done(err); } readModels(function(err, json) { if (err) { return done(err); } assert.equal(Object.keys(json.models.User).length, 4); var user = JSON.parse(json.models.User[ids[1]]); assert.equal(user.name, 'John'); assert(user.id === ids[1]); done(); }); }); }); it('should persist update', function(done) { User.update({id: ids[1]}, {name: 'John1'}, function(err, result) { if (err) { return done(err); } readModels(function(err, json) { if (err) { return done(err); } assert.equal(Object.keys(json.models.User).length, 4); var user = JSON.parse(json.models.User[ids[1]]); assert.equal(user.name, 'John1'); assert(user.id === ids[1]); done(); }); }); }); // The saved memory.json from previous test should be loaded it('should load from the json file', function(done) { User.find(function(err, users) { // There should be 2 records assert.equal(users.length, 4); done(err); }); }); }); describe('Query for memory connector', function() { var ds = new DataSource({ connector: 'memory', }); var User = ds.define('User', { seq: {type: Number, index: true}, name: {type: String, index: true, sort: true}, email: {type: String, index: true}, birthday: {type: Date, index: true}, role: {type: String, index: true}, order: {type: Number, index: true, sort: true}, vip: {type: Boolean}, address: { street: String, city: String, state: String, zipCode: String, tags: [ { tag: String, }, ], }, friends: [ { name: String, }, ], }); before(seed); it('should allow to find using like', function(done) { User.find({where: {name: {like: '%St%'}}}, function(err, posts) { should.not.exist(err); posts.should.have.property('length', 2); done(); }); }); it('should allow to find using like with regexp', function(done) { User.find({where: {name: {like: /.*St.*/}}}, function(err, posts) { should.not.exist(err); posts.should.have.property('length', 2); done(); }); }); it('should support like for no match', function(done) { User.find({where: {name: {like: 'M%XY'}}}, function(err, posts) { should.not.exist(err); posts.should.have.property('length', 0); done(); }); }); it('should allow to find using nlike', function(done) { User.find({where: {name: {nlike: '%St%'}}}, function(err, posts) { should.not.exist(err); posts.should.have.property('length', 4); done(); }); }); it('should allow to find using nlike with regexp', function(done) { User.find({where: {name: {nlike: /.*St.*/}}}, function(err, posts) { should.not.exist(err); posts.should.have.property('length', 4); done(); }); }); it('should support nlike for no match', function(done) { User.find({where: {name: {nlike: 'M%XY'}}}, function(err, posts) { should.not.exist(err); posts.should.have.property('length', 6); done(); }); }); it('should throw if the like value is not string or regexp', function(done) { User.find({where: {name: {like: 123}}}, function(err, posts) { should.exist(err); done(); }); }); it('should throw if the nlike value is not string or regexp', function(done) { User.find({where: {name: {nlike: 123}}}, function(err, posts) { should.exist(err); done(); }); }); it('should throw if the inq value is not an array', function(done) { User.find({where: {name: {inq: '12'}}}, function(err, posts) { should.exist(err); done(); }); }); it('should throw if the nin value is not an array', function(done) { User.find({where: {name: {nin: '12'}}}, function(err, posts) { should.exist(err); done(); }); }); it('should throw if the between value is not an array', function(done) { User.find({where: {name: {between: '12'}}}, function(err, posts) { should.exist(err); done(); }); }); it('should throw if the between value is not an array of length 2', function(done) { User.find({where: {name: {between: ['12']}}}, function(err, posts) { should.exist(err); done(); }); }); it('should successfully extract 5 users from the db', function(done) { User.find({where: {seq: {between: [1, 5]}}}, function(err, users) { should(users.length).be.equal(5); done(); }); }); it('should successfully extract 1 user (Lennon) from the db', function(done) { User.find({where: {birthday: {between: [new Date(1970, 0), new Date(1990, 0)]}}}, function(err, users) { should(users.length).be.equal(1); should(users[0].name).be.equal('John Lennon'); done(); }); }); it('should successfully extract 2 users from the db', function(done) { User.find({where: {birthday: {between: [new Date(1940, 0), new Date(1990, 0)]}}}, function(err, users) { should(users.length).be.equal(2); done(); }); }); it('should successfully extract 2 users using implied and', function(done) { User.find({where: {role: 'lead', vip: true}}, function(err, users) { should(users.length).be.equal(2); should(users[0].name).be.equal('John Lennon'); should(users[1].name).be.equal('Paul McCartney'); done(); }); }); it('should successfully extract 2 users using implied and & and', function(done) { User.find({where: { name: 'John Lennon', and: [{role: 'lead'}, {vip: true}], }}, function(err, users) { should(users.length).be.equal(1); should(users[0].name).be.equal('John Lennon'); done(); }); }); it('should successfully extract 2 users using date range', function(done) { User.find({where: {birthday: {between: [new Date(1940, 0).toISOString(), new Date(1990, 0).toISOString()]}}}, function(err, users) { should(users.length).be.equal(2); done(); }); }); it('should successfully extract 0 user from the db', function(done) { User.find({where: {birthday: {between: [new Date(1990, 0), Date.now()]}}}, function(err, users) { should(users.length).be.equal(0); done(); }); }); it('should successfully extract 2 users matching over array values', function(done) { User.find({ where: { children: { regexp: /an/, }, }, }, function(err, users) { should.not.exist(err); users.length.should.be.equal(2); users[0].name.should.be.equal('John Lennon'); users[1].name.should.be.equal('George Harrison'); done(); }); }); it('should successfully extract 1 users matching over array values', function(done) { User.find({ where: { children: 'Dhani', }, }, function(err, users) { should.not.exist(err); users.length.should.be.equal(1); users[0].name.should.be.equal('George Harrison'); done(); }); }); it('should successfully extract 5 users matching a neq filter over array values', function(done) { User.find({ where: { children: {neq: 'Dhani'}, }, }, function(err, users) { should.not.exist(err); users.length.should.be.equal(5); done(); }); }); it('should successfully extract 3 users with inq', function(done) { User.find({ where: {seq: {inq: [0, 1, 5]}}, }, function(err, users) { should.not.exist(err); users.length.should.be.equal(3); done(); }); }); it('should successfully extract 4 users with nin', function(done) { User.find({ where: {seq: {nin: [2, 3]}}, }, function(err, users) { should.not.exist(err); users.length.should.be.equal(4); done(); }); }); it('should count using date string', function(done) { User.count({birthday: {lt: new Date(1990, 0).toISOString()}}, function(err, count) { should(count).be.equal(2); done(); }); }); it('should support order with multiple fields', function(done) { User.find({order: 'vip ASC, seq DESC'}, function(err, posts) { should.not.exist(err); posts[0].seq.should.be.eql(4); posts[1].seq.should.be.eql(3); done(); }); }); it('should sort undefined values to the end when ordered DESC', function(done) { User.find({order: 'vip ASC, order DESC'}, function(err, posts) { should.not.exist(err); posts[4].seq.should.be.eql(1); posts[5].seq.should.be.eql(0); done(); }); }); it('should throw if order has wrong direction', function(done) { User.find({order: 'seq ABC'}, function(err, posts) { should.exist(err); done(); }); }); it('should support neq operator for number', function(done) { User.find({where: {seq: {neq: 4}}}, function(err, users) { should.not.exist(err); users.length.should.be.equal(5); for (var i = 0; i < users.length; i++) { users[i].seq.should.not.be.equal(4); } done(); }); }); it('should support neq operator for string', function(done) { User.find({where: {role: {neq: 'lead'}}}, function(err, users) { should.not.exist(err); users.length.should.be.equal(4); for (var i = 0; i < users.length; i++) { if (users[i].role) { users[i].role.not.be.equal('lead'); } } done(); }); }); it('should support neq operator for null', function(done) { User.find({where: {role: {neq: null}}}, function(err, users) { should.not.exist(err); users.length.should.be.equal(2); for (var i = 0; i < users.length; i++) { should.exist(users[i].role); } done(); }); }); it('should work when a regex is provided without the regexp operator', function(done) { User.find({where: {name: /John.*/i}}, function(err, users) { should.not.exist(err); users.length.should.equal(1); users[0].name.should.equal('John Lennon'); done(); }); }); it('should support the regexp operator with regex strings', function(done) { User.find({where: {name: {regexp: '^J'}}}, function(err, users) { should.not.exist(err); users.length.should.equal(1); users[0].name.should.equal('John Lennon'); done(); }); }); it('should support the regexp operator with regex literals', function(done) { User.find({where: {name: {regexp: /^J/}}}, function(err, users) { should.not.exist(err); users.length.should.equal(1); users[0].name.should.equal('John Lennon'); done(); }); }); it('should support the regexp operator with regex objects', function(done) { User.find({where: {name: {regexp: new RegExp(/^J/)}}}, function(err, users) { should.not.exist(err); users.length.should.equal(1); users[0].name.should.equal('John Lennon'); done(); }); }); it('should deserialize values after saving in upsert', function(done) { User.findOne({where: {seq: 1}}, function(err, paul) { User.updateOrCreate({id: paul.id, name: 'Sir Paul McCartney'}, function(err, sirpaul) { should.not.exist(err); sirpaul.birthday.should.be.instanceOf(Date); sirpaul.order.should.be.instanceOf(Number); sirpaul.vip.should.be.instanceOf(Boolean); done(); }); }); }); function seed(done) { var beatles = [ { seq: 0, name: 'John Lennon', email: 'john@b3atl3s.co.uk', role: 'lead', birthday: new Date('1980-12-08'), vip: true, address: { street: '123 A St', city: 'San Jose', state: 'CA', zipCode: '95131', tags: [ {tag: 'business'}, {tag: 'rent'}, ], }, friends: [ {name: 'Paul McCartney'}, {name: 'George Harrison'}, {name: 'Ringo Starr'}, ], children: ['Sean', 'Julian'], }, { seq: 1, name: 'Paul McCartney', email: 'paul@b3atl3s.co.uk', role: 'lead', birthday: new Date('1942-06-18'), order: 1, vip: true, address: { street: '456 B St', city: 'San Mateo', state: 'CA', zipCode: '94065', }, friends: [ {name: 'John Lennon'}, {name: 'George Harrison'}, {name: 'Ringo Starr'}, ], children: ['Stella', 'Mary', 'Heather', 'Beatrice', 'James'], }, {seq: 2, name: 'George Harrison', order: 5, vip: false, children: ['Dhani']}, {seq: 3, name: 'Ringo Starr', order: 6, vip: false}, {seq: 4, name: 'Pete Best', order: 4, children: []}, {seq: 5, name: 'Stuart Sutcliffe', order: 3, vip: true}, ]; async.series([ User.destroyAll.bind(User), function(cb) { async.each(beatles, User.create.bind(User), cb); }, ], done); } }); it('should use collection setting', function(done) { var ds = new DataSource({ connector: 'memory', }); var Product = ds.createModel('Product', { name: String, }); var Tool = ds.createModel('Tool', { name: String, }, {memory: {collection: 'Product'}}); var Widget = ds.createModel('Widget', { name: String, }, {memory: {collection: 'Product'}}); ds.connector.getCollection('Tool').should.equal('Product'); ds.connector.getCollection('Widget').should.equal('Product'); async.series([ function(next) { Tool.create({name: 'Tool A'}, next); }, function(next) { Tool.create({name: 'Tool B'}, next); }, function(next) { Widget.create({name: 'Widget A'}, next); }, ], function(err) { Product.find(function(err, products) { should.not.exist(err); products.should.have.length(3); products[0].toObject().should.eql({name: 'Tool A', id: 1}); products[1].toObject().should.eql({name: 'Tool B', id: 2}); products[2].toObject().should.eql({name: 'Widget A', id: 3}); done(); }); }); }); it('should refuse to create object with duplicate id', function(done) { var ds = new DataSource({connector: 'memory'}); var Product = ds.define('ProductTest', {name: String}, {forceId: false}); ds.automigrate('ProductTest', function(err) { if (err) return done(err); Product.create({name: 'a-name'}, function(err, p) { if (err) return done(err); Product.create({id: p.id, name: 'duplicate'}, function(err) { if (!err) { return done(new Error('Create should have rejected duplicate id.')); } err.message.should.match(/duplicate/i); err.statusCode.should.equal(409); done(); }); }); }); }); describe('automigrate', function() { var ds; beforeEach(function() { ds = new DataSource({ connector: 'memory', }); ds.createModel('m1', { name: String, }); }); it('automigrate all models', function(done) { ds.automigrate(function(err) { done(err); }); }); it('automigrate all models - promise variant', function(done) { ds.automigrate() .then(function(result) { done(); }) .catch(function(err) { done(err); }); }); it('automigrate one model', function(done) { ds.automigrate('m1', function(err) { done(err); }); }); it('automigrate one model - promise variant', function(done) { ds.automigrate('m1') .then(function(result) { done(); }) .catch(function(err) { done(err); }); }); it('automigrate one or more models in an array', function(done) { ds.automigrate(['m1'], function(err) { done(err); }); }); it('automigrate one or more models in an array - promise variant', function(done) { ds.automigrate(['m1']) .then(function(result) { done(); }) .catch(function(err) { done(err); }); }); it('automigrate reports errors for models not attached', function(done) { ds.automigrate(['m1', 'm2'], function(err) { err.should.be.an.instanceOf(Error); done(); }); }); it('automigrate reports errors for models not attached - promise variant', function(done) { ds.automigrate(['m1', 'm2']) .then(function() { done(new Error('automigrate() should have failed')); }) .catch(function(err) { err.should.be.an.instanceOf(Error); done(); }); }); }); describe('findOrCreate', function() { var ds, Cars; before(function() { ds = new DataSource({connector: 'memory'}); Cars = ds.define('Cars', { color: String, }); }); it('should create a specific object once and in the subsequent calls it should find it', function(done) { var creationNum = 0; async.times(100, function(n, next) { var initialData = {color: 'white'}; var query = {'where': initialData}; Cars.findOrCreate(query, initialData, function(err, car, created) { if (created) creationNum++; next(err, car); }); }, function(err, cars) { if (err) done(err); Cars.find(function(err, data) { if (err) done(err); data.length.should.equal(1); data[0].color.should.equal('white'); creationNum.should.equal(1); done(); }); }); }); }); describe('automigrate when NO models are attached', function() { var ds; beforeEach(function() { ds = new DataSource({ connector: 'memory', }); }); it('automigrate does NOT report error when NO models are attached', function(done) { ds.automigrate(function(err) { done(); }); }); it('automigrate does NOT report error when NO models are attached - promise variant', function(done) { ds.automigrate() .then(done) .catch(function(err) { done(err); }); }); }); describe('With mocked autoupdate', function() { var ds, model; beforeEach(function() { ds = new DataSource({ connector: 'memory', }); ds.connector.autoupdate = function(models, cb) { process.nextTick(cb); }; model = ds.createModel('m1', { name: String, }); ds.automigrate(); ds.createModel('m1', { name: String, address: String, }); }); it('autoupdates all models', function(done) { ds.autoupdate(function(err, result) { done(err); }); }); it('autoupdates all models - promise variant', function(done) { ds.autoupdate() .then(function(result) { done(); }) .catch(function(err) { done(err); }); }); it('autoupdates one model', function(done) { ds.autoupdate('m1', function(err) { done(err); }); }); it('autoupdates one model - promise variant', function(done) { ds.autoupdate('m1') .then(function(result) { done(); }) .catch(function(err) { done(err); }); }); it('autoupdates one or more models in an array', function(done) { ds.autoupdate(['m1'], function(err) { done(err); }); }); it('autoupdates one or more models in an array - promise variant', function(done) { ds.autoupdate(['m1']) .then(function(result) { done(); }) .catch(function(err) { done(err); }); }); it('autoupdate reports errors for models not attached', function(done) { ds.autoupdate(['m1', 'm2'], function(err) { err.should.be.an.instanceOf(Error); done(); }); }); it('autoupdate reports errors for models not attached - promise variant', function(done) { ds.autoupdate(['m1', 'm2']) .then(function() { done(new Error('automigrate() should have failed')); }) .catch(function(err) { err.should.be.an.instanceOf(Error); done(); }); }); }); }); describe('Optimized connector', function() { var ds = new DataSource({connector: Memory}); require('./persistence-hooks.suite')(ds, should, { replaceOrCreateReportsNewInstance: true, }); }); describe('Unoptimized connector', function() { var ds = new DataSource({connector: Memory}); // disable optimized methods ds.connector.updateOrCreate = false; ds.connector.findOrCreate = false; ds.connector.upsertWithWhere = false; require('./persistence-hooks.suite')(ds, should, { replaceOrCreateReportsNewInstance: true, }); }); describe('Memory connector with options', function() { var ds, savedOptions = {}, Post; before(function() { ds = new DataSource({connector: 'memory'}); ds.connector.create = function(model, data, options, cb) { savedOptions.create = options; process.nextTick(function() { cb(null, 1); }); }; ds.connector.update = function(model, where, data, options, cb) { savedOptions.update = options; process.nextTick(function() { cb(null, {count: 1}); }); }; ds.connector.all = function(model, filter, options, cb) { savedOptions.find = options; process.nextTick(function() { cb(null, [{title: 't1', content: 'c1'}]); }); }; Post = ds.define('Post', { title: String, content: String, }); }); it('should receive options from the find method', function(done) { var opts = {transaction: 'tx1'}; Post.find({where: {title: 't1'}}, opts, function(err, p) { savedOptions.find.should.be.eql(opts); done(err); }); }); it('should treat first object arg as filter for find', function(done) { var filter = {title: 't1'}; Post.find(filter, function(err, p) { savedOptions.find.should.be.eql({}); done(err); }); }); it('should receive options from the create method', function(done) { var opts = {transaction: 'tx3'}; Post.create({title: 't1', content: 'c1'}, opts, function(err, p) { savedOptions.create.should.be.eql(opts); done(err); }); }); it('should receive options from the update method', function(done) { var opts = {transaction: 'tx4'}; Post.update({title: 't1'}, {content: 'c1 --> c2'}, opts, function(err, p) { savedOptions.update.should.be.eql(opts); done(err); }); }); }); describe('Memory connector with observers', function() { var ds = new DataSource({ connector: 'memory', }); it('should have observer mixed into the connector', function() { ds.connector.observe.should.be.a.function; ds.connector.notifyObserversOf.should.be.a.function; }); it('should notify observers', function(done) { var events = []; ds.connector.execute = function(command, params, options, cb) { var self = this; var context = {command: command, params: params, options: options}; self.notifyObserversOf('before execute', context, function(err) { process.nextTick(function() { if (err) return cb(err); events.push('execute'); self.notifyObserversOf('after execute', context, function(err) { cb(err); }); }); }); }; ds.connector.observe('before execute', function(context, next) { events.push('before execute'); next(); }); ds.connector.observe('after execute', function(context, next) { events.push('after execute'); next(); }); ds.connector.execute('test', [1, 2], {x: 2}, function(err) { if (err) return done(err); events.should.eql(['before execute', 'execute', 'after execute']); done(); }); }); });