/* eslint-env mocha */ import fs from 'node:fs/promises' import assert from 'node:assert/strict' import * as model from '../src/model.js' import Datastore from '../src/datastore.js' import Persistence from '../src/persistence.js' import { wait } from './utils.test.js' import { exists } from './fsUtils.test.js' const testDb = 'workspace/test.db' const reloadTimeUpperBound = 200 // In ms, an upper bound for the reload time used to check createdAt and updatedAt describe('Database async', function () { let d beforeEach(async () => { d = new Datastore({ filename: testDb }) assert.equal(d.filename, testDb) assert.equal(d.inMemoryOnly, false) await Persistence.ensureParentDirectoryExistsAsync(testDb) if (await exists(testDb)) await fs.unlink(testDb) await d.loadDatabaseAsync() assert.equal(d.getAllData().length, 0) }) describe('Autoloading', () => { it('Can autoload a database and query it right away', async () => { const fileStr = model.serialize({ _id: '1', a: 5, planet: 'Earth' }) + '\n' + model.serialize({ _id: '2', a: 5, planet: 'Mars' }) + '\n' const autoDb = 'workspace/auto.db' await fs.writeFile(autoDb, fileStr, 'utf8') const db = new Datastore({ filename: autoDb, autoload: true }) const docs = await db.findAsync({}) assert.equal(docs.length, 2) }) it('Throws if autoload fails', async () => { const fileStr = model.serialize({ _id: '1', a: 5, planet: 'Earth' }) + '\n' + model.serialize({ _id: '2', a: 5, planet: 'Mars' }) + '\n' + '{"$$indexCreated":{"fieldName":"a","unique":true}}' const autoDb = 'workspace/auto.db' await fs.writeFile(autoDb, fileStr, 'utf8') const db = new Datastore({ filename: autoDb, autoload: true }) await Promise.race([ // Check the loadDatabase generated an error assert.rejects(() => db.autoloadPromise, err => { assert.equal(err.errorType, 'uniqueViolated') return true }), db.findAsync({}).finally(() => { throw new Error('Find should not be executed since autoload failed') }) ]) }) }) describe('Insert', () => { it('Able to insert a document in the database, setting an _id if none provided, and retrieve it even after a reload', async () => { const docsEmpty = await d.findAsync({}) assert.equal(docsEmpty.length, 0) await d.insertAsync({ somedata: 'ok' }) const docs = await d.findAsync({}) // The data was correctly updated assert.equal(docs.length, 1) assert.equal(Object.keys(docs[0]).length, 2) assert.equal(docs[0].somedata, 'ok') assert.notEqual(docs[0]._id, undefined) // After a reload the data has been correctly persisted await d.loadDatabaseAsync() const docsReloaded = await d.findAsync({}) assert.equal(docsReloaded.length, 1) assert.equal(Object.keys(docsReloaded[0]).length, 2) assert.equal(docsReloaded[0].somedata, 'ok') assert.notEqual(docsReloaded[0]._id, undefined) }) it('Can insert multiple documents in the database', async () => { const docsEmpty = await d.findAsync({}) assert.equal(docsEmpty.length, 0) await d.insertAsync({ somedata: 'ok' }) await d.insertAsync({ somedata: 'another' }) await d.insertAsync({ somedata: 'again' }) const docs = await d.findAsync({}) assert.equal(docs.length, 3) const values = docs.map(x => x.somedata) assert.ok(values.includes('ok')) assert.ok(values.includes('another')) assert.ok(values.includes('again')) }) it('Can insert and get back from DB complex objects with all primitive and secondary types', async () => { const da = new Date() const obj = { a: ['ee', 'ff', 42], date: da, subobj: { a: 'b', b: 'c' } } await d.insertAsync(obj) const res = await d.findOneAsync({}) assert.deepEqual(res.a, obj.a) assert.equal(res.date.getTime(), da.getTime()) assert.deepEqual(res.subobj, obj.subobj) }) it('If an object returned from the DB is modified and refetched, the original value should be found', async () => { await d.insertAsync({ a: 'something' }) const doc = await d.findOneAsync({}) assert.equal(doc.a, 'something') doc.a = 'another thing' assert.equal(doc.a, 'another thing') // Re-fetching with findOne should yield the persisted value const doc2 = await d.findOneAsync({}) assert.equal(doc2.a, 'something') doc2.a = 'another thing' assert.equal(doc2.a, 'another thing') const docs = await d.findAsync({}) assert.equal(docs[0].a, 'something') }) it('Cannot insert a doc that has a field beginning with a $ sign', async () => { await assert.rejects(() => d.insertAsync({ $something: 'atest' })) }) it('If an _id is already given when we insert a document, use that instead of generating a random one', async () => { const newDoc = await d.insertAsync({ _id: 'test', stuff: true }) assert.equal(newDoc.stuff, true) assert.equal(newDoc._id, 'test') await assert.rejects(() => d.insertAsync({ _id: 'test', otherstuff: 42 }), err => { assert.equal(err.errorType, 'uniqueViolated') return true }) }) it('Modifying the insertedDoc after an insert doesnt change the copy saved in the database', async () => { const newDoc = await d.insertAsync({ a: 2, hello: 'world' }) newDoc.hello = 'changed' const doc = await d.findOneAsync({ a: 2 }) assert.equal(doc.hello, 'world') }) it('Can insert an array of documents at once', async () => { const docsToInsert = [{ a: 5, b: 'hello' }, { a: 42, b: 'world' }] await d.insertAsync(docsToInsert) const docs = await d.findAsync({}) assert.equal(docs.find(doc => doc.a === 5).b, 'hello') assert.equal(docs.find(doc => doc.a === 42).b, 'world') assert.equal(docs.length, 2) const data = (await fs.readFile(testDb, 'utf8')) .split('\n') .filter(line => line.length > 0) assert.equal(data.length, 2) assert.equal(model.deserialize(data[0]).a, 5) assert.equal(model.deserialize(data[0]).b, 'hello') assert.equal(model.deserialize(data[1]).a, 42) assert.equal(model.deserialize(data[1]).b, 'world') }) it('If a bulk insert violates a constraint, all changes are rolled back', async () => { const docsToInsert = [{ a: 5, b: 'hello' }, { a: 42, b: 'world' }, { a: 5, b: 'bloup' }, { a: 7 }] // Important to await here to make sure filesystem synced await d.ensureIndexAsync({ fieldName: 'a', unique: true }) await assert.rejects(() => d.insertAsync(docsToInsert), err => { assert.equal(err.errorType, 'uniqueViolated') return true }) const docs = await d.findAsync({}) // Datafile only contains index definition const datafileContents = model.deserialize(await fs.readFile(testDb, 'utf8')) assert.deepEqual(datafileContents, { $$indexCreated: { fieldName: 'a', unique: true } }) assert.equal(docs.length, 0) }) it('If timestampData option is set, a createdAt field is added and persisted', async () => { const newDoc = { hello: 'world' } const beginning = Date.now() d = new Datastore({ filename: testDb, timestampData: true, autoload: true }) const docsEmpty = await d.findAsync({}) assert.equal(docsEmpty.length, 0) const insertedDoc = await d.insertAsync(newDoc) // No side effect on given input assert.deepEqual(newDoc, { hello: 'world' }) // Insert doc has two new fields, _id and createdAt assert.equal(insertedDoc.hello, 'world') assert.notEqual(insertedDoc.createdAt, undefined) assert.notEqual(insertedDoc.updatedAt, undefined) assert.equal(insertedDoc.createdAt, insertedDoc.updatedAt) assert.notEqual(insertedDoc._id, undefined) assert.equal(Object.keys(insertedDoc).length, 4) assert.ok(Math.abs(insertedDoc.createdAt.getTime() - beginning) < reloadTimeUpperBound) // No more than 30ms should have elapsed (worst case, if there is a flush) // Modifying results of insert doesn't change the cache insertedDoc.bloup = 'another' assert.equal(Object.keys(insertedDoc).length, 5) const docs = await d.findAsync({}) assert.equal(docs.length, 1) // No side effect on given input assert.deepEqual(newDoc, { hello: 'world' }) assert.deepEqual({ hello: 'world', _id: insertedDoc._id, createdAt: insertedDoc.createdAt, updatedAt: insertedDoc.updatedAt }, docs[0]) // All data correctly persisted on disk await d.loadDatabaseAsync() const docsReloaded = await d.findAsync({}) assert.equal(docsReloaded.length, 1) // No side effect on given input assert.deepEqual(newDoc, { hello: 'world' }) assert.deepEqual({ hello: 'world', _id: insertedDoc._id, createdAt: insertedDoc.createdAt, updatedAt: insertedDoc.updatedAt }, docsReloaded[0]) }) it('If timestampData option not set, don\'t create a createdAt and a updatedAt field', async () => { const insertedDoc = await d.insertAsync({ hello: 'world' }) assert.equal(Object.keys(insertedDoc).length, 2) assert.equal(insertedDoc.createdAt, undefined) assert.equal(insertedDoc.updatedAt, undefined) const docs = await d.findAsync({}) assert.equal(docs.length, 1) assert.deepEqual(docs[0], insertedDoc) }) it('If timestampData is set but createdAt is specified by user, don\'t change it', async () => { const newDoc = { hello: 'world', createdAt: new Date(234) } const beginning = Date.now() d = new Datastore({ filename: testDb, timestampData: true, autoload: true }) const insertedDoc = await d.insertAsync(newDoc) assert.equal(Object.keys(insertedDoc).length, 4) assert.equal(insertedDoc.createdAt.getTime(), 234) // Not modified assert.ok(insertedDoc.updatedAt.getTime() - beginning < reloadTimeUpperBound) // Created const docs = await d.findAsync({}) assert.deepEqual(insertedDoc, docs[0]) await d.loadDatabaseAsync() const docsReloaded = await d.findAsync({}) assert.deepEqual(insertedDoc, docsReloaded[0]) }) it('If timestampData is set but updatedAt is specified by user, don\'t change it', async () => { const newDoc = { hello: 'world', updatedAt: new Date(234) } const beginning = Date.now() d = new Datastore({ filename: testDb, timestampData: true, autoload: true }) const insertedDoc = await d.insertAsync(newDoc) assert.equal(Object.keys(insertedDoc).length, 4) assert.equal(insertedDoc.updatedAt.getTime(), 234) assert.ok(insertedDoc.createdAt.getTime() - beginning < reloadTimeUpperBound) const docs = await d.findAsync({}) assert.deepEqual(insertedDoc, docs[0]) await d.loadDatabaseAsync() const docsReloaded = await d.findAsync({}) assert.deepEqual(insertedDoc, docsReloaded[0]) }) it('Can insert a doc with id 0', async () => { const doc = await d.insertAsync({ _id: 0, hello: 'world' }) assert.equal(doc._id, 0) assert.equal(doc.hello, 'world') }) }) // ==== End of 'Insert' ==== // describe('#getCandidates', function () { it('Can use an index to get docs with a basic match', async () => { await d.ensureIndexAsync({ fieldName: 'tf' }) const _doc1 = await d.insertAsync({ tf: 4 }) await d.insertAsync({ tf: 6 }) const _doc2 = await d.insertAsync({ tf: 4, an: 'other' }) await d.insertAsync({ tf: 9 }) const data = await d._getCandidatesAsync({ r: 6, tf: 4 }) const doc1 = data.find(d => d._id === _doc1._id) const doc2 = data.find(d => d._id === _doc2._id) assert.equal(data.length, 2) assert.deepEqual(doc1, { _id: doc1._id, tf: 4 }) assert.deepEqual(doc2, { _id: doc2._id, tf: 4, an: 'other' }) }) it('Can use a compound index to get docs with a basic match', async () => { await d.ensureIndexAsync({ fieldName: ['tf', 'tg'] }) await d.insertAsync({ tf: 4, tg: 0, foo: 1 }) await d.insertAsync({ tf: 6, tg: 0, foo: 2 }) const _doc1 = await d.insertAsync({ tf: 4, tg: 1, foo: 3 }) await d.insertAsync({ tf: 6, tg: 1, foo: 4 }) const data = await d._getCandidatesAsync({ tf: 4, tg: 1 }) const doc1 = data.find(d => d._id === _doc1._id) assert.equal(data.length, 1) assert.deepEqual(doc1, { _id: doc1._id, tf: 4, tg: 1, foo: 3 }) }) it('Can use an index to get docs with a $in match', async () => { await d.ensureIndexAsync({ fieldName: 'tf' }) await d.insertAsync({ tf: 4 }) const _doc1 = await d.insertAsync({ tf: 6 }) await d.insertAsync({ tf: 4, an: 'other' }) const _doc2 = await d.insertAsync({ tf: 9 }) const data = await d._getCandidatesAsync({ r: 6, tf: { $in: [6, 9, 5] } }) const doc1 = data.find(d => d._id === _doc1._id) const doc2 = data.find(d => d._id === _doc2._id) assert.equal(data.length, 2) assert.deepEqual(doc1, { _id: doc1._id, tf: 6 }) assert.deepEqual(doc2, { _id: doc2._id, tf: 9 }) }) it('If no index can be used, return the whole database', async () => { await d.ensureIndexAsync({ fieldName: 'tf' }) const _doc1 = await d.insertAsync({ tf: 4 }) const _doc2 = await d.insertAsync({ tf: 6 }) const _doc3 = await d.insertAsync({ tf: 4, an: 'other' }) const _doc4 = await d.insertAsync({ tf: 9 }) const data = await d._getCandidatesAsync({ r: 6, notf: { $in: [6, 9, 5] } }) const doc1 = data.find(d => d._id === _doc1._id) const doc2 = data.find(d => d._id === _doc2._id) const doc3 = data.find(d => d._id === _doc3._id) const doc4 = data.find(d => d._id === _doc4._id) assert.equal(data.length, 4) assert.deepEqual(doc1, { _id: doc1._id, tf: 4 }) assert.deepEqual(doc2, { _id: doc2._id, tf: 6 }) assert.deepEqual(doc3, { _id: doc3._id, tf: 4, an: 'other' }) assert.deepEqual(doc4, { _id: doc4._id, tf: 9 }) }) it('Can use indexes for comparison matches', async () => { await d.ensureIndexAsync({ fieldName: 'tf' }) await d.insertAsync({ tf: 4 }) const _doc2 = await d.insertAsync({ tf: 6 }) await d.insertAsync({ tf: 4, an: 'other' }) const _doc4 = await d.insertAsync({ tf: 9 }) const data = await d._getCandidatesAsync({ r: 6, tf: { $lte: 9, $gte: 6 } }) const doc2 = data.find(d => d._id === _doc2._id) const doc4 = data.find(d => d._id === _doc4._id) assert.equal(data.length, 2) assert.deepEqual(doc2, { _id: doc2._id, tf: 6 }) assert.deepEqual(doc4, { _id: doc4._id, tf: 9 }) }) it('Can set a TTL index that expires documents', async () => { await d.ensureIndexAsync({ fieldName: 'exp', expireAfterSeconds: 0.2 }) await d.insertAsync({ hello: 'world', exp: new Date() }) await wait(100) const doc1 = await d.findOneAsync({}) assert.equal(doc1.hello, 'world') await wait(101) const doc2 = await d.findOneAsync({}) assert.equal(doc2, null) await d.compactDatafileAsync() // After compaction, no more mention of the document, correctly removed const datafileContents = await fs.readFile(testDb, 'utf8') assert.equal(datafileContents.split('\n').length, 2) assert.doesNotMatch(datafileContents, /world/) // New datastore on same datafile is empty const d2 = new Datastore({ filename: testDb, autoload: true }) const doc3 = await d2.findOneAsync({}) assert.equal(doc3, null) }) it('TTL indexes can expire multiple documents and only what needs to be expired', async () => { await d.ensureIndexAsync({ fieldName: 'exp', expireAfterSeconds: 0.2 }) await d.insertAsync({ hello: 'world1', exp: new Date() }) await d.insertAsync({ hello: 'world2', exp: new Date() }) await d.insertAsync({ hello: 'world3', exp: new Date((new Date()).getTime() + 100) }) await wait(100) const docs1 = await d.findAsync({}) assert.equal(docs1.length, 3) await wait(101) const docs2 = await d.findAsync({}) assert.equal(docs2.length, 1) assert.equal(docs2[0].hello, 'world3') await wait(101) const docs3 = await d.findAsync({}) assert.equal(docs3.length, 0) }) it('Document where indexed field is absent or not a date are ignored', async () => { await d.ensureIndexAsync({ fieldName: 'exp', expireAfterSeconds: 0.2 }) await d.insertAsync({ hello: 'world1', exp: new Date() }) await d.insertAsync({ hello: 'world2', exp: 'not a date' }) await d.insertAsync({ hello: 'world3' }) await wait(101) const docs1 = await d.findAsync({}) assert.equal(docs1.length, 3) await wait(101) const docs2 = await d.findAsync({}) assert.equal(docs2.length, 2) docs2[0].hello.should.not.equal('world1') docs2[1].hello.should.not.equal('world1') }) }) // ==== End of '#getCandidates' ==== // describe('Find', function () { it('Can find all documents if an empty query is used', async () => { await d.insertAsync({ somedata: 'ok' }) await d.insertAsync({ somedata: 'another', plus: 'additional data' }) await d.insertAsync({ somedata: 'again' }) const docs = await d.findAsync({}) assert.equal(docs.length, 3) assert.ok(docs.map(x => x.somedata).includes('ok')) assert.ok(docs.map(x => x.somedata).includes('another')) assert.ok(docs.map(x => x.somedata).includes('again')) assert.equal(docs.find(d => d.somedata === 'another').plus, 'additional data') }) it('Can find all documents matching a basic query', async () => { await d.insertAsync({ somedata: 'ok' }) await d.insertAsync({ somedata: 'again', plus: 'additional data' }) await d.insertAsync({ somedata: 'again' }) // Test with query that will return docs const docs = await d.findAsync({ somedata: 'again' }) assert.equal(docs.length, 2) assert.ok(!docs.map(x => x.somedata).includes('ok')) // Test with query that doesn't match anything const docs2 = await d.findAsync({ somedata: 'nope' }) assert.equal(docs2.length, 0) }) it('Can find one document matching a basic query and return null if none is found', async () => { await d.insertAsync({ somedata: 'ok' }) await d.insertAsync({ somedata: 'again', plus: 'additional data' }) await d.insertAsync({ somedata: 'again' }) // Test with query that will return docs const doc = await d.findOneAsync({ somedata: 'ok' }) assert.equal(Object.keys(doc).length, 2) assert.equal(doc.somedata, 'ok') assert.notEqual(doc._id, undefined) // Test with query that doesn't match anything const doc2 = await d.findOneAsync({ somedata: 'nope' }) assert.equal(doc2, null) }) it('Can find dates and objects (non JS-native types)', async () => { const date1 = new Date(1234543) const date2 = new Date(9999) await d.insertAsync({ now: date1, sth: { name: 'nedb' } }) const doc1 = await d.findOneAsync({ now: date1 }) assert.equal(doc1.sth.name, 'nedb') const doc2 = await d.findOneAsync({ now: date2 }) assert.equal(doc2, null) const doc3 = await d.findOneAsync({ sth: { name: 'nedb' } }) assert.equal(doc3.sth.name, 'nedb') const doc4 = await d.findOneAsync({ sth: { name: 'other' } }) assert.equal(doc4, null) }) it('Can use dot-notation to query subfields', async () => { await d.insertAsync({ greeting: { english: 'hello' } }) const doc1 = await d.findOneAsync({ 'greeting.english': 'hello' }) assert.equal(doc1.greeting.english, 'hello') const doc2 = await d.findOneAsync({ 'greeting.english': 'hellooo' }) assert.equal(doc2, null) const doc3 = await d.findOneAsync({ 'greeting.englis': 'hello' }) assert.equal(doc3, null) }) it('Array fields match if any element matches', async () => { const doc1 = await d.insertAsync({ fruits: ['pear', 'apple', 'banana'] }) const doc2 = await d.insertAsync({ fruits: ['coconut', 'orange', 'pear'] }) const doc3 = await d.insertAsync({ fruits: ['banana'] }) const docs = await d.findAsync({ fruits: 'pear' }) assert.equal(docs.length, 2) assert.ok(docs.map(x => x._id).includes(doc1._id)) assert.ok(docs.map(x => x._id).includes(doc2._id)) const docs2 = await d.findAsync({ fruits: 'banana' }) assert.equal(docs2.length, 2) assert.ok(docs2.map(x => x._id).includes(doc1._id)) assert.ok(docs2.map(x => x._id).includes(doc3._id)) const docs3 = await d.findAsync({ fruits: 'doesntexist' }) assert.equal(docs3.length, 0) }) it('Returns an error if the query is not well formed', async () => { await d.insertAsync({ hello: 'world' }) await assert.rejects(() => d.findAsync({ $or: { hello: 'world' } })) await assert.rejects(() => d.findOneAsync({ $or: { hello: 'world' } })) }) it('Changing the documents returned by find or findOne do not change the database state', async () => { await d.insertAsync({ a: 2, hello: 'world' }) const doc1 = await d.findOneAsync({ a: 2 }) doc1.hello = 'changed' const doc2 = await d.findOneAsync({ a: 2 }) assert.equal(doc2.hello, 'world') const docs = await d.findAsync({ a: 2 }) docs[0].hello = 'changed' const doc3 = await d.findOneAsync({ a: 2 }) assert.equal(doc3.hello, 'world') }) it('Can use sort, skip and limit if the callback is not passed to find but to exec', async () => { await d.insertAsync({ a: 2, hello: 'world' }) await d.insertAsync({ a: 24, hello: 'earth' }) await d.insertAsync({ a: 13, hello: 'blueplanet' }) await d.insertAsync({ a: 15, hello: 'home' }) const docs = await d.findAsync({}).sort({ a: 1 }).limit(2) assert.equal(docs.length, 2) assert.equal(docs[0].hello, 'world') assert.equal(docs[1].hello, 'blueplanet') }) it('Can use sort and skip if the callback is not passed to findOne but to exec', async () => { await d.insertAsync({ a: 2, hello: 'world' }) await d.insertAsync({ a: 24, hello: 'earth' }) await d.insertAsync({ a: 13, hello: 'blueplanet' }) await d.insertAsync({ a: 15, hello: 'home' }) // No skip no query const doc1 = await d.findOneAsync({}).sort({ a: 1 }) assert.equal(doc1.hello, 'world') // A query const doc2 = await d.findOneAsync({ a: { $gt: 14 } }).sort({ a: 1 }) assert.equal(doc2.hello, 'home') // And a skip const doc3 = await d.findOneAsync({ a: { $gt: 14 } }).sort({ a: 1 }).skip(1) assert.equal(doc3.hello, 'earth') // No result const doc4 = await d.findOneAsync({ a: { $gt: 14 } }).sort({ a: 1 }).skip(2) assert.equal(doc4, null) }) it('Can use projections in find, normal or cursor way', async () => { await d.insertAsync({ a: 2, hello: 'world' }) await d.insertAsync({ a: 24, hello: 'earth' }) const docs = await d.findAsync({ a: 2 }, { a: 0, _id: 0 }) assert.equal(docs.length, 1) assert.deepEqual(docs[0], { hello: 'world' }) const docs1 = await d.findAsync({ a: 2 }, { a: 0, _id: 0 }).execAsync() assert.equal(docs1.length, 1) assert.deepEqual(docs1[0], { hello: 'world' }) // Can't use both modes at once if not _id await assert.rejects(() => d.findAsync({ a: 2 }, { a: 0, hello: 1 })) await assert.rejects(() => d.findAsync({ a: 2 }, { a: 0, hello: 1 }).execAsync()) }) it('Can use projections in findOne, normal or cursor way', async () => { await d.insertAsync({ a: 2, hello: 'world' }) await d.insertAsync({ a: 24, hello: 'earth' }) const doc1 = await d.findOneAsync({ a: 2 }, { a: 0, _id: 0 }) assert.deepEqual(doc1, { hello: 'world' }) const doc2 = await d.findOneAsync({ a: 2 }, { a: 0, _id: 0 }) assert.deepEqual(doc2, { hello: 'world' }) // Can't use both modes at once if not _id await assert.rejects(() => d.findOneAsync({ a: 2 }, { a: 0, hello: 1 })) await assert.rejects(() => d.findOneAsync({ a: 2 }, { a: 0, hello: 1 }).execAsync()) }) // ==== End of 'Find' ==== // }) describe('Count', function () { it('Count all documents if an empty query is used', async () => { await d.insertAsync({ somedata: 'ok' }) await d.insertAsync({ somedata: 'another', plus: 'additional data' }) await d.insertAsync({ somedata: 'again' }) // Test with empty object const docs = await d.countAsync({}) assert.equal(docs, 3) }) it('Count all documents matching a basic query', async () => { await d.insertAsync({ somedata: 'ok' }) await d.insertAsync({ somedata: 'again', plus: 'additional data' }) await d.insertAsync({ somedata: 'again' }) // Test with query that will return docs const docs = await d.countAsync({ somedata: 'again' }) assert.equal(docs, 2) // Test with query that doesn't match anything const docs2 = await d.countAsync({ somedata: 'nope' }) assert.equal(docs2, 0) }) it('Array fields match if any element matches', async () => { await d.insertAsync({ fruits: ['pear', 'apple', 'banana'] }) await d.insertAsync({ fruits: ['coconut', 'orange', 'pear'] }) await d.insertAsync({ fruits: ['banana'] }) const docs = await d.countAsync({ fruits: 'pear' }) assert.equal(docs, 2) const docs2 = await d.countAsync({ fruits: 'banana' }) assert.equal(docs2, 2) const docs3 = await d.countAsync({ fruits: 'doesntexist' }) assert.equal(docs3, 0) }) it('Returns an error if the query is not well formed', async () => { await d.insertAsync({ hello: 'world' }) await assert.rejects(() => d.countAsync({ $or: { hello: 'world' } })) }) }) describe('Update', function () { it('If the query doesn\'t match anything, database is not modified', async () => { await d.insertAsync({ somedata: 'ok' }) await d.insertAsync({ somedata: 'again', plus: 'additional data' }) await d.insertAsync({ somedata: 'another' }) // Test with query that doesn't match anything const { numAffected } = await d.updateAsync({ somedata: 'nope' }, { newDoc: 'yes' }, { multi: true }) assert.equal(numAffected, 0) const docs = await d.findAsync({}) const doc1 = docs.find(function (d) { return d.somedata === 'ok' }) const doc2 = docs.find(function (d) { return d.somedata === 'again' }) const doc3 = docs.find(function (d) { return d.somedata === 'another' }) assert.equal(docs.length, 3) assert.equal(docs.find(d => d.newDoc === 'yes'), undefined) assert.deepEqual(doc1, { _id: doc1._id, somedata: 'ok' }) assert.deepEqual(doc2, { _id: doc2._id, somedata: 'again', plus: 'additional data' }) assert.deepEqual(doc3, { _id: doc3._id, somedata: 'another' }) }) it('If timestampData option is set, update the updatedAt field', async () => { const beginning = Date.now() d = new Datastore({ filename: testDb, autoload: true, timestampData: true }) const insertedDoc = await d.insertAsync({ hello: 'world' }) assert.ok(insertedDoc.updatedAt.getTime() - beginning < reloadTimeUpperBound) assert.ok(insertedDoc.createdAt.getTime() - beginning < reloadTimeUpperBound) assert.equal(Object.keys(insertedDoc).length, 4) // Wait 100ms before performing the update await wait(100) const step1 = Date.now() await d.updateAsync({ _id: insertedDoc._id }, { $set: { hello: 'mars' } }, {}) const docs = await d.findAsync({ _id: insertedDoc._id }) assert.equal(docs.length, 1) assert.equal(Object.keys(docs[0]).length, 4) assert.equal(docs[0]._id, insertedDoc._id) assert.equal(docs[0].createdAt, insertedDoc.createdAt) assert.equal(docs[0].hello, 'mars') assert.ok(docs[0].updatedAt.getTime() - beginning > 99) // updatedAt modified assert.ok(docs[0].updatedAt.getTime() - step1 < reloadTimeUpperBound) // updatedAt modified }) it('Can update multiple documents matching the query', async () => { const doc1 = await d.insertAsync({ somedata: 'ok' }) const doc2 = await d.insertAsync({ somedata: 'again', plus: 'additional data' }) const doc3 = await d.insertAsync({ somedata: 'again' }) const id1 = doc1._id const id2 = doc2._id const id3 = doc3._id // Test DB state after update and reload const testPostUpdateState = async () => { const docs = await d.findAsync({}) const doc1 = docs.find(d => d._id === id1) const doc2 = docs.find(d => d._id === id2) const doc3 = docs.find(d => d._id === id3) assert.equal(docs.length, 3) assert.equal(Object.keys(doc1).length, 2) assert.equal(doc1.somedata, 'ok') assert.equal(doc1._id, id1) assert.equal(Object.keys(doc2).length, 2) assert.equal(doc2.newDoc, 'yes') assert.equal(doc2._id, id2) assert.equal(Object.keys(doc3).length, 2) assert.equal(doc3.newDoc, 'yes') assert.equal(doc3._id, id3) } const { numAffected } = await d.updateAsync({ somedata: 'again' }, { newDoc: 'yes' }, { multi: true }) assert.equal(numAffected, 2) await testPostUpdateState() await d.loadDatabaseAsync() await testPostUpdateState() }) it('Can update only one document matching the query', async () => { const doc1 = await d.insertAsync({ somedata: 'ok' }) const doc2 = await d.insertAsync({ somedata: 'again', plus: 'additional data' }) const doc3 = await d.insertAsync({ somedata: 'again' }) const id1 = doc1._id const id2 = doc2._id const id3 = doc3._id // Test DB state after update and reload const testPostUpdateState = async () => { const docs = await d.findAsync({}) const doc1 = docs.find(d => d._id === id1) const doc2 = docs.find(d => d._id === id2) const doc3 = docs.find(d => d._id === id3) assert.equal(docs.length, 3) assert.deepEqual(doc1, { somedata: 'ok', _id: doc1._id }) // doc2 or doc3 was modified. Since we sort on _id and it is random // it can be either of two situations try { assert.deepEqual(doc2, { newDoc: 'yes', _id: doc2._id }) assert.deepEqual(doc3, { somedata: 'again', _id: doc3._id }) } catch (e) { assert.deepEqual(doc2, { somedata: 'again', plus: 'additional data', _id: doc2._id }) assert.deepEqual(doc3, { newDoc: 'yes', _id: doc3._id }) } } // Test with query that doesn't match anything const { numAffected } = await d.updateAsync({ somedata: 'again' }, { newDoc: 'yes' }, { multi: false }) assert.equal(numAffected, 1) await testPostUpdateState() await d.loadDatabaseAsync() await testPostUpdateState() }) }) describe('Upserts', function () { it('Can perform upserts if needed', async () => { const { numAffected: numAffectedEmpty, affectedDocuments: affectedDocumentsEmpty } = await d.updateAsync({ impossible: 'db is empty anyway' }, { newDoc: true }, {}) assert.equal(numAffectedEmpty, 0) assert.equal(affectedDocumentsEmpty, null) const docsEmpty = await d.findAsync({}) assert.equal(docsEmpty.length, 0) // Default option for upsert is false const { numAffected, affectedDocuments } = await d.updateAsync({ impossible: 'db is empty anyway' }, { something: 'created ok' }, { upsert: true }) assert.equal(numAffected, 1) assert.equal(affectedDocuments.something, 'created ok') assert.notEqual(affectedDocuments._id, undefined) const docs = await d.findAsync({}) assert.equal(docs.length, 1) // Default option for upsert is false assert.equal(docs[0].something, 'created ok') // Modifying the returned upserted document doesn't modify the database affectedDocuments.newField = true const docsModified = await d.findAsync({}) assert.equal(docsModified[0].something, 'created ok') assert.equal(docsModified[0].newField, undefined) }) it('If the update query is a normal object with no modifiers, it is the doc that will be upserted', async () => { await d.updateAsync({ $or: [{ a: 4 }, { a: 5 }] }, { hello: 'world', bloup: 'blap' }, { upsert: true }) const docs = await d.findAsync({}) assert.equal(docs.length, 1) const doc = docs[0] assert.equal(Object.keys(doc).length, 3) assert.equal(doc.hello, 'world') assert.equal(doc.bloup, 'blap') }) it('If the update query contains modifiers, it is applied to the object resulting from removing all operators from the find query 1', async () => { await d.updateAsync({ $or: [{ a: 4 }, { a: 5 }] }, { $set: { hello: 'world' }, $inc: { bloup: 3 } // eslint-disable-next-line n/handle-callback-err }, { upsert: true }) const docs = await d.findAsync({ hello: 'world' }) assert.equal(docs.length, 1) const doc = docs[0] assert.equal(Object.keys(doc).length, 3) assert.equal(doc.hello, 'world') assert.equal(doc.bloup, 3) }) it('If the update query contains modifiers, it is applied to the object resulting from removing all operators from the find query 2', async () => { await d.updateAsync({ $or: [{ a: 4 }, { a: 5 }], cac: 'rrr' }, { $set: { hello: 'world' }, $inc: { bloup: 3 } // eslint-disable-next-line n/handle-callback-err }, { upsert: true }) const docs = await d.findAsync({ hello: 'world' }) assert.equal(docs.length, 1) const doc = docs[0] assert.equal(Object.keys(doc).length, 4) assert.equal(doc.cac, 'rrr') assert.equal(doc.hello, 'world') assert.equal(doc.bloup, 3) }) it('Performing upsert with badly formatted fields yields a standard error not an exception', async () => { await assert.rejects(() => d.updateAsync({ _id: '1234' }, { $set: { $$badfield: 5 } }, { upsert: true })) }) // ==== End of 'Upserts' ==== // it('Cannot perform update if the update query is not either registered-modifiers-only or copy-only, or contain badly formatted fields', async () => { await d.insertAsync({ something: 'yup' }) await assert.rejects(() => d.updateAsync({}, { boom: { $badfield: 5 } }, { multi: false })) await assert.rejects(() => d.updateAsync({}, { boom: { 'bad.field': 5 } }, { multi: false })) await assert.rejects(() => d.updateAsync({}, { $inc: { test: 5 }, mixed: 'rrr' }, { multi: false })) await assert.rejects(() => d.updateAsync({}, { $inexistent: { test: 5 } }, { multi: false })) }) it('Can update documents using multiple modifiers', async () => { const newDoc = await d.insertAsync({ something: 'yup', other: 40 }) const id = newDoc._id const { numAffected } = await d.updateAsync({}, { $set: { something: 'changed' }, $inc: { other: 10 } }, { multi: false }) assert.equal(numAffected, 1) const doc = await d.findOneAsync({ _id: id }) assert.equal(Object.keys(doc).length, 3) assert.equal(doc._id, id) assert.equal(doc.something, 'changed') assert.equal(doc.other, 50) }) it('Can upsert a document even with modifiers', async () => { const { numAffected, affectedDocuments } = await d.updateAsync({ bloup: 'blap' }, { $set: { hello: 'world' } }, { upsert: true }) assert.equal(numAffected, 1) assert.equal(affectedDocuments.bloup, 'blap') assert.equal(affectedDocuments.hello, 'world') assert.notEqual(affectedDocuments._id, undefined) const docs = await d.findAsync({}) assert.equal(docs.length, 1) assert.equal(Object.keys(docs[0]).length, 3) assert.equal(docs[0].hello, 'world') assert.equal(docs[0].bloup, 'blap') assert.notEqual(docs[0]._id, undefined) }) it('When using modifiers, the only way to update subdocs is with the dot-notation', async () => { await d.insertAsync({ bloup: { blip: 'blap', other: true } }) // Correct methos await d.updateAsync({}, { $set: { 'bloup.blip': 'hello' } }, {}) const doc = await d.findOneAsync({}) assert.equal(doc.bloup.blip, 'hello') assert.equal(doc.bloup.other, true) // Wrong await d.updateAsync({}, { $set: { bloup: { blip: 'ola' } } }, {}) const doc2 = await d.findOneAsync({}) assert.equal(doc2.bloup.blip, 'ola') assert.equal(doc2.bloup.other, undefined) // This information was lost }) it('Returns an error if the query is not well formed', async () => { await d.insertAsync({ hello: 'world' }) await assert.rejects(() => d.updateAsync({ $or: { hello: 'world' } }, { a: 1 }, {})) }) it('If an error is thrown by a modifier, the database state is not changed', async () => { const newDoc = await d.insertAsync({ hello: 'world' }) await assert.rejects(() => d.updateAsync({}, { $inc: { hello: 4 } }, {})) const docs = await d.findAsync({}) assert.deepEqual(docs, [{ _id: newDoc._id, hello: 'world' }]) }) it('Cant change the _id of a document', async () => { const newDoc = await d.insertAsync({ a: 2 }) await assert.rejects(() => d.updateAsync({ a: 2 }, { a: 2, _id: 'nope' }, {})) const docs = await d.findAsync({}) assert.equal(docs.length, 1) assert.equal(Object.keys(docs[0]).length, 2) assert.equal(docs[0].a, 2) assert.equal(docs[0]._id, newDoc._id) await assert.rejects(() => d.updateAsync({ a: 2 }, { $set: { _id: 'nope' } }, {})) const docs2 = await d.findAsync({}) assert.equal(docs2.length, 1) assert.equal(Object.keys(docs2[0]).length, 2) assert.equal(docs2[0].a, 2) assert.equal(docs2[0]._id, newDoc._id) }) it('Non-multi updates are persistent', async () => { const doc1 = await d.insertAsync({ a: 1, hello: 'world' }) const doc2 = await d.insertAsync({ a: 2, hello: 'earth' }) await d.updateAsync({ a: 2 }, { $set: { hello: 'changed' } }, {}) const docs = await d.findAsync({}) docs.sort((a, b) => a.a - b.a) assert.equal(docs.length, 2) assert.deepEqual(docs[0], { _id: doc1._id, a: 1, hello: 'world' }) assert.deepEqual(docs[1], { _id: doc2._id, a: 2, hello: 'changed' }) // Even after a reload the database state hasn't changed await d.loadDatabaseAsync() const docs2 = await d.findAsync({}) docs2.sort((a, b) => a.a - b.a) assert.equal(docs2.length, 2) assert.deepEqual(docs2[0], { _id: doc1._id, a: 1, hello: 'world' }) assert.deepEqual(docs2[1], { _id: doc2._id, a: 2, hello: 'changed' }) }) it('Multi updates are persistent', async () => { const doc1 = await d.insertAsync({ a: 1, hello: 'world' }) const doc2 = await d.insertAsync({ a: 2, hello: 'earth' }) const doc3 = await d.insertAsync({ a: 5, hello: 'pluton' }) await d.updateAsync({ a: { $in: [1, 2] } }, { $set: { hello: 'changed' } }, { multi: true }) const docs = await d.findAsync({}) docs.sort((a, b) => a.a - b.a) assert.equal(docs.length, 3) assert.deepEqual(docs[0], { _id: doc1._id, a: 1, hello: 'changed' }) assert.deepEqual(docs[1], { _id: doc2._id, a: 2, hello: 'changed' }) assert.deepEqual(docs[2], { _id: doc3._id, a: 5, hello: 'pluton' }) // Even after a reload the database state hasn't changed await d.loadDatabaseAsync() const docs2 = await d.findAsync({}) docs2.sort((a, b) => a.a - b.a) assert.equal(docs2.length, 3) assert.deepEqual(docs2[0], { _id: doc1._id, a: 1, hello: 'changed' }) assert.deepEqual(docs2[1], { _id: doc2._id, a: 2, hello: 'changed' }) assert.deepEqual(docs2[2], { _id: doc3._id, a: 5, hello: 'pluton' }) }) it('Can update without the options arg (will use defaults then)', async () => { const doc1 = await d.insertAsync({ a: 1, hello: 'world' }) const doc2 = await d.insertAsync({ a: 2, hello: 'earth' }) const doc3 = await d.insertAsync({ a: 5, hello: 'pluton' }) const { numAffected } = await d.updateAsync({ a: 2 }, { $inc: { a: 10 } }) assert.equal(numAffected, 1) const docs = await d.findAsync({}) const d1 = docs.find(doc => doc._id === doc1._id) const d2 = docs.find(doc => doc._id === doc2._id) const d3 = docs.find(doc => doc._id === doc3._id) assert.equal(d1.a, 1) assert.equal(d2.a, 12) assert.equal(d3.a, 5) }) it('If a multi update fails on one document, previous updates should be rolled back', async () => { await d.ensureIndexAsync({ fieldName: 'a' }) const doc1 = await d.insertAsync({ a: 4 }) const doc2 = await d.insertAsync({ a: 5 }) const doc3 = await d.insertAsync({ a: 'abc' }) // With this query, candidates are always returned in the order 4, 5, 'abc' so it's always the last one which fails await assert.rejects(() => d.updateAsync({ a: { $in: [4, 5, 'abc'] } }, { $inc: { a: 10 } }, { multi: true })) // No index modified for (const key in d.indexes) { if (Object.prototype.hasOwnProperty.call(d.indexes, key)) { const index = d.indexes[key] const docs = index.getAll() const d1 = docs.find(doc => doc._id === doc1._id) const d2 = docs.find(doc => doc._id === doc2._id) const d3 = docs.find(doc => doc._id === doc3._id) // All changes rolled back, including those that didn't trigger an error assert.equal(d1.a, 4) assert.equal(d2.a, 5) assert.equal(d3.a, 'abc') } } }) it('If an index constraint is violated by an update, all changes should be rolled back', async () => { await d.ensureIndexAsync({ fieldName: 'a', unique: true }) const doc1 = await d.insertAsync({ a: 4 }) const doc2 = await d.insertAsync({ a: 5 }) // With this query, candidates are always returned in the order 4, 5, 'abc' so it's always the last one which fails await assert.rejects(() => d.updateAsync({ a: { $in: [4, 5, 'abc'] } }, { $set: { a: 10 } }, { multi: true })) // Check that no index was modified for (const key in d.indexes) { if (Object.prototype.hasOwnProperty.call(d.indexes, key)) { const index = d.indexes[key] const docs = index.getAll() const d1 = docs.find(doc => doc._id === doc1._id) const d2 = docs.find(doc => doc._id === doc2._id) assert.equal(d1.a, 4) assert.equal(d2.a, 5) } } }) it('If options.returnUpdatedDocs is true, return all matched docs', async () => { const docs = await d.insertAsync([{ a: 4 }, { a: 5 }, { a: 6 }]) assert.equal(docs.length, 3) const { numAffected: numAffectedEmpty, affectedDocuments: affectedDocumentsEmpty } = await d.updateAsync({ a: 7 }, { $set: { u: 1 } }, { multi: true, returnUpdatedDocs: true }) assert.equal(numAffectedEmpty, 0) assert.equal(affectedDocumentsEmpty.length, 0) const { numAffected, affectedDocuments } = await d.updateAsync({ a: 5 }, { $set: { u: 2 } }, { multi: true, returnUpdatedDocs: true }) assert.equal(numAffected, 1) assert.equal(affectedDocuments.length, 1) assert.equal(affectedDocuments[0].a, 5) assert.equal(affectedDocuments[0].u, 2) const { numAffected: numAffected2, affectedDocuments: affectedDocuments2 } = await d.updateAsync({ a: { $in: [4, 6] } }, { $set: { u: 3 } }, { multi: true, returnUpdatedDocs: true }) assert.equal(numAffected2, 2) assert.equal(affectedDocuments2.length, 2) assert.equal(affectedDocuments2[0].u, 3) assert.equal(affectedDocuments2[1].u, 3) if (affectedDocuments2[0].a === 4) { assert.equal(affectedDocuments2[0].a, 4) assert.equal(affectedDocuments2[1].a, 6) } else { assert.equal(affectedDocuments2[0].a, 6) assert.equal(affectedDocuments2[1].a, 4) } }) it('createdAt property is unchanged and updatedAt correct after an update, even a complete document replacement', async () => { const d2 = new Datastore({ inMemoryOnly: true, timestampData: true }) await d2.insertAsync({ a: 1 }) const doc = await d2.findOneAsync({ a: 1 }) const createdAt = doc.createdAt.getTime() // Modifying update await wait(20) await d2.updateAsync({ a: 1 }, { $set: { b: 2 } }, {}) const doc2 = await d2.findOneAsync({ a: 1 }) assert.equal(doc2.createdAt.getTime(), createdAt) assert.ok(Date.now() - doc2.updatedAt.getTime() < 5) // Complete replacement await wait(20) await d2.updateAsync({ a: 1 }, { c: 3 }, {}) const doc3 = await d2.findOneAsync({ c: 3 }) assert.equal(doc3.createdAt.getTime(), createdAt) assert.ok(Date.now() - doc3.updatedAt.getTime() < 5) }) }) describe('Callback signature', function () { it('Regular update, multi false', async () => { await d.insertAsync({ a: 1 }) await d.insertAsync({ a: 2 }) // returnUpdatedDocs set to false const { numAffected, affectedDocuments, upsert } = await d.updateAsync({ a: 1 }, { $set: { b: 20 } }, {}) assert.equal(numAffected, 1) assert.equal(affectedDocuments, null) assert.equal(upsert, false) // returnUpdatedDocs set to true const { numAffected: numAffected2, affectedDocuments: affectedDocuments2, upsert: upsert2 } = await d.updateAsync({ a: 1 }, { $set: { b: 21 } }, { returnUpdatedDocs: true }) assert.equal(numAffected2, 1) assert.equal(affectedDocuments2.a, 1) assert.equal(affectedDocuments2.b, 21) assert.equal(upsert2, false) }) it('Regular update, multi true', async () => { await d.insertAsync({ a: 1 }) await d.insertAsync({ a: 2 }) // returnUpdatedDocs set to false const { numAffected, affectedDocuments, upsert } = await d.updateAsync({}, { $set: { b: 20 } }, { multi: true }) assert.equal(numAffected, 2) assert.equal(affectedDocuments, null) assert.equal(upsert, false) // returnUpdatedDocs set to true const { numAffected: numAffected2, affectedDocuments: affectedDocuments2, upsert: upsert2 } = await d.updateAsync({}, { $set: { b: 21 } }, { multi: true, returnUpdatedDocs: true }) assert.equal(numAffected2, 2) assert.equal(affectedDocuments2.length, 2) assert.equal(upsert2, false) }) it('Upsert', async () => { await d.insertAsync({ a: 1 }) await d.insertAsync({ a: 2 }) // Upsert flag not set const { numAffected, affectedDocuments, upsert } = await d.updateAsync({ a: 3 }, { $set: { b: 20 } }, {}) assert.equal(numAffected, 0) assert.equal(affectedDocuments, null) assert.equal(upsert, false) // Upsert flag set const { numAffected: numAffected2, affectedDocuments: affectedDocuments2, upsert: upsert2 } = await d.updateAsync({ a: 3 }, { $set: { b: 21 } }, { upsert: true }) assert.equal(numAffected2, 1) assert.equal(affectedDocuments2.a, 3) assert.equal(affectedDocuments2.b, 21) assert.equal(upsert2, true) const docs = await d.findAsync({}) assert.equal(docs.length, 3) }) // ==== End of 'Update - Callback signature' ==== // }) // ==== End of 'Update' ==== // describe('Remove', function () { it('Can remove multiple documents', async () => { const doc1 = await d.insertAsync({ somedata: 'ok' }) await d.insertAsync({ somedata: 'again', plus: 'additional data' }) await d.insertAsync({ somedata: 'again' }) const id1 = doc1._id // Test DB status const testPostUpdateState = async () => { const docs = await d.findAsync({}) assert.equal(docs.length, 1) assert.equal(Object.keys(docs[0]).length, 2) assert.equal(docs[0]._id, id1) assert.equal(docs[0].somedata, 'ok') } // Test with query that doesn't match anything const n = await d.removeAsync({ somedata: 'again' }, { multi: true }) assert.equal(n, 2) await testPostUpdateState() await d.loadDatabaseAsync() await testPostUpdateState() }) // This tests concurrency issues it('Remove can be called multiple times in parallel and everything that needs to be removed will be', async () => { await d.insertAsync({ planet: 'Earth' }) await d.insertAsync({ planet: 'Mars' }) await d.insertAsync({ planet: 'Saturn' }) const docs = await d.findAsync({}) assert.equal(docs.length, 3) // Remove two docs simultaneously const toRemove = ['Mars', 'Saturn'] await Promise.all(toRemove.map(planet => d.removeAsync({ planet }))) const docs2 = await d.findAsync({}) assert.equal(docs2.length, 1) }) it('Returns an error if the query is not well formed', async () => { await d.insertAsync({ hello: 'world' }) await assert.rejects(() => d.removeAsync({ $or: { hello: 'world' } }, {})) }) it('Non-multi removes are persistent', async () => { const doc1 = await d.insertAsync({ a: 1, hello: 'world' }) await d.insertAsync({ a: 2, hello: 'earth' }) const doc3 = await d.insertAsync({ a: 3, hello: 'moto' }) await d.removeAsync({ a: 2 }, {}) const docs = await d.findAsync({}) docs.sort((a, b) => a.a - b.a) assert.equal(docs.length, 2) assert.deepEqual(docs[0], { _id: doc1._id, a: 1, hello: 'world' }) assert.deepEqual(docs[1], { _id: doc3._id, a: 3, hello: 'moto' }) // Even after a reload the database state hasn't changed await d.loadDatabaseAsync() const docsReloaded = await d.findAsync({}) docsReloaded.sort((a, b) => a.a - b.a) assert.equal(docsReloaded.length, 2) assert.deepEqual(docsReloaded[0], { _id: doc1._id, a: 1, hello: 'world' }) assert.deepEqual(docsReloaded[1], { _id: doc3._id, a: 3, hello: 'moto' }) }) it('Multi removes are persistent', async () => { await d.insertAsync({ a: 1, hello: 'world' }) const doc2 = await d.insertAsync({ a: 2, hello: 'earth' }) await d.insertAsync({ a: 3, hello: 'moto' }) await d.removeAsync({ a: { $in: [1, 3] } }, { multi: true }) const docs = await d.findAsync({}) assert.equal(docs.length, 1) assert.deepEqual(docs[0], { _id: doc2._id, a: 2, hello: 'earth' }) // Even after a reload the database state hasn't changed await d.loadDatabaseAsync() const docsReloaded = await d.findAsync({}) assert.equal(docsReloaded.length, 1) assert.deepEqual(docsReloaded[0], { _id: doc2._id, a: 2, hello: 'earth' }) }) it('Can remove without the options arg (will use defaults then)', async () => { const doc1 = await d.insertAsync({ a: 1, hello: 'world' }) const doc2 = await d.insertAsync({ a: 2, hello: 'earth' }) const doc3 = await d.insertAsync({ a: 5, hello: 'pluton' }) const numRemoved = await d.removeAsync({ a: 2 }) assert.equal(numRemoved, 1) const docs = await d.findAsync({}) const d1 = docs.find(doc => doc._id === doc1._id) const d2 = docs.find(doc => doc._id === doc2._id) const d3 = docs.find(doc => doc._id === doc3._id) assert.equal(d1.a, 1) assert.equal(d2, undefined) assert.equal(d3.a, 5) }) }) // ==== End of 'Remove' ==== // describe('Using indexes', function () { describe('ensureIndex and index initialization in database loading', function () { it('ensureIndex can be called right after a loadDatabase and be initialized and filled correctly', async () => { const now = new Date() const rawData = model.serialize({ _id: 'aaa', z: '1', a: 2, ages: [1, 5, 12] }) + '\n' + model.serialize({ _id: 'bbb', z: '2', hello: 'world' }) + '\n' + model.serialize({ _id: 'ccc', z: '3', nested: { today: now } }) assert.equal(d.getAllData().length, 0) await fs.writeFile(testDb, rawData, 'utf8') await d.loadDatabaseAsync() assert.equal(d.getAllData().length, 3) assert.deepEqual(Object.keys(d.indexes), ['_id']) await d.ensureIndexAsync({ fieldName: 'z' }) assert.equal(d.indexes.z.fieldName, 'z') assert.equal(d.indexes.z.unique, false) assert.equal(d.indexes.z.sparse, false) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.z.tree.search('1')[0], d.getAllData()[0]) assert.equal(d.indexes.z.tree.search('2')[0], d.getAllData()[1]) assert.equal(d.indexes.z.tree.search('3')[0], d.getAllData()[2]) }) it('ensureIndex can be called twice on the same field, the second call will have no effect', async () => { assert.equal(Object.keys(d.indexes).length, 1) assert.equal(Object.keys(d.indexes)[0], '_id') await d.insertAsync({ planet: 'Earth' }) await d.insertAsync({ planet: 'Mars' }) const docs = await d.findAsync({}) assert.equal(docs.length, 2) await d.ensureIndexAsync({ fieldName: 'planet' }) assert.equal(Object.keys(d.indexes).length, 2) assert.equal(Object.keys(d.indexes)[0], '_id') assert.equal(Object.keys(d.indexes)[1], 'planet') assert.equal(d.indexes.planet.getAll().length, 2) // This second call has no effect, documents don't get inserted twice in the index await d.ensureIndexAsync({ fieldName: 'planet' }) assert.equal(Object.keys(d.indexes).length, 2) assert.equal(Object.keys(d.indexes)[0], '_id') assert.equal(Object.keys(d.indexes)[1], 'planet') assert.equal(d.indexes.planet.getAll().length, 2) }) it('ensureIndex can be called twice on the same compound field, the second call will have no effect', async () => { assert.equal(Object.keys(d.indexes).length, 1) assert.equal(Object.keys(d.indexes)[0], '_id') await d.insertAsync({ star: 'sun', planet: 'Earth' }) await d.insertAsync({ star: 'sun', planet: 'Mars' }) const docs = await d.findAsync({}) assert.equal(docs.length, 2) await d.ensureIndexAsync({ fieldName: ['star', 'planet'] }) assert.equal(Object.keys(d.indexes).length, 2) assert.equal(Object.keys(d.indexes)[0], '_id') assert.equal(Object.keys(d.indexes)[1], 'planet,star') assert.equal(d.indexes['planet,star'].getAll().length, 2) // This second call has no effect, documents don't get inserted twice in the index await d.ensureIndexAsync({ fieldName: ['star', 'planet'] }) assert.equal(Object.keys(d.indexes).length, 2) assert.equal(Object.keys(d.indexes)[0], '_id') assert.equal(Object.keys(d.indexes)[1], 'planet,star') assert.equal(d.indexes['planet,star'].getAll().length, 2) }) it('ensureIndex can be called twice on the same compound field with a different order, the second call will have no effect', async () => { assert.equal(Object.keys(d.indexes).length, 1) assert.equal(Object.keys(d.indexes)[0], '_id') await d.insertAsync({ star: 'sun', planet: 'Earth' }) await d.insertAsync({ star: 'sun', planet: 'Mars' }) const docs = await d.findAsync({}) assert.equal(docs.length, 2) await d.ensureIndexAsync({ fieldName: ['star', 'planet'] }) assert.equal(Object.keys(d.indexes).length, 2) assert.equal(Object.keys(d.indexes)[0], '_id') assert.equal(Object.keys(d.indexes)[1], 'planet,star') assert.equal(d.indexes['planet,star'].getAll().length, 2) // This second call has no effect, documents don't get inserted twice in the index await d.ensureIndexAsync({ fieldName: ['planet', 'star'] }) assert.equal(Object.keys(d.indexes).length, 2) assert.equal(Object.keys(d.indexes)[0], '_id') assert.equal(Object.keys(d.indexes)[1], 'planet,star') assert.equal(d.indexes['planet,star'].getAll().length, 2) }) it('ensureIndex cannot be called with an illegal field name', async () => { await assert.rejects(() => d.ensureIndexAsync({ fieldName: 'star,planet' }), err => { assert.notEqual(err, null) return true }) await assert.rejects(() => d.ensureIndexAsync({ fieldName: ['star,planet', 'other'] }), err => { assert.notEqual(err, null) return true }) }) it('ensureIndex can be called after the data set was modified and the index still be correct', async () => { const rawData = model.serialize({ _id: 'aaa', z: '1', a: 2, ages: [1, 5, 12] }) + '\n' + model.serialize({ _id: 'bbb', z: '2', hello: 'world' }) assert.equal(d.getAllData().length, 0) await fs.writeFile(testDb, rawData, 'utf8') await d.loadDatabaseAsync() assert.equal(d.getAllData().length, 2) assert.deepEqual(Object.keys(d.indexes), ['_id']) // eslint-disable-next-line n/handle-callback-err const newDoc1 = await d.insertAsync({ z: '12', yes: 'yes' }) // eslint-disable-next-line n/handle-callback-err const newDoc2 = await d.insertAsync({ z: '14', nope: 'nope' }) await d.removeAsync({ z: '2' }, {}) await d.updateAsync({ z: '1' }, { $set: { yes: 'yep' } }, {}) assert.deepEqual(Object.keys(d.indexes), ['_id']) await d.ensureIndexAsync({ fieldName: 'z' }) assert.equal(d.indexes.z.fieldName, 'z') assert.equal(d.indexes.z.unique, false) assert.equal(d.indexes.z.sparse, false) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 3) // The pointers in the _id and z indexes are the same assert.equal(d.indexes.z.tree.search('1')[0], d.indexes._id.getMatching('aaa')[0]) assert.equal(d.indexes.z.tree.search('12')[0], d.indexes._id.getMatching(newDoc1._id)[0]) assert.equal(d.indexes.z.tree.search('14')[0], d.indexes._id.getMatching(newDoc2._id)[0]) // The data in the z index is correct const docs = await d.findAsync({}) const doc0 = docs.find(doc => doc._id === 'aaa') const doc1 = docs.find(doc => doc._id === newDoc1._id) const doc2 = docs.find(doc => doc._id === newDoc2._id) assert.equal(docs.length, 3) assert.deepEqual(doc0, { _id: 'aaa', z: '1', a: 2, ages: [1, 5, 12], yes: 'yep' }) assert.deepEqual(doc1, { _id: newDoc1._id, z: '12', yes: 'yes' }) assert.deepEqual(doc2, { _id: newDoc2._id, z: '14', nope: 'nope' }) }) it('ensureIndex can be called before a loadDatabase and still be initialized and filled correctly', async () => { const now = new Date() const rawData = model.serialize({ _id: 'aaa', z: '1', a: 2, ages: [1, 5, 12] }) + '\n' + model.serialize({ _id: 'bbb', z: '2', hello: 'world' }) + '\n' + model.serialize({ _id: 'ccc', z: '3', nested: { today: now } }) assert.equal(d.getAllData().length, 0) await d.ensureIndexAsync({ fieldName: 'z' }) assert.equal(d.indexes.z.fieldName, 'z') assert.equal(d.indexes.z.unique, false) assert.equal(d.indexes.z.sparse, false) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 0) await fs.writeFile(testDb, rawData, 'utf8') await d.loadDatabaseAsync() const doc1 = d.getAllData().find(doc => doc.z === '1') const doc2 = d.getAllData().find(doc => doc.z === '2') const doc3 = d.getAllData().find(doc => doc.z === '3') assert.equal(d.getAllData().length, 3) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.z.tree.search('1')[0], doc1) assert.equal(d.indexes.z.tree.search('2')[0], doc2) assert.equal(d.indexes.z.tree.search('3')[0], doc3) }) it('Can initialize multiple indexes on a database load', async () => { const now = new Date() const rawData = model.serialize({ _id: 'aaa', z: '1', a: 2, ages: [1, 5, 12] }) + '\n' + model.serialize({ _id: 'bbb', z: '2', a: 'world' }) + '\n' + model.serialize({ _id: 'ccc', z: '3', a: { today: now } }) assert.equal(d.getAllData().length, 0) await d.ensureIndexAsync({ fieldName: 'z' }) await d.ensureIndexAsync({ fieldName: 'a' }) assert.equal(d.indexes.a.tree.getNumberOfKeys(), 0) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 0) await fs.writeFile(testDb, rawData, 'utf8') await d.loadDatabaseAsync() const doc1 = d.getAllData().find(doc => doc.z === '1') const doc2 = d.getAllData().find(doc => doc.z === '2') const doc3 = d.getAllData().find(doc => doc.z === '3') assert.equal(d.getAllData().length, 3) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.z.tree.search('1')[0], doc1) assert.equal(d.indexes.z.tree.search('2')[0], doc2) assert.equal(d.indexes.z.tree.search('3')[0], doc3) assert.equal(d.indexes.a.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.a.tree.search(2)[0], doc1) assert.equal(d.indexes.a.tree.search('world')[0], doc2) assert.equal(d.indexes.a.tree.search({ today: now })[0], doc3) }) it('If a unique constraint is not respected, database loading will not work and no data will be inserted', async () => { const now = new Date() const rawData = model.serialize({ _id: 'aaa', z: '1', a: 2, ages: [1, 5, 12] }) + '\n' + model.serialize({ _id: 'bbb', z: '2', a: 'world' }) + '\n' + model.serialize({ _id: 'ccc', z: '1', a: { today: now } }) assert.equal(d.getAllData().length, 0) await d.ensureIndexAsync({ fieldName: 'z', unique: true }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 0) await fs.writeFile(testDb, rawData, 'utf8') await assert.rejects(() => d.loadDatabaseAsync(), err => { assert.equal(err.errorType, 'uniqueViolated') assert.equal(err.key, '1') return true }) assert.equal(d.getAllData().length, 0) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 0) }) it('If a unique constraint is not respected, ensureIndex will return an error and not create an index', async () => { await d.insertAsync({ a: 1, b: 4 }) await d.insertAsync({ a: 2, b: 45 }) await d.insertAsync({ a: 1, b: 3 }) await d.ensureIndexAsync({ fieldName: 'b' }) await assert.rejects(() => d.ensureIndexAsync({ fieldName: 'a', unique: true }), err => { assert.equal(err.errorType, 'uniqueViolated') assert.deepEqual(Object.keys(d.indexes), ['_id', 'b']) return true }) }) it('Can remove an index', async () => { await d.ensureIndexAsync({ fieldName: 'e' }) assert.equal(Object.keys(d.indexes).length, 2) assert.notEqual(d.indexes.e, null) await d.removeIndexAsync('e') assert.equal(Object.keys(d.indexes).length, 1) assert.equal(d.indexes.e, undefined) }) }) // ==== End of 'ensureIndex and index initialization in database loading' ==== // describe('Indexing newly inserted documents', function () { it('Newly inserted documents are indexed', async () => { await d.ensureIndexAsync({ fieldName: 'z' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 0) const newDoc = await d.insertAsync({ a: 2, z: 'yes' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 1) assert.deepEqual(d.indexes.z.getMatching('yes'), [newDoc]) const newDoc2 = await d.insertAsync({ a: 5, z: 'nope' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 2) assert.deepEqual(d.indexes.z.getMatching('nope'), [newDoc2]) }) it('If multiple indexes are defined, the document is inserted in all of them', async () => { await d.ensureIndexAsync({ fieldName: 'z' }) await d.ensureIndexAsync({ fieldName: 'ya' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 0) const newDoc = await d.insertAsync({ a: 2, z: 'yes', ya: 'indeed' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 1) assert.equal(d.indexes.ya.tree.getNumberOfKeys(), 1) assert.deepEqual(d.indexes.z.getMatching('yes'), [newDoc]) assert.deepEqual(d.indexes.ya.getMatching('indeed'), [newDoc]) const newDoc2 = await d.insertAsync({ a: 5, z: 'nope', ya: 'sure' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.ya.tree.getNumberOfKeys(), 2) assert.deepEqual(d.indexes.z.getMatching('nope'), [newDoc2]) assert.deepEqual(d.indexes.ya.getMatching('sure'), [newDoc2]) }) it('Can insert two docs at the same key for a non unique index', async () => { await d.ensureIndexAsync({ fieldName: 'z' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 0) const newDoc = await d.insertAsync({ a: 2, z: 'yes' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 1) assert.deepEqual(d.indexes.z.getMatching('yes'), [newDoc]) const newDoc2 = await d.insertAsync({ a: 5, z: 'yes' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 1) assert.deepEqual(d.indexes.z.getMatching('yes'), [newDoc, newDoc2]) }) it('If the index has a unique constraint, an error is thrown if it is violated and the data is not modified', async () => { await d.ensureIndexAsync({ fieldName: 'z', unique: true }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 0) const newDoc = await d.insertAsync({ a: 2, z: 'yes' }) assert.equal(d.indexes.z.tree.getNumberOfKeys(), 1) assert.deepEqual(d.indexes.z.getMatching('yes'), [newDoc]) await assert.rejects(() => d.insertAsync({ a: 5, z: 'yes' }), err => { assert.equal(err.errorType, 'uniqueViolated') assert.equal(err.key, 'yes') return true }) // Index didn't change assert.equal(d.indexes.z.tree.getNumberOfKeys(), 1) assert.deepEqual(d.indexes.z.getMatching('yes'), [newDoc]) // Data didn't change assert.deepEqual(d.getAllData(), [newDoc]) await d.loadDatabaseAsync() assert.equal(d.getAllData().length, 1) assert.deepEqual(d.getAllData()[0], newDoc) }) it('If an index has a unique constraint, other indexes cannot be modified when it raises an error', async () => { await d.ensureIndexAsync({ fieldName: 'nonu1' }) await d.ensureIndexAsync({ fieldName: 'uni', unique: true }) await d.ensureIndexAsync({ fieldName: 'nonu2' }) const newDoc = await d.insertAsync({ nonu1: 'yes', nonu2: 'yes2', uni: 'willfail' }) assert.equal(d.indexes.nonu1.tree.getNumberOfKeys(), 1) assert.equal(d.indexes.uni.tree.getNumberOfKeys(), 1) assert.equal(d.indexes.nonu2.tree.getNumberOfKeys(), 1) await assert.rejects(() => d.insertAsync({ nonu1: 'no', nonu2: 'no2', uni: 'willfail' }), err => { assert.equal(err.errorType, 'uniqueViolated') return true }) // No index was modified assert.equal(d.indexes.nonu1.tree.getNumberOfKeys(), 1) assert.equal(d.indexes.uni.tree.getNumberOfKeys(), 1) assert.equal(d.indexes.nonu2.tree.getNumberOfKeys(), 1) assert.deepEqual(d.indexes.nonu1.getMatching('yes'), [newDoc]) assert.deepEqual(d.indexes.uni.getMatching('willfail'), [newDoc]) assert.deepEqual(d.indexes.nonu2.getMatching('yes2'), [newDoc]) }) it('Unique indexes prevent you from inserting two docs where the field is undefined except if theyre sparse', async () => { await d.ensureIndexAsync({ fieldName: 'zzz', unique: true }) assert.equal(d.indexes.zzz.tree.getNumberOfKeys(), 0) const newDoc = await d.insertAsync({ a: 2, z: 'yes' }) assert.equal(d.indexes.zzz.tree.getNumberOfKeys(), 1) assert.deepEqual(d.indexes.zzz.getMatching(undefined), [newDoc]) await assert.rejects(() => d.insertAsync({ a: 5, z: 'other' }), err => { assert.equal(err.errorType, 'uniqueViolated') assert.equal(err.key, undefined) return true }) await d.ensureIndexAsync({ fieldName: 'yyy', unique: true, sparse: true }) await d.insertAsync({ a: 5, z: 'other', zzz: 'set' }) assert.equal(d.indexes.yyy.getAll().length, 0) // Nothing indexed assert.equal(d.indexes.zzz.getAll().length, 2) }) it('Insertion still works as before with indexing', async () => { await d.ensureIndexAsync({ fieldName: 'a' }) await d.ensureIndexAsync({ fieldName: 'b' }) const doc1 = await d.insertAsync({ a: 1, b: 'hello' }) const doc2 = await d.insertAsync({ a: 2, b: 'si' }) const docs = await d.findAsync({}) assert.deepEqual(doc1, docs.find(function (d) { return d._id === doc1._id })) assert.deepEqual(doc2, docs.find(function (d) { return d._id === doc2._id })) }) it('All indexes point to the same data as the main index on _id', async () => { await d.ensureIndexAsync({ fieldName: 'a' }) const doc1 = await d.insertAsync({ a: 1, b: 'hello' }) const doc2 = await d.insertAsync({ a: 2, b: 'si' }) const docs = await d.findAsync({}) assert.equal(docs.length, 2) assert.equal(d.getAllData().length, 2) assert.equal(d.indexes._id.getMatching(doc1._id).length, 1) assert.equal(d.indexes.a.getMatching(1).length, 1) assert.equal(d.indexes._id.getMatching(doc1._id)[0], d.indexes.a.getMatching(1)[0]) assert.equal(d.indexes._id.getMatching(doc2._id).length, 1) assert.equal(d.indexes.a.getMatching(2).length, 1) assert.equal(d.indexes._id.getMatching(doc2._id)[0], d.indexes.a.getMatching(2)[0]) }) it('If a unique constraint is violated, no index is changed, including the main one', async () => { await d.ensureIndexAsync({ fieldName: 'a', unique: true }) const doc1 = await d.insertAsync({ a: 1, b: 'hello' }) await assert.rejects(() => d.insertAsync({ a: 1, b: 'si' })) const docs = await d.findAsync({}) assert.equal(docs.length, 1) assert.equal(d.getAllData().length, 1) assert.equal(d.indexes._id.getMatching(doc1._id).length, 1) assert.equal(d.indexes.a.getMatching(1).length, 1) assert.equal(d.indexes._id.getMatching(doc1._id)[0], d.indexes.a.getMatching(1)[0]) assert.equal(d.indexes.a.getMatching(2).length, 0) }) }) // ==== End of 'Indexing newly inserted documents' ==== // describe('Updating indexes upon document update', function () { it('Updating docs still works as before with indexing', async () => { await d.ensureIndexAsync({ fieldName: 'a' }) const _doc1 = await d.insertAsync({ a: 1, b: 'hello' }) const _doc2 = await d.insertAsync({ a: 2, b: 'si' }) const { numAffected } = await d.updateAsync({ a: 1 }, { $set: { a: 456, b: 'no' } }, {}) const data = d.getAllData() const doc1 = data.find(doc => doc._id === _doc1._id) const doc2 = data.find(doc => doc._id === _doc2._id) assert.equal(numAffected, 1) assert.equal(data.length, 2) assert.deepEqual(doc1, { a: 456, b: 'no', _id: _doc1._id }) assert.deepEqual(doc2, { a: 2, b: 'si', _id: _doc2._id }) const { numAffected: numAffectedAfterUpdate } = await d.updateAsync({}, { $inc: { a: 10 }, $set: { b: 'same' } }, { multi: true }) const dataAfterUpdate = d.getAllData() const doc1AfterUpdate = dataAfterUpdate.find(doc => doc._id === _doc1._id) const doc2AfterUpdate = dataAfterUpdate.find(doc => doc._id === _doc2._id) assert.equal(numAffectedAfterUpdate, 2) assert.equal(dataAfterUpdate.length, 2) assert.deepEqual(doc1AfterUpdate, { a: 466, b: 'same', _id: _doc1._id }) assert.deepEqual(doc2AfterUpdate, { a: 12, b: 'same', _id: _doc2._id }) }) it('Indexes get updated when a document (or multiple documents) is updated', async () => { await d.ensureIndexAsync({ fieldName: 'a' }) await d.ensureIndexAsync({ fieldName: 'b' }) const doc1 = await d.insertAsync({ a: 1, b: 'hello' }) const doc2 = await d.insertAsync({ a: 2, b: 'si' }) // Simple update const { numAffected } = await d.updateAsync({ a: 1 }, { $set: { a: 456, b: 'no' } }, {}) assert.equal(numAffected, 1) assert.equal(d.indexes.a.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.a.getMatching(456)[0]._id, doc1._id) assert.equal(d.indexes.a.getMatching(2)[0]._id, doc2._id) assert.equal(d.indexes.b.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.b.getMatching('no')[0]._id, doc1._id) assert.equal(d.indexes.b.getMatching('si')[0]._id, doc2._id) // The same pointers are shared between all indexes assert.equal(d.indexes.a.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.b.tree.getNumberOfKeys(), 2) assert.equal(d.indexes._id.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.a.getMatching(456)[0], d.indexes._id.getMatching(doc1._id)[0]) assert.equal(d.indexes.b.getMatching('no')[0], d.indexes._id.getMatching(doc1._id)[0]) assert.equal(d.indexes.a.getMatching(2)[0], d.indexes._id.getMatching(doc2._id)[0]) assert.equal(d.indexes.b.getMatching('si')[0], d.indexes._id.getMatching(doc2._id)[0]) // Multi update const { numAffected: numAffectedMulti } = await d.updateAsync({}, { $inc: { a: 10 }, $set: { b: 'same' } }, { multi: true }) assert.equal(numAffectedMulti, 2) assert.equal(d.indexes.a.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.a.getMatching(466)[0]._id, doc1._id) assert.equal(d.indexes.a.getMatching(12)[0]._id, doc2._id) assert.equal(d.indexes.b.tree.getNumberOfKeys(), 1) assert.equal(d.indexes.b.getMatching('same').length, 2) assert.ok(d.indexes.b.getMatching('same').map(x => x._id).includes(doc1._id)) assert.ok(d.indexes.b.getMatching('same').map(x => x._id).includes(doc2._id)) // The same pointers are shared between all indexes assert.equal(d.indexes.a.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.b.tree.getNumberOfKeys(), 1) assert.equal(d.indexes.b.getAll().length, 2) assert.equal(d.indexes._id.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.a.getMatching(466)[0], d.indexes._id.getMatching(doc1._id)[0]) assert.equal(d.indexes.a.getMatching(12)[0], d.indexes._id.getMatching(doc2._id)[0]) // Can't test the pointers in b as their order is randomized, but it is the same as with a }) it('If a simple update violates a contraint, all changes are rolled back and an error is thrown', async () => { await d.ensureIndexAsync({ fieldName: 'a', unique: true }) await d.ensureIndexAsync({ fieldName: 'b', unique: true }) await d.ensureIndexAsync({ fieldName: 'c', unique: true }) const _doc1 = await d.insertAsync({ a: 1, b: 10, c: 100 }) const _doc2 = await d.insertAsync({ a: 2, b: 20, c: 200 }) const _doc3 = await d.insertAsync({ a: 3, b: 30, c: 300 }) // Will conflict with doc3 await assert.rejects(() => d.updateAsync({ a: 2 }, { $inc: { a: 10, c: 1000 }, $set: { b: 30 } }, {}), err => { assert.equal(err.errorType, 'uniqueViolated') return true }) const data = d.getAllData() const doc1 = data.find(doc => doc._id === _doc1._id) const doc2 = data.find(doc => doc._id === _doc2._id) const doc3 = data.find(doc => doc._id === _doc3._id) // Data left unchanged assert.equal(data.length, 3) assert.deepEqual(doc1, { a: 1, b: 10, c: 100, _id: _doc1._id }) assert.deepEqual(doc2, { a: 2, b: 20, c: 200, _id: _doc2._id }) assert.deepEqual(doc3, { a: 3, b: 30, c: 300, _id: _doc3._id }) // All indexes left unchanged and pointing to the same docs assert.equal(d.indexes.a.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.a.getMatching(1)[0], doc1) assert.equal(d.indexes.a.getMatching(2)[0], doc2) assert.equal(d.indexes.a.getMatching(3)[0], doc3) assert.equal(d.indexes.b.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.b.getMatching(10)[0], doc1) assert.equal(d.indexes.b.getMatching(20)[0], doc2) assert.equal(d.indexes.b.getMatching(30)[0], doc3) assert.equal(d.indexes.c.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.c.getMatching(100)[0], doc1) assert.equal(d.indexes.c.getMatching(200)[0], doc2) assert.equal(d.indexes.c.getMatching(300)[0], doc3) }) it('If a multi update violates a contraint, all changes are rolled back and an error is thrown', async () => { await d.ensureIndexAsync({ fieldName: 'a', unique: true }) await d.ensureIndexAsync({ fieldName: 'b', unique: true }) await d.ensureIndexAsync({ fieldName: 'c', unique: true }) const _doc1 = await d.insertAsync({ a: 1, b: 10, c: 100 }) const _doc2 = await d.insertAsync({ a: 2, b: 20, c: 200 }) const _doc3 = await d.insertAsync({ a: 3, b: 30, c: 300 }) // Will conflict with doc3 await assert.rejects(() => d.updateAsync({ a: { $in: [1, 2] } }, { $inc: { a: 10, c: 1000 }, $set: { b: 30 } }, { multi: true }), err => { assert.equal(err.errorType, 'uniqueViolated') return true }) const data = d.getAllData() const doc1 = data.find(doc => doc._id === _doc1._id) const doc2 = data.find(doc => doc._id === _doc2._id) const doc3 = data.find(doc => doc._id === _doc3._id) // Data left unchanged assert.equal(data.length, 3) assert.deepEqual(doc1, { a: 1, b: 10, c: 100, _id: _doc1._id }) assert.deepEqual(doc2, { a: 2, b: 20, c: 200, _id: _doc2._id }) assert.deepEqual(doc3, { a: 3, b: 30, c: 300, _id: _doc3._id }) // All indexes left unchanged and pointing to the same docs assert.equal(d.indexes.a.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.a.getMatching(1)[0], doc1) assert.equal(d.indexes.a.getMatching(2)[0], doc2) assert.equal(d.indexes.a.getMatching(3)[0], doc3) assert.equal(d.indexes.b.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.b.getMatching(10)[0], doc1) assert.equal(d.indexes.b.getMatching(20)[0], doc2) assert.equal(d.indexes.b.getMatching(30)[0], doc3) assert.equal(d.indexes.c.tree.getNumberOfKeys(), 3) assert.equal(d.indexes.c.getMatching(100)[0], doc1) assert.equal(d.indexes.c.getMatching(200)[0], doc2) assert.equal(d.indexes.c.getMatching(300)[0], doc3) }) }) // ==== End of 'Updating indexes upon document update' ==== // describe('Updating indexes upon document remove', function () { it('Removing docs still works as before with indexing', async () => { await d.ensureIndexAsync({ fieldName: 'a' }) await d.insertAsync({ a: 1, b: 'hello' }) const _doc2 = await d.insertAsync({ a: 2, b: 'si' }) const _doc3 = await d.insertAsync({ a: 3, b: 'coin' }) const numRemoved = await d.removeAsync({ a: 1 }, {}) const data = d.getAllData() const doc2 = data.find(function (doc) { return doc._id === _doc2._id }) const doc3 = data.find(function (doc) { return doc._id === _doc3._id }) assert.equal(numRemoved, 1) assert.equal(data.length, 2) assert.deepEqual(doc2, { a: 2, b: 'si', _id: _doc2._id }) assert.deepEqual(doc3, { a: 3, b: 'coin', _id: _doc3._id }) const numRemoved2 = await d.removeAsync({ a: { $in: [2, 3] } }, { multi: true }) const data2 = d.getAllData() assert.equal(numRemoved2, 2) assert.equal(data2.length, 0) }) it('Indexes get updated when a document (or multiple documents) is removed', async () => { await d.ensureIndexAsync({ fieldName: 'a' }) await d.ensureIndexAsync({ fieldName: 'b' }) await d.insertAsync({ a: 1, b: 'hello' }) const doc2 = await d.insertAsync({ a: 2, b: 'si' }) const doc3 = await d.insertAsync({ a: 3, b: 'coin' }) // Simple remove const numRemoved = await d.removeAsync({ a: 1 }, {}) assert.equal(numRemoved, 1) assert.equal(d.indexes.a.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.a.getMatching(2)[0]._id, doc2._id) assert.equal(d.indexes.a.getMatching(3)[0]._id, doc3._id) assert.equal(d.indexes.b.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.b.getMatching('si')[0]._id, doc2._id) assert.equal(d.indexes.b.getMatching('coin')[0]._id, doc3._id) // The same pointers are shared between all indexes assert.equal(d.indexes.a.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.b.tree.getNumberOfKeys(), 2) assert.equal(d.indexes._id.tree.getNumberOfKeys(), 2) assert.equal(d.indexes.a.getMatching(2)[0], d.indexes._id.getMatching(doc2._id)[0]) assert.equal(d.indexes.b.getMatching('si')[0], d.indexes._id.getMatching(doc2._id)[0]) assert.equal(d.indexes.a.getMatching(3)[0], d.indexes._id.getMatching(doc3._id)[0]) assert.equal(d.indexes.b.getMatching('coin')[0], d.indexes._id.getMatching(doc3._id)[0]) // Multi remove const numRemovedMulti = await d.removeAsync({}, { multi: true }) assert.equal(numRemovedMulti, 2) assert.equal(d.indexes.a.tree.getNumberOfKeys(), 0) assert.equal(d.indexes.b.tree.getNumberOfKeys(), 0) assert.equal(d.indexes._id.tree.getNumberOfKeys(), 0) }) }) // ==== End of 'Updating indexes upon document remove' ==== // describe('Persisting indexes', function () { it('Indexes are persisted to a separate file and recreated upon reload', async () => { const persDb = 'workspace/persistIndexes.db' let db if (await exists(persDb)) await fs.unlink(persDb) db = new Datastore({ filename: persDb, autoload: true }) assert.equal(Object.keys(db.indexes).length, 1) assert.equal(Object.keys(db.indexes)[0], '_id') await db.insertAsync({ planet: 'Earth' }) await db.insertAsync({ planet: 'Mars' }) await db.ensureIndexAsync({ fieldName: 'planet' }) assert.equal(Object.keys(db.indexes).length, 2) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'planet') assert.equal(db.indexes._id.getAll().length, 2) assert.equal(db.indexes.planet.getAll().length, 2) assert.equal(db.indexes.planet.fieldName, 'planet') // After a reload the indexes are recreated db = new Datastore({ filename: persDb }) await db.loadDatabaseAsync() assert.equal(Object.keys(db.indexes).length, 2) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'planet') assert.equal(db.indexes._id.getAll().length, 2) assert.equal(db.indexes.planet.getAll().length, 2) assert.equal(db.indexes.planet.fieldName, 'planet') // After another reload the indexes are still there (i.e. they are preserved during autocompaction) db = new Datastore({ filename: persDb }) await db.loadDatabaseAsync() assert.equal(Object.keys(db.indexes).length, 2) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'planet') assert.equal(db.indexes._id.getAll().length, 2) assert.equal(db.indexes.planet.getAll().length, 2) assert.equal(db.indexes.planet.fieldName, 'planet') }) it('Indexes are persisted with their options and recreated even if some db operation happen between loads', async () => { const persDb = 'workspace/persistIndexes.db' let db if (await exists(persDb)) await fs.unlink(persDb) db = new Datastore({ filename: persDb, autoload: true }) assert.equal(Object.keys(db.indexes).length, 1) assert.equal(Object.keys(db.indexes)[0], '_id') await db.insertAsync({ planet: 'Earth' }) await db.insertAsync({ planet: 'Mars' }) await db.ensureIndexAsync({ fieldName: 'planet', unique: true, sparse: false }) assert.equal(Object.keys(db.indexes).length, 2) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'planet') assert.equal(db.indexes._id.getAll().length, 2) assert.equal(db.indexes.planet.getAll().length, 2) assert.equal(db.indexes.planet.unique, true) assert.equal(db.indexes.planet.sparse, false) await db.insertAsync({ planet: 'Jupiter' }) // After a reload the indexes are recreated db = new Datastore({ filename: persDb }) await db.loadDatabaseAsync() assert.equal(Object.keys(db.indexes).length, 2) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'planet') assert.equal(db.indexes._id.getAll().length, 3) assert.equal(db.indexes.planet.getAll().length, 3) assert.equal(db.indexes.planet.unique, true) assert.equal(db.indexes.planet.sparse, false) await db.ensureIndexAsync({ fieldName: 'bloup', unique: false, sparse: true }) assert.equal(Object.keys(db.indexes).length, 3) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'planet') assert.equal(Object.keys(db.indexes)[2], 'bloup') assert.equal(db.indexes._id.getAll().length, 3) assert.equal(db.indexes.planet.getAll().length, 3) assert.equal(db.indexes.bloup.getAll().length, 0) assert.equal(db.indexes.planet.unique, true) assert.equal(db.indexes.planet.sparse, false) assert.equal(db.indexes.bloup.unique, false) assert.equal(db.indexes.bloup.sparse, true) // After another reload the indexes are still there (i.e. they are preserved during autocompaction) db = new Datastore({ filename: persDb }) await db.loadDatabaseAsync() assert.equal(Object.keys(db.indexes).length, 3) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'planet') assert.equal(Object.keys(db.indexes)[2], 'bloup') assert.equal(db.indexes._id.getAll().length, 3) assert.equal(db.indexes.planet.getAll().length, 3) assert.equal(db.indexes.bloup.getAll().length, 0) assert.equal(db.indexes.planet.unique, true) assert.equal(db.indexes.planet.sparse, false) assert.equal(db.indexes.bloup.unique, false) assert.equal(db.indexes.bloup.sparse, true) }) it('Indexes can also be removed and the remove persisted', async () => { const persDb = 'workspace/persistIndexes.db' let db if (await exists(persDb)) await fs.unlink(persDb) db = new Datastore({ filename: persDb, autoload: true }) assert.equal(Object.keys(db.indexes).length, 1) assert.equal(Object.keys(db.indexes)[0], '_id') await db.insertAsync({ planet: 'Earth' }) await db.insertAsync({ planet: 'Mars' }) await db.ensureIndexAsync({ fieldName: 'planet' }) await db.ensureIndexAsync({ fieldName: 'another' }) assert.equal(Object.keys(db.indexes).length, 3) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'planet') assert.equal(Object.keys(db.indexes)[2], 'another') assert.equal(db.indexes._id.getAll().length, 2) assert.equal(db.indexes.planet.getAll().length, 2) assert.equal(db.indexes.planet.fieldName, 'planet') // After a reload the indexes are recreated db = new Datastore({ filename: persDb }) await db.loadDatabaseAsync() assert.equal(Object.keys(db.indexes).length, 3) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'planet') assert.equal(Object.keys(db.indexes)[2], 'another') assert.equal(db.indexes._id.getAll().length, 2) assert.equal(db.indexes.planet.getAll().length, 2) assert.equal(db.indexes.planet.fieldName, 'planet') // Index is removed await db.removeIndexAsync('planet') assert.equal(Object.keys(db.indexes).length, 2) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'another') assert.equal(db.indexes._id.getAll().length, 2) // After a reload indexes are preserved db = new Datastore({ filename: persDb }) await db.loadDatabaseAsync() assert.equal(Object.keys(db.indexes).length, 2) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'another') assert.equal(db.indexes._id.getAll().length, 2) // After another reload the indexes are still there (i.e. they are preserved during autocompaction) db = new Datastore({ filename: persDb }) await db.loadDatabaseAsync() assert.equal(Object.keys(db.indexes).length, 2) assert.equal(Object.keys(db.indexes)[0], '_id') assert.equal(Object.keys(db.indexes)[1], 'another') assert.equal(db.indexes._id.getAll().length, 2) }) }) // ==== End of 'Persisting indexes' ==== it('Results of getMatching should never contain duplicates', async () => { await d.ensureIndexAsync({ fieldName: 'bad' }) await d.insertAsync({ bad: ['a', 'b'] }) const res = await d._getCandidatesAsync({ bad: { $in: ['a', 'b'] } }) assert.equal(res.length, 1) }) }) // ==== End of 'Using indexes' ==== // })