import MongoCollection from './MongoCollection'; import MongoSchemaCollection from './MongoSchemaCollection'; import {parse as parseUrl, format as formatUrl} from '../../../vendor/mongodbUrl'; import * as transform from './MongoTransform'; import _ from 'lodash'; let mongodb = require('mongodb'); let MongoClient = mongodb.MongoClient; const MongoSchemaCollectionName = '_SCHEMA'; const DefaultMongoURI = 'mongodb://localhost:27017/parse'; const storageAdapterAllCollections = mongoAdapter => { return mongoAdapter.connect() .then(() => mongoAdapter.database.collections()) .then(collections => { return collections.filter(collection => { if (collection.namespace.match(/\.system\./)) { return false; } // TODO: If you have one app with a collection prefix that happens to be a prefix of another // apps prefix, this will go very very badly. We should fix that somehow. return (collection.collectionName.indexOf(mongoAdapter._collectionPrefix) == 0); }); }); } const specialQuerykeys = ['$and', '$or', '_rperm', '_wperm', '_perishable_token', '_email_verify_token']; export class MongoStorageAdapter { // Private _uri: string; _collectionPrefix: string; _mongoOptions: Object; // Public connectionPromise; database; constructor({ uri = DefaultMongoURI, collectionPrefix = '', mongoOptions = {}, }) { this._uri = uri; this._collectionPrefix = collectionPrefix; this._mongoOptions = mongoOptions; } connect() { if (this.connectionPromise) { return this.connectionPromise; } // parsing and re-formatting causes the auth value (if there) to get URI // encoded const encodedUri = formatUrl(parseUrl(this._uri)); this.connectionPromise = MongoClient.connect(encodedUri, this._mongoOptions).then(database => { this.database = database; }); return this.connectionPromise; } collection(name: string) { return this.connect().then(() => { return this.database.collection(name); }); } adaptiveCollection(name: string) { return this.connect() .then(() => this.database.collection(this._collectionPrefix + name)) .then(rawCollection => new MongoCollection(rawCollection)); } schemaCollection() { return this.connect() .then(() => this.adaptiveCollection(MongoSchemaCollectionName)) .then(collection => new MongoSchemaCollection(collection)); } collectionExists(name: string) { return this.connect().then(() => { return this.database.listCollections({ name: this._collectionPrefix + name }).toArray(); }).then(collections => { return collections.length > 0; }); } // Deletes a schema. Resolve if successful. If the schema doesn't // exist, resolve with undefined. If schema exists, but can't be deleted for some other reason, // reject with INTERNAL_SERVER_ERROR. deleteOneSchema(className: string) { return this.collection(this._collectionPrefix + className).then(collection => collection.drop()) .catch(error => { // 'ns not found' means collection was already gone. Ignore deletion attempt. if (error.message == 'ns not found') { return Promise.resolve(); } return Promise.reject(error); }); } // Delete all data known to this adatper. Used for testing. deleteAllSchemas() { return storageAdapterAllCollections(this) .then(collections => Promise.all(collections.map(collection => collection.drop()))); } // Remove the column and all the data. For Relations, the _Join collection is handled // specially, this function does not delete _Join columns. It should, however, indicate // that the relation fields does not exist anymore. In mongo, this means removing it from // the _SCHEMA collection. There should be no actual data in the collection under the same name // as the relation column, so it's fine to attempt to delete it. If the fields listed to be // deleted do not exist, this function should return successfully anyways. Checking for // attempts to delete non-existent fields is the responsibility of Parse Server. // Pointer field names are passed for legacy reasons: the original mongo // format stored pointer field names differently in the database, and therefore // needed to know the type of the field before it could delete it. Future database // adatpers should ignore the pointerFieldNames argument. All the field names are in // fieldNames, they show up additionally in the pointerFieldNames database for use // by the mongo adapter, which deals with the legacy mongo format. // This function is not obligated to delete fields atomically. It is given the field // names in a list so that databases that are capable of deleting fields atomically // may do so. // Returns a Promise. deleteFields(className: string, fieldNames, pointerFieldNames) { const nonPointerFieldNames = _.difference(fieldNames, pointerFieldNames); const mongoFormatNames = nonPointerFieldNames.concat(pointerFieldNames.map(name => `_p_${name}`)); const collectionUpdate = { '$unset' : {} }; mongoFormatNames.forEach(name => { collectionUpdate['$unset'][name] = null; }); const schemaUpdate = { '$unset' : {} }; fieldNames.forEach(name => { schemaUpdate['$unset'][name] = null; }); return this.adaptiveCollection(className) .then(collection => collection.updateMany({}, collectionUpdate)) .then(updateResult => this.schemaCollection()) .then(schemaCollection => schemaCollection.updateSchema(className, schemaUpdate)); } // Return a promise for all schemas known to this adapter, in Parse format. In case the // schemas cannot be retrieved, returns a promise that rejects. Requirements for the // rejection reason are TBD. getAllSchemas() { return this.schemaCollection().then(schemasCollection => schemasCollection._fetchAllSchemasFrom_SCHEMA()); } // Return a promise for the schema with the given name, in Parse format. If // this adapter doesn't know about the schema, return a promise that rejects with // undefined as the reason. getOneSchema(className) { return this.schemaCollection() .then(schemasCollection => schemasCollection._fechOneSchemaFrom_SCHEMA(className)); } // TODO: As yet not particularly well specified. Creates an object. Shouldn't need the // schemaController, but MongoTransform still needs it :( maybe shouldn't even need the schema, // and should infer from the type. Or maybe does need the schema for validations. Or maybe needs // the schem only for the legacy mongo format. We'll figure that out later. createObject(className, object, schemaController, parseFormatSchema) { const mongoObject = transform.parseObjectToMongoObjectForCreate(schemaController, className, object, parseFormatSchema); return this.adaptiveCollection(className) .then(collection => collection.insertOne(mongoObject)) .catch(error => { if (error.code === 11000) { // Duplicate value throw new Parse.Error(Parse.Error.DUPLICATE_VALUE, 'A duplicate value for a field with unique values was provided'); } return Promise.reject(error); }); } // Remove all objects that match the given parse query. Parse Query should be in Parse Format. // If no objects match, reject with OBJECT_NOT_FOUND. If objects are found and deleted, resolve with undefined. // If there is some other error, reject with INTERNAL_SERVER_ERROR. // Currently accepts the schema, that may not actually be necessary. deleteObjectsByQuery(className, query, schema) { return this.adaptiveCollection(className) .then(collection => { let mongoWhere = transform.transformWhere(className, query, schema); return collection.deleteMany(mongoWhere) }) .then(({ result }) => { if (result.n === 0) { throw new Parse.Error(Parse.Error.OBJECT_NOT_FOUND, 'Object not found.'); } return Promise.resolve(); }, error => { throw new Parse.Error(Parse.Error.INTERNAL_SERVER_ERROR, 'Database adapter error'); }); } get transform() { return transform; } } export default MongoStorageAdapter; module.exports = MongoStorageAdapter; // Required for tests