"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.BulkOperationBase = exports.FindOperators = exports.MongoBulkWriteError = exports.mergeBatchResults = exports.WriteError = exports.WriteConcernError = exports.BulkWriteResult = exports.Batch = exports.BatchType = void 0; const bson_1 = require("../bson"); const error_1 = require("../error"); const delete_1 = require("../operations/delete"); const execute_operation_1 = require("../operations/execute_operation"); const insert_1 = require("../operations/insert"); const operation_1 = require("../operations/operation"); const update_1 = require("../operations/update"); const utils_1 = require("../utils"); const write_concern_1 = require("../write_concern"); /** @internal */ const kServerError = Symbol('serverError'); /** @public */ exports.BatchType = Object.freeze({ INSERT: 1, UPDATE: 2, DELETE: 3 }); /** * Keeps the state of a unordered batch so we can rewrite the results * correctly after command execution * * @public */ class Batch { constructor(batchType, originalZeroIndex) { this.originalZeroIndex = originalZeroIndex; this.currentIndex = 0; this.originalIndexes = []; this.batchType = batchType; this.operations = []; this.size = 0; this.sizeBytes = 0; } } exports.Batch = Batch; /** * @public * The result of a bulk write. */ class BulkWriteResult { /** * Create a new BulkWriteResult instance * @internal */ constructor(bulkResult) { this.result = bulkResult; } /** Number of documents inserted. */ get insertedCount() { var _a; return (_a = this.result.nInserted) !== null && _a !== void 0 ? _a : 0; } /** Number of documents matched for update. */ get matchedCount() { var _a; return (_a = this.result.nMatched) !== null && _a !== void 0 ? _a : 0; } /** Number of documents modified. */ get modifiedCount() { var _a; return (_a = this.result.nModified) !== null && _a !== void 0 ? _a : 0; } /** Number of documents deleted. */ get deletedCount() { var _a; return (_a = this.result.nRemoved) !== null && _a !== void 0 ? _a : 0; } /** Number of documents upserted. */ get upsertedCount() { var _a; return (_a = this.result.upserted.length) !== null && _a !== void 0 ? _a : 0; } /** Upserted document generated Id's, hash key is the index of the originating operation */ get upsertedIds() { var _a; const upserted = {}; for (const doc of (_a = this.result.upserted) !== null && _a !== void 0 ? _a : []) { upserted[doc.index] = doc._id; } return upserted; } /** Inserted document generated Id's, hash key is the index of the originating operation */ get insertedIds() { var _a; const inserted = {}; for (const doc of (_a = this.result.insertedIds) !== null && _a !== void 0 ? _a : []) { inserted[doc.index] = doc._id; } return inserted; } /** Evaluates to true if the bulk operation correctly executes */ get ok() { return this.result.ok; } /** The number of inserted documents */ get nInserted() { return this.result.nInserted; } /** Number of upserted documents */ get nUpserted() { return this.result.nUpserted; } /** Number of matched documents */ get nMatched() { return this.result.nMatched; } /** Number of documents updated physically on disk */ get nModified() { return this.result.nModified; } /** Number of removed documents */ get nRemoved() { return this.result.nRemoved; } /** Returns an array of all inserted ids */ getInsertedIds() { return this.result.insertedIds; } /** Returns an array of all upserted ids */ getUpsertedIds() { return this.result.upserted; } /** Returns the upserted id at the given index */ getUpsertedIdAt(index) { return this.result.upserted[index]; } /** Returns raw internal result */ getRawResponse() { return this.result; } /** Returns true if the bulk operation contains a write error */ hasWriteErrors() { return this.result.writeErrors.length > 0; } /** Returns the number of write errors off the bulk operation */ getWriteErrorCount() { return this.result.writeErrors.length; } /** Returns a specific write error object */ getWriteErrorAt(index) { return index < this.result.writeErrors.length ? this.result.writeErrors[index] : undefined; } /** Retrieve all write errors */ getWriteErrors() { return this.result.writeErrors; } /** * Retrieve lastOp if available * * @deprecated Will be removed in 5.0 */ getLastOp() { return this.result.opTime; } /** Retrieve the write concern error if one exists */ getWriteConcernError() { if (this.result.writeConcernErrors.length === 0) { return; } else if (this.result.writeConcernErrors.length === 1) { // Return the error return this.result.writeConcernErrors[0]; } else { // Combine the errors let errmsg = ''; for (let i = 0; i < this.result.writeConcernErrors.length; i++) { const err = this.result.writeConcernErrors[i]; errmsg = errmsg + err.errmsg; // TODO: Something better if (i === 0) errmsg = errmsg + ' and '; } return new WriteConcernError({ errmsg, code: error_1.MONGODB_ERROR_CODES.WriteConcernFailed }); } } /* @deprecated Will be removed in 5.0 release */ toJSON() { return this.result; } toString() { return `BulkWriteResult(${this.toJSON()})`; } isOk() { return this.result.ok === 1; } } exports.BulkWriteResult = BulkWriteResult; /** * An error representing a failure by the server to apply the requested write concern to the bulk operation. * @public * @category Error */ class WriteConcernError { constructor(error) { this[kServerError] = error; } /** Write concern error code. */ get code() { return this[kServerError].code; } /** Write concern error message. */ get errmsg() { return this[kServerError].errmsg; } /** Write concern error info. */ get errInfo() { return this[kServerError].errInfo; } /** @deprecated The `err` prop that contained a MongoServerError has been deprecated. */ get err() { return this[kServerError]; } toJSON() { return this[kServerError]; } toString() { return `WriteConcernError(${this.errmsg})`; } } exports.WriteConcernError = WriteConcernError; /** * An error that occurred during a BulkWrite on the server. * @public * @category Error */ class WriteError { constructor(err) { this.err = err; } /** WriteError code. */ get code() { return this.err.code; } /** WriteError original bulk operation index. */ get index() { return this.err.index; } /** WriteError message. */ get errmsg() { return this.err.errmsg; } /** WriteError details. */ get errInfo() { return this.err.errInfo; } /** Returns the underlying operation that caused the error */ getOperation() { return this.err.op; } toJSON() { return { code: this.err.code, index: this.err.index, errmsg: this.err.errmsg, op: this.err.op }; } toString() { return `WriteError(${JSON.stringify(this.toJSON())})`; } } exports.WriteError = WriteError; /** Converts the number to a Long or returns it. */ function longOrConvert(value) { // TODO(NODE-2674): Preserve int64 sent from MongoDB return typeof value === 'number' ? bson_1.Long.fromNumber(value) : value; } /** Merges results into shared data structure */ function mergeBatchResults(batch, bulkResult, err, result) { // If we have an error set the result to be the err object if (err) { result = err; } else if (result && result.result) { result = result.result; } if (result == null) { return; } // Do we have a top level error stop processing and return if (result.ok === 0 && bulkResult.ok === 1) { bulkResult.ok = 0; const writeError = { index: 0, code: result.code || 0, errmsg: result.message, errInfo: result.errInfo, op: batch.operations[0] }; bulkResult.writeErrors.push(new WriteError(writeError)); return; } else if (result.ok === 0 && bulkResult.ok === 0) { return; } // The server write command specification states that lastOp is an optional // mongod only field that has a type of timestamp. Across various scarce specs // where opTime is mentioned, it is an "opaque" object that can have a "ts" and // "t" field with Timestamp and Long as their types respectively. // The "lastOp" field of the bulk write result is never mentioned in the driver // specifications or the bulk write spec, so we should probably just keep its // value consistent since it seems to vary. // See: https://github.com/mongodb/specifications/blob/master/source/driver-bulk-update.rst#results-object if (result.opTime || result.lastOp) { let opTime = result.lastOp || result.opTime; // If the opTime is a Timestamp, convert it to a consistent format to be // able to compare easily. Converting to the object from a timestamp is // much more straightforward than the other direction. if (opTime._bsontype === 'Timestamp') { opTime = { ts: opTime, t: bson_1.Long.ZERO }; } // If there's no lastOp, just set it. if (!bulkResult.opTime) { bulkResult.opTime = opTime; } else { // First compare the ts values and set if the opTimeTS value is greater. const lastOpTS = longOrConvert(bulkResult.opTime.ts); const opTimeTS = longOrConvert(opTime.ts); if (opTimeTS.greaterThan(lastOpTS)) { bulkResult.opTime = opTime; } else if (opTimeTS.equals(lastOpTS)) { // If the ts values are equal, then compare using the t values. const lastOpT = longOrConvert(bulkResult.opTime.t); const opTimeT = longOrConvert(opTime.t); if (opTimeT.greaterThan(lastOpT)) { bulkResult.opTime = opTime; } } } } // If we have an insert Batch type if (isInsertBatch(batch) && result.n) { bulkResult.nInserted = bulkResult.nInserted + result.n; } // If we have an insert Batch type if (isDeleteBatch(batch) && result.n) { bulkResult.nRemoved = bulkResult.nRemoved + result.n; } let nUpserted = 0; // We have an array of upserted values, we need to rewrite the indexes if (Array.isArray(result.upserted)) { nUpserted = result.upserted.length; for (let i = 0; i < result.upserted.length; i++) { bulkResult.upserted.push({ index: result.upserted[i].index + batch.originalZeroIndex, _id: result.upserted[i]._id }); } } else if (result.upserted) { nUpserted = 1; bulkResult.upserted.push({ index: batch.originalZeroIndex, _id: result.upserted }); } // If we have an update Batch type if (isUpdateBatch(batch) && result.n) { const nModified = result.nModified; bulkResult.nUpserted = bulkResult.nUpserted + nUpserted; bulkResult.nMatched = bulkResult.nMatched + (result.n - nUpserted); if (typeof nModified === 'number') { bulkResult.nModified = bulkResult.nModified + nModified; } else { bulkResult.nModified = 0; } } if (Array.isArray(result.writeErrors)) { for (let i = 0; i < result.writeErrors.length; i++) { const writeError = { index: batch.originalIndexes[result.writeErrors[i].index], code: result.writeErrors[i].code, errmsg: result.writeErrors[i].errmsg, errInfo: result.writeErrors[i].errInfo, op: batch.operations[result.writeErrors[i].index] }; bulkResult.writeErrors.push(new WriteError(writeError)); } } if (result.writeConcernError) { bulkResult.writeConcernErrors.push(new WriteConcernError(result.writeConcernError)); } } exports.mergeBatchResults = mergeBatchResults; function executeCommands(bulkOperation, options, callback) { if (bulkOperation.s.batches.length === 0) { return callback(undefined, new BulkWriteResult(bulkOperation.s.bulkResult)); } const batch = bulkOperation.s.batches.shift(); function resultHandler(err, result) { // Error is a driver related error not a bulk op error, return early if (err && 'message' in err && !(err instanceof error_1.MongoWriteConcernError)) { return callback(new MongoBulkWriteError(err, new BulkWriteResult(bulkOperation.s.bulkResult))); } if (err instanceof error_1.MongoWriteConcernError) { return handleMongoWriteConcernError(batch, bulkOperation.s.bulkResult, err, callback); } // Merge the results together const writeResult = new BulkWriteResult(bulkOperation.s.bulkResult); const mergeResult = mergeBatchResults(batch, bulkOperation.s.bulkResult, err, result); if (mergeResult != null) { return callback(undefined, writeResult); } if (bulkOperation.handleWriteError(callback, writeResult)) return; // Execute the next command in line executeCommands(bulkOperation, options, callback); } const finalOptions = (0, utils_1.resolveOptions)(bulkOperation, { ...options, ordered: bulkOperation.isOrdered }); if (finalOptions.bypassDocumentValidation !== true) { delete finalOptions.bypassDocumentValidation; } // Set an operationIf if provided if (bulkOperation.operationId) { resultHandler.operationId = bulkOperation.operationId; } // Is the bypassDocumentValidation options specific if (bulkOperation.s.bypassDocumentValidation === true) { finalOptions.bypassDocumentValidation = true; } // Is the checkKeys option disabled if (bulkOperation.s.checkKeys === false) { finalOptions.checkKeys = false; } if (finalOptions.retryWrites) { if (isUpdateBatch(batch)) { finalOptions.retryWrites = finalOptions.retryWrites && !batch.operations.some(op => op.multi); } if (isDeleteBatch(batch)) { finalOptions.retryWrites = finalOptions.retryWrites && !batch.operations.some(op => op.limit === 0); } } try { if (isInsertBatch(batch)) { (0, execute_operation_1.executeOperation)(bulkOperation.s.collection.s.db.s.client, new insert_1.InsertOperation(bulkOperation.s.namespace, batch.operations, finalOptions), resultHandler); } else if (isUpdateBatch(batch)) { (0, execute_operation_1.executeOperation)(bulkOperation.s.collection.s.db.s.client, new update_1.UpdateOperation(bulkOperation.s.namespace, batch.operations, finalOptions), resultHandler); } else if (isDeleteBatch(batch)) { (0, execute_operation_1.executeOperation)(bulkOperation.s.collection.s.db.s.client, new delete_1.DeleteOperation(bulkOperation.s.namespace, batch.operations, finalOptions), resultHandler); } } catch (err) { // Force top level error err.ok = 0; // Merge top level error and return mergeBatchResults(batch, bulkOperation.s.bulkResult, err, undefined); callback(); } } function handleMongoWriteConcernError(batch, bulkResult, err, callback) { var _a, _b; mergeBatchResults(batch, bulkResult, undefined, err.result); callback(new MongoBulkWriteError({ message: (_a = err.result) === null || _a === void 0 ? void 0 : _a.writeConcernError.errmsg, code: (_b = err.result) === null || _b === void 0 ? void 0 : _b.writeConcernError.result }, new BulkWriteResult(bulkResult))); } /** * An error indicating an unsuccessful Bulk Write * @public * @category Error */ class MongoBulkWriteError extends error_1.MongoServerError { /** Creates a new MongoBulkWriteError */ constructor(error, result) { var _a; super(error); this.writeErrors = []; if (error instanceof WriteConcernError) this.err = error; else if (!(error instanceof Error)) { this.message = error.message; this.code = error.code; this.writeErrors = (_a = error.writeErrors) !== null && _a !== void 0 ? _a : []; } this.result = result; Object.assign(this, error); } get name() { return 'MongoBulkWriteError'; } /** Number of documents inserted. */ get insertedCount() { return this.result.insertedCount; } /** Number of documents matched for update. */ get matchedCount() { return this.result.matchedCount; } /** Number of documents modified. */ get modifiedCount() { return this.result.modifiedCount; } /** Number of documents deleted. */ get deletedCount() { return this.result.deletedCount; } /** Number of documents upserted. */ get upsertedCount() { return this.result.upsertedCount; } /** Inserted document generated Id's, hash key is the index of the originating operation */ get insertedIds() { return this.result.insertedIds; } /** Upserted document generated Id's, hash key is the index of the originating operation */ get upsertedIds() { return this.result.upsertedIds; } } exports.MongoBulkWriteError = MongoBulkWriteError; /** * A builder object that is returned from {@link BulkOperationBase#find}. * Is used to build a write operation that involves a query filter. * * @public */ class FindOperators { /** * Creates a new FindOperators object. * @internal */ constructor(bulkOperation) { this.bulkOperation = bulkOperation; } /** Add a multiple update operation to the bulk operation */ update(updateDocument) { const currentOp = buildCurrentOp(this.bulkOperation); return this.bulkOperation.addToOperationsList(exports.BatchType.UPDATE, (0, update_1.makeUpdateStatement)(currentOp.selector, updateDocument, { ...currentOp, multi: true })); } /** Add a single update operation to the bulk operation */ updateOne(updateDocument) { if (!(0, utils_1.hasAtomicOperators)(updateDocument)) { throw new error_1.MongoInvalidArgumentError('Update document requires atomic operators'); } const currentOp = buildCurrentOp(this.bulkOperation); return this.bulkOperation.addToOperationsList(exports.BatchType.UPDATE, (0, update_1.makeUpdateStatement)(currentOp.selector, updateDocument, { ...currentOp, multi: false })); } /** Add a replace one operation to the bulk operation */ replaceOne(replacement) { if ((0, utils_1.hasAtomicOperators)(replacement)) { throw new error_1.MongoInvalidArgumentError('Replacement document must not use atomic operators'); } const currentOp = buildCurrentOp(this.bulkOperation); return this.bulkOperation.addToOperationsList(exports.BatchType.UPDATE, (0, update_1.makeUpdateStatement)(currentOp.selector, replacement, { ...currentOp, multi: false })); } /** Add a delete one operation to the bulk operation */ deleteOne() { const currentOp = buildCurrentOp(this.bulkOperation); return this.bulkOperation.addToOperationsList(exports.BatchType.DELETE, (0, delete_1.makeDeleteStatement)(currentOp.selector, { ...currentOp, limit: 1 })); } /** Add a delete many operation to the bulk operation */ delete() { const currentOp = buildCurrentOp(this.bulkOperation); return this.bulkOperation.addToOperationsList(exports.BatchType.DELETE, (0, delete_1.makeDeleteStatement)(currentOp.selector, { ...currentOp, limit: 0 })); } /** Upsert modifier for update bulk operation, noting that this operation is an upsert. */ upsert() { if (!this.bulkOperation.s.currentOp) { this.bulkOperation.s.currentOp = {}; } this.bulkOperation.s.currentOp.upsert = true; return this; } /** Specifies the collation for the query condition. */ collation(collation) { if (!this.bulkOperation.s.currentOp) { this.bulkOperation.s.currentOp = {}; } this.bulkOperation.s.currentOp.collation = collation; return this; } /** Specifies arrayFilters for UpdateOne or UpdateMany bulk operations. */ arrayFilters(arrayFilters) { if (!this.bulkOperation.s.currentOp) { this.bulkOperation.s.currentOp = {}; } this.bulkOperation.s.currentOp.arrayFilters = arrayFilters; return this; } /** Specifies hint for the bulk operation. */ hint(hint) { if (!this.bulkOperation.s.currentOp) { this.bulkOperation.s.currentOp = {}; } this.bulkOperation.s.currentOp.hint = hint; return this; } } exports.FindOperators = FindOperators; /** * TODO(NODE-4063) * BulkWrites merge complexity is implemented in executeCommands * This provides a vehicle to treat bulkOperations like any other operation (hence "shim") * We would like this logic to simply live inside the BulkWriteOperation class * @internal */ class BulkWriteShimOperation extends operation_1.AbstractOperation { constructor(bulkOperation, options) { super(options); this.bulkOperation = bulkOperation; } execute(server, session, callback) { if (this.options.session == null) { // An implicit session could have been created by 'executeOperation' // So if we stick it on finalOptions here, each bulk operation // will use this same session, it'll be passed in the same way // an explicit session would be this.options.session = session; } return executeCommands(this.bulkOperation, this.options, callback); } } /** @public */ class BulkOperationBase { /** * Create a new OrderedBulkOperation or UnorderedBulkOperation instance * @internal */ constructor(collection, options, isOrdered) { // determine whether bulkOperation is ordered or unordered this.isOrdered = isOrdered; const topology = (0, utils_1.getTopology)(collection); options = options == null ? {} : options; // TODO Bring from driver information in hello // Get the namespace for the write operations const namespace = collection.s.namespace; // Used to mark operation as executed const executed = false; // Current item const currentOp = undefined; // Set max byte size const hello = topology.lastHello(); // If we have autoEncryption on, batch-splitting must be done on 2mb chunks, but single documents // over 2mb are still allowed const usingAutoEncryption = !!(topology.s.options && topology.s.options.autoEncrypter); const maxBsonObjectSize = hello && hello.maxBsonObjectSize ? hello.maxBsonObjectSize : 1024 * 1024 * 16; const maxBatchSizeBytes = usingAutoEncryption ? 1024 * 1024 * 2 : maxBsonObjectSize; const maxWriteBatchSize = hello && hello.maxWriteBatchSize ? hello.maxWriteBatchSize : 1000; // Calculates the largest possible size of an Array key, represented as a BSON string // element. This calculation: // 1 byte for BSON type // # of bytes = length of (string representation of (maxWriteBatchSize - 1)) // + 1 bytes for null terminator const maxKeySize = (maxWriteBatchSize - 1).toString(10).length + 2; // Final options for retryable writes let finalOptions = Object.assign({}, options); finalOptions = (0, utils_1.applyRetryableWrites)(finalOptions, collection.s.db); // Final results const bulkResult = { ok: 1, writeErrors: [], writeConcernErrors: [], insertedIds: [], nInserted: 0, nUpserted: 0, nMatched: 0, nModified: 0, nRemoved: 0, upserted: [] }; // Internal state this.s = { // Final result bulkResult, // Current batch state currentBatch: undefined, currentIndex: 0, // ordered specific currentBatchSize: 0, currentBatchSizeBytes: 0, // unordered specific currentInsertBatch: undefined, currentUpdateBatch: undefined, currentRemoveBatch: undefined, batches: [], // Write concern writeConcern: write_concern_1.WriteConcern.fromOptions(options), // Max batch size options maxBsonObjectSize, maxBatchSizeBytes, maxWriteBatchSize, maxKeySize, // Namespace namespace, // Topology topology, // Options options: finalOptions, // BSON options bsonOptions: (0, bson_1.resolveBSONOptions)(options), // Current operation currentOp, // Executed executed, // Collection collection, // Fundamental error err: undefined, // check keys checkKeys: typeof options.checkKeys === 'boolean' ? options.checkKeys : false }; // bypass Validation if (options.bypassDocumentValidation === true) { this.s.bypassDocumentValidation = true; } } /** * Add a single insert document to the bulk operation * * @example * ```ts * const bulkOp = collection.initializeOrderedBulkOp(); * * // Adds three inserts to the bulkOp. * bulkOp * .insert({ a: 1 }) * .insert({ b: 2 }) * .insert({ c: 3 }); * await bulkOp.execute(); * ``` */ insert(document) { if (document._id == null && !shouldForceServerObjectId(this)) { document._id = new bson_1.ObjectId(); } return this.addToOperationsList(exports.BatchType.INSERT, document); } /** * Builds a find operation for an update/updateOne/delete/deleteOne/replaceOne. * Returns a builder object used to complete the definition of the operation. * * @example * ```ts * const bulkOp = collection.initializeOrderedBulkOp(); * * // Add an updateOne to the bulkOp * bulkOp.find({ a: 1 }).updateOne({ $set: { b: 2 } }); * * // Add an updateMany to the bulkOp * bulkOp.find({ c: 3 }).update({ $set: { d: 4 } }); * * // Add an upsert * bulkOp.find({ e: 5 }).upsert().updateOne({ $set: { f: 6 } }); * * // Add a deletion * bulkOp.find({ g: 7 }).deleteOne(); * * // Add a multi deletion * bulkOp.find({ h: 8 }).delete(); * * // Add a replaceOne * bulkOp.find({ i: 9 }).replaceOne({writeConcern: { j: 10 }}); * * // Update using a pipeline (requires Mongodb 4.2 or higher) * bulk.find({ k: 11, y: { $exists: true }, z: { $exists: true } }).updateOne([ * { $set: { total: { $sum: [ '$y', '$z' ] } } } * ]); * * // All of the ops will now be executed * await bulkOp.execute(); * ``` */ find(selector) { if (!selector) { throw new error_1.MongoInvalidArgumentError('Bulk find operation must specify a selector'); } // Save a current selector this.s.currentOp = { selector: selector }; return new FindOperators(this); } /** Specifies a raw operation to perform in the bulk write. */ raw(op) { if (op == null || typeof op !== 'object') { throw new error_1.MongoInvalidArgumentError('Operation must be an object with an operation key'); } if ('insertOne' in op) { const forceServerObjectId = shouldForceServerObjectId(this); if (op.insertOne && op.insertOne.document == null) { // NOTE: provided for legacy support, but this is a malformed operation if (forceServerObjectId !== true && op.insertOne._id == null) { op.insertOne._id = new bson_1.ObjectId(); } return this.addToOperationsList(exports.BatchType.INSERT, op.insertOne); } if (forceServerObjectId !== true && op.insertOne.document._id == null) { op.insertOne.document._id = new bson_1.ObjectId(); } return this.addToOperationsList(exports.BatchType.INSERT, op.insertOne.document); } if ('replaceOne' in op || 'updateOne' in op || 'updateMany' in op) { if ('replaceOne' in op) { if ('q' in op.replaceOne) { throw new error_1.MongoInvalidArgumentError('Raw operations are not allowed'); } const updateStatement = (0, update_1.makeUpdateStatement)(op.replaceOne.filter, op.replaceOne.replacement, { ...op.replaceOne, multi: false }); if ((0, utils_1.hasAtomicOperators)(updateStatement.u)) { throw new error_1.MongoInvalidArgumentError('Replacement document must not use atomic operators'); } return this.addToOperationsList(exports.BatchType.UPDATE, updateStatement); } if ('updateOne' in op) { if ('q' in op.updateOne) { throw new error_1.MongoInvalidArgumentError('Raw operations are not allowed'); } const updateStatement = (0, update_1.makeUpdateStatement)(op.updateOne.filter, op.updateOne.update, { ...op.updateOne, multi: false }); if (!(0, utils_1.hasAtomicOperators)(updateStatement.u)) { throw new error_1.MongoInvalidArgumentError('Update document requires atomic operators'); } return this.addToOperationsList(exports.BatchType.UPDATE, updateStatement); } if ('updateMany' in op) { if ('q' in op.updateMany) { throw new error_1.MongoInvalidArgumentError('Raw operations are not allowed'); } const updateStatement = (0, update_1.makeUpdateStatement)(op.updateMany.filter, op.updateMany.update, { ...op.updateMany, multi: true }); if (!(0, utils_1.hasAtomicOperators)(updateStatement.u)) { throw new error_1.MongoInvalidArgumentError('Update document requires atomic operators'); } return this.addToOperationsList(exports.BatchType.UPDATE, updateStatement); } } if ('deleteOne' in op) { if ('q' in op.deleteOne) { throw new error_1.MongoInvalidArgumentError('Raw operations are not allowed'); } return this.addToOperationsList(exports.BatchType.DELETE, (0, delete_1.makeDeleteStatement)(op.deleteOne.filter, { ...op.deleteOne, limit: 1 })); } if ('deleteMany' in op) { if ('q' in op.deleteMany) { throw new error_1.MongoInvalidArgumentError('Raw operations are not allowed'); } return this.addToOperationsList(exports.BatchType.DELETE, (0, delete_1.makeDeleteStatement)(op.deleteMany.filter, { ...op.deleteMany, limit: 0 })); } // otherwise an unknown operation was provided throw new error_1.MongoInvalidArgumentError('bulkWrite only supports insertOne, updateOne, updateMany, deleteOne, deleteMany'); } get bsonOptions() { return this.s.bsonOptions; } get writeConcern() { return this.s.writeConcern; } get batches() { const batches = [...this.s.batches]; if (this.isOrdered) { if (this.s.currentBatch) batches.push(this.s.currentBatch); } else { if (this.s.currentInsertBatch) batches.push(this.s.currentInsertBatch); if (this.s.currentUpdateBatch) batches.push(this.s.currentUpdateBatch); if (this.s.currentRemoveBatch) batches.push(this.s.currentRemoveBatch); } return batches; } execute(options, callback) { callback = typeof callback === 'function' ? callback : typeof options === 'function' ? options : undefined; return (0, utils_1.maybeCallback)(async () => { options = options != null && typeof options !== 'function' ? options : {}; if (this.s.executed) { throw new error_1.MongoBatchReExecutionError(); } const writeConcern = write_concern_1.WriteConcern.fromOptions(options); if (writeConcern) { this.s.writeConcern = writeConcern; } // If we have current batch if (this.isOrdered) { if (this.s.currentBatch) this.s.batches.push(this.s.currentBatch); } else { if (this.s.currentInsertBatch) this.s.batches.push(this.s.currentInsertBatch); if (this.s.currentUpdateBatch) this.s.batches.push(this.s.currentUpdateBatch); if (this.s.currentRemoveBatch) this.s.batches.push(this.s.currentRemoveBatch); } // If we have no operations in the bulk raise an error if (this.s.batches.length === 0) { throw new error_1.MongoInvalidArgumentError('Invalid BulkOperation, Batch cannot be empty'); } this.s.executed = true; const finalOptions = { ...this.s.options, ...options }; const operation = new BulkWriteShimOperation(this, finalOptions); return (0, execute_operation_1.executeOperation)(this.s.collection.s.db.s.client, operation); }, callback); } /** * Handles the write error before executing commands * @internal */ handleWriteError(callback, writeResult) { if (this.s.bulkResult.writeErrors.length > 0) { const msg = this.s.bulkResult.writeErrors[0].errmsg ? this.s.bulkResult.writeErrors[0].errmsg : 'write operation failed'; callback(new MongoBulkWriteError({ message: msg, code: this.s.bulkResult.writeErrors[0].code, writeErrors: this.s.bulkResult.writeErrors }, writeResult)); return true; } const writeConcernError = writeResult.getWriteConcernError(); if (writeConcernError) { callback(new MongoBulkWriteError(writeConcernError, writeResult)); return true; } return false; } } exports.BulkOperationBase = BulkOperationBase; Object.defineProperty(BulkOperationBase.prototype, 'length', { enumerable: true, get() { return this.s.currentIndex; } }); function shouldForceServerObjectId(bulkOperation) { var _a, _b; if (typeof bulkOperation.s.options.forceServerObjectId === 'boolean') { return bulkOperation.s.options.forceServerObjectId; } if (typeof ((_a = bulkOperation.s.collection.s.db.options) === null || _a === void 0 ? void 0 : _a.forceServerObjectId) === 'boolean') { return (_b = bulkOperation.s.collection.s.db.options) === null || _b === void 0 ? void 0 : _b.forceServerObjectId; } return false; } function isInsertBatch(batch) { return batch.batchType === exports.BatchType.INSERT; } function isUpdateBatch(batch) { return batch.batchType === exports.BatchType.UPDATE; } function isDeleteBatch(batch) { return batch.batchType === exports.BatchType.DELETE; } function buildCurrentOp(bulkOp) { let { currentOp } = bulkOp.s; bulkOp.s.currentOp = undefined; if (!currentOp) currentOp = {}; return currentOp; } //# sourceMappingURL=common.js.map