lib/transaction.js
'use strict';
const Promise = require('./promise');
/**
* The transaction object is used to identify a running transaction.
* It is created by calling `Sequelize.transaction()`.
* To run a query under a transaction, you should pass the transaction in the options object.
*
* @class Transaction
* @see {@link Sequelize.transaction}
*/
class Transaction {
/**
* Creates a new transaction instance
*
* @param {Sequelize} sequelize A configured sequelize Instance
* @param {Object} options An object with options
* @param {string} [options.type] Sets the type of the transaction. Sqlite only
* @param {string} [options.isolationLevel] Sets the isolation level of the transaction.
* @param {string} [options.deferrable] Sets the constraints to be deferred or immediately checked. PostgreSQL only
*/
constructor(sequelize, options) {
this.sequelize = sequelize;
this.savepoints = [];
this._afterCommitHooks = [];
// get dialect specific transaction options
const generateTransactionId = this.sequelize.dialect.QueryGenerator.generateTransactionId;
this.options = Object.assign({
type: sequelize.options.transactionType,
isolationLevel: sequelize.options.isolationLevel,
readOnly: false
}, options || {});
this.parent = this.options.transaction;
if (this.parent) {
this.id = this.parent.id;
this.parent.savepoints.push(this);
this.name = `${this.id}-sp-${this.parent.savepoints.length}`;
} else {
this.id = this.name = generateTransactionId();
}
delete this.options.transaction;
}
/**
* Commit the transaction
*
* @returns {Promise}
*/
commit() {
if (this.finished) {
return Promise.reject(new Error(`Transaction cannot be committed because it has been finished with state: ${this.finished}`));
}
this._clearCls();
return this
.sequelize
.getQueryInterface()
.commitTransaction(this, this.options)
.finally(() => {
this.finished = 'commit';
if (!this.parent) {
return this.cleanup();
}
return null;
}).tap(
() => Promise.each(
this._afterCommitHooks,
hook => Promise.resolve(hook.apply(this, [this])))
);
}
/**
* Rollback (abort) the transaction
*
* @returns {Promise}
*/
rollback() {
if (this.finished) {
return Promise.reject(new Error(`Transaction cannot be rolled back because it has been finished with state: ${this.finished}`));
}
if (!this.connection) {
return Promise.reject(new Error('Transaction cannot be rolled back because it never started'));
}
this._clearCls();
return this
.sequelize
.getQueryInterface()
.rollbackTransaction(this, this.options)
.finally(() => {
if (!this.parent) {
return this.cleanup();
}
return this;
});
}
prepareEnvironment(useCLS) {
let connectionPromise;
if (useCLS === undefined) {
useCLS = true;
}
if (this.parent) {
connectionPromise = Promise.resolve(this.parent.connection);
} else {
const acquireOptions = { uuid: this.id };
if (this.options.readOnly) {
acquireOptions.type = 'SELECT';
}
connectionPromise = this.sequelize.connectionManager.getConnection(acquireOptions);
}
return connectionPromise
.then(connection => {
this.connection = connection;
this.connection.uuid = this.id;
})
.then(() => {
return this.begin()
.then(() => this.setDeferrable())
.catch(setupErr => this.rollback().finally(() => {
throw setupErr;
}));
})
.tap(() => {
if (useCLS && this.sequelize.constructor._cls) {
this.sequelize.constructor._cls.set('transaction', this);
}
return null;
});
}
setDeferrable() {
if (this.options.deferrable) {
return this
.sequelize
.getQueryInterface()
.deferConstraints(this, this.options);
}
}
begin() {
const queryInterface = this.sequelize.getQueryInterface();
if ( this.sequelize.dialect.supports.settingIsolationLevelDuringTransaction ) {
return queryInterface.startTransaction(this, this.options).then(() => {
return queryInterface.setIsolationLevel(this, this.options.isolationLevel, this.options);
});
}
return queryInterface.setIsolationLevel(this, this.options.isolationLevel, this.options).then(() => {
return queryInterface.startTransaction(this, this.options);
});
}
cleanup() {
const res = this.sequelize.connectionManager.releaseConnection(this.connection);
this.connection.uuid = undefined;
return res;
}
_clearCls() {
const cls = this.sequelize.constructor._cls;
if (cls) {
if (cls.get('transaction') === this) {
cls.set('transaction', null);
}
}
}
/**
* A hook that is run after a transaction is committed
*
* @param {Function} fn A callback function that is called with the committed transaction
* @name afterCommit
* @memberof Sequelize.Transaction
*/
afterCommit(fn) {
if (!fn || typeof fn !== 'function') {
throw new Error('"fn" must be a function');
}
this._afterCommitHooks.push(fn);
}
/**
* Types can be set per-transaction by passing `options.type` to `sequelize.transaction`.
* Default to `DEFERRED` but you can override the default type by passing `options.transactionType` in `new Sequelize`.
* Sqlite only.
*
* Pass in the desired level as the first argument:
*
* @example
* return sequelize.transaction({type: Sequelize.Transaction.TYPES.EXCLUSIVE}, transaction => {
* // your transactions
* }).then(result => {
* // transaction has been committed. Do something after the commit if required.
* }).catch(err => {
* // do something with the err.
* });
*
* @property DEFERRED
* @property IMMEDIATE
* @property EXCLUSIVE
*/
static get TYPES() {
return {
DEFERRED: 'DEFERRED',
IMMEDIATE: 'IMMEDIATE',
EXCLUSIVE: 'EXCLUSIVE'
};
}
/**
* Isolation levels can be set per-transaction by passing `options.isolationLevel` to `sequelize.transaction`.
* Sequelize uses the default isolation level of the database, you can override this by passing `options.isolationLevel` in Sequelize constructor options.
*
* Pass in the desired level as the first argument:
*
* @example
* return sequelize.transaction({isolationLevel: Sequelize.Transaction.ISOLATION_LEVELS.SERIALIZABLE}, transaction => {
* // your transactions
* }).then(result => {
* // transaction has been committed. Do something after the commit if required.
* }).catch(err => {
* // do something with the err.
* });
*
* @property READ_UNCOMMITTED
* @property READ_COMMITTED
* @property REPEATABLE_READ
* @property SERIALIZABLE
*/
static get ISOLATION_LEVELS() {
return {
READ_UNCOMMITTED: 'READ UNCOMMITTED',
READ_COMMITTED: 'READ COMMITTED',
REPEATABLE_READ: 'REPEATABLE READ',
SERIALIZABLE: 'SERIALIZABLE'
};
}
/**
* Possible options for row locking. Used in conjunction with `find` calls:
*
* @example
* // t1 is a transaction
* Model.findAll({
* where: ...,
* transaction: t1,
* lock: t1.LOCK...
* });
*
* @example <caption>Postgres also supports specific locks while eager loading by using OF:</caption>
* UserModel.findAll({
* where: ...,
* include: [TaskModel, ...],
* transaction: t1,
* lock: {
* level: t1.LOCK...,
* of: UserModel
* }
* });
*
* # UserModel will be locked but TaskModel won't!
*
* @example <caption>You can also skip locked rows:</caption>
* // t1 is a transaction
* Model.findAll({
* where: ...,
* transaction: t1,
* lock: true,
* skipLocked: true
* });
* # The query will now return any rows that aren't locked by another transaction
*
* @returns {Object}
* @property UPDATE
* @property SHARE
* @property KEY_SHARE Postgres 9.3+ only
* @property NO_KEY_UPDATE Postgres 9.3+ only
*/
static get LOCK() {
return {
UPDATE: 'UPDATE',
SHARE: 'SHARE',
KEY_SHARE: 'KEY SHARE',
NO_KEY_UPDATE: 'NO KEY UPDATE'
};
}
/**
* Please see {@link Transaction.LOCK}
*/
get LOCK() {
return Transaction.LOCK;
}
}
module.exports = Transaction;
module.exports.Transaction = Transaction;
module.exports.default = Transaction;
