# async-lock Lock on asynchronous code [![Build Status](https://travis-ci.org/rogierschouten/async-lock.svg?branch=master)](https://travis-ci.org/rogierschouten/async-lock) * ES6 promise supported * Multiple keys lock supported * Timeout supported * Occupation time limit supported * Execution time limit supported * Pending task limit supported * Domain reentrant supported * 100% code coverage ## Disclaimer I did not create this package, and I will not add any features to it myself. I was granted the ownership because it was no longer being maintained, and I volunteered to fix a bug. If you have a new feature you would like to have incorporated, please send me a PR and I will be happy to work with you and get it merged. For any bugs, PRs are most welcome but when possible I will try to get them resolved as soon as possible. ## Why do you need locking on single threaded nodejs? Nodejs is single threaded, and the code execution never gets interrupted inside an event loop, so locking is unnecessary? This is true ONLY IF your critical section can be executed inside a single event loop. However, if you have any async code inside your critical section (it can be simply triggered by any I/O operation, or timer), your critical logic will across multiple event loops, therefore it's not concurrency safe! Consider the following code ```js redis.get('key', function(err, value) { redis.set('key', value * 2); }); ``` The above code simply multiply a redis key by 2. However, if two users run concurrently, the execution order may like this ``` user1: redis.get('key') -> 1 user2: redis.get('key') -> 1 user1: redis.set('key', 1 x 2) -> 2 user2: redis.set('key', 1 x 2) -> 2 ``` Obviously it's not what you expected With asyncLock, you can easily write your async critical section ```js lock.acquire('key', function(cb) { // Concurrency safe redis.get('key', function(err, value) { redis.set('key', value * 2, cb); }); }, function(err, ret) { }); ``` ## Get Started ```js var AsyncLock = require('async-lock'); var lock = new AsyncLock(); /** * @param {String|Array} key resource key or keys to lock * @param {function} fn execute function * @param {function} cb (optional) callback function, otherwise will return a promise * @param {Object} opts (optional) options */ lock.acquire(key, function(done) { // async work done(err, ret); }, function(err, ret) { // lock released }, opts); // Promise mode lock.acquire(key, function() { // return value or promise }, opts).then(function() { // lock released }); ``` ## Error Handling ```js // Callback mode lock.acquire(key, function(done) { done(new Error('error')); }, function(err, ret) { console.log(err.message) // output: error }); // Promise mode lock.acquire(key, function() { throw new Error('error'); }).catch(function(err) { console.log(err.message) // output: error }); ``` ## Acquire multiple keys ```js lock.acquire([key1, key2], fn, cb); ``` ## Domain reentrant lock Lock is reentrant in the same domain ```js var domain = require('domain'); var lock = new AsyncLock({domainReentrant : true}); var d = domain.create(); d.run(function() { lock.acquire('key', function() { //Enter lock return lock.acquire('key', function() { //Enter same lock twice }); }); }); ``` ## Options ```js // Specify timeout - max amount of time an item can remain in the queue before acquiring the lock var lock = new AsyncLock({timeout: 5000}); lock.acquire(key, fn, function(err, ret) { // timed out error will be returned here if lock not acquired in given time }); // Specify max occupation time - max amount of time allowed between entering the queue and completing execution var lock = new AsyncLock({maxOccupationTime: 3000}); lock.acquire(key, fn, function(err, ret) { // occupation time exceeded error will be returned here if job not completed in given time }); // Specify max execution time - max amount of time allowed between acquiring the lock and completing execution var lock = new AsyncLock({maxExecutionTime: 3000}); lock.acquire(key, fn, function(err, ret) { // execution time exceeded error will be returned here if job not completed in given time }); // Set max pending tasks - max number of tasks allowed in the queue at a time var lock = new AsyncLock({maxPending: 1000}); lock.acquire(key, fn, function(err, ret) { // Handle too much pending error }) // Whether there is any running or pending async function lock.isBusy(); // Use your own promise library instead of the global Promise variable var lock = new AsyncLock({Promise: require('bluebird')}); // Bluebird var lock = new AsyncLock({Promise: require('q')}); // Q // Add a task to the front of the queue waiting for a given lock lock.acquire(key, fn1, cb); // runs immediately lock.acquire(key, fn2, cb); // added to queue lock.acquire(key, priorityFn, cb, {skipQueue: true}); // jumps queue and runs before fn2 ``` ## Changelog See [Changelog](./History.md) ## Issues See [issue tracker](https://github.com/rogierschouten/async-lock/issues). ## License MIT, see [LICENSE](./LICENSE)