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I currently creating some experimental projects with nodejs. I have programmed a lot Java EE web applications with Spring and appreciated the ease of dependency injection there.

Now I am curious: How do I do dependency injection with node? Or: Do I even need it? Is there a replacing concept, because the programming style is different?

I am talking about simple things, like sharing a database connection object, so far, but I have not found a solution that satisfies me.

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11 Answers 11

up vote 48 down vote accepted

In short, you don't need a dependency injection container or service locater like you would in C#/Java. Since Node.js, leverages the module pattern, it's not necessary to perform constructor or property injection. Although you still can.

The great thing about JS is that you can modify just about anything to achieve what you want. This comes in handy when it comes to testing.

Behold my very lame contrived example.

MyClass.js:

var fs = require('fs');

MyClass.prototype.errorFileExists = function(dir) {
    var dirsOrFiles = fs.readdirSync(dir);
    for (var d in dirsOrFiles) {
        if (d === 'error.txt') return true;
    }
    return false;
};

MyClass.test.js:

describe('MyClass', function(){
    it('should return an error if error.txt is found in the directory', function(done){
        var mc = new MyClass();
        assert(mc.errorFileExists('/tmp/mydir')); //true
    });
});

Notice how MyClass depends upon the fs module? As @ShatyemShekhar mentioned, you can indeed do constructor or property injection as in other languages. But it's not necessary in Javascript.

In this case, you can do two things.

You can stub the fs.readdirSync method or you can return an entirely different module when you call require.

Method 1:

var oldmethod = fs.readdirSync;
fs.readdirSync = function(dir) { 
    return ['somefile.txt', 'error.txt', 'anotherfile.txt']; 
};

*** PERFORM TEST ***
*** RESTORE METHOD AFTER TEST ****
fs.readddirSync = oldmethod;

Method 2:

var oldrequire = require
require = function(module) {
    if (module === 'fs') {
        return {
            readdirSync: function(dir) { 
                return ['somefile.txt', 'error.txt', 'anotherfile.txt']; 
            };
        };
    } else
        return oldrequire(module);

}

The key is to leverage the power of Node.js and Javascript. Note, I'm a CoffeeScript guy, so my JS syntax might be incorrect somewhere. Also, I'm not saying that this is the best way, but it is a way. Javascript gurus might be able to chime in with other solutions.

Update:

This should address your specific question regarding database connections. I'd create a separate module for your to encapsulate your database connection logic. Something like this:

MyDbConnection.js: (be sure to choose a better name)

var db = require('whichever_db_vendor_i_use');

module.exports.fetchConnection() = function() {
    //logic to test connection

    //do I want to connection pool?

    //do I need only one connection throughout the lifecyle of my application?

    return db.createConnection(port, host, databasename); //<--- values typically from a config file    
}

Then, any module that needs a database connection would then just include your MyDbConnection module.

SuperCoolWebApp.js:

var dbCon = require('./lib/mydbconnection'); //wherever the file is stored

//now do something with the connection
var connection = dbCon.fetchConnection(); //mydbconnection.js is responsible for pooling, reusing, whatever your app use case is

//come TEST time of SuperCoolWebApp, you can set the require or return whatever you want, or, like I said, use an actual connection to a TEST database. 

Do not follow this example verbatim. It's a lame example at trying to communicate that you leverage the module pattern to manage your dependencies. Hopefully this helps a bit more.

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Thanks a lot, very detailed! So if I was to store the open database connection I would probably have to pollute the global namespace and store this in global.db? –  Erik Feb 13 '12 at 4:43
    
You definitely wouldn't pollute the global namespace, at least for server side Node.js. In your module, I'd just connect to the database upon initialization. Then during testing, you would follow my method 2 or specifically connect to a testing db when NODE_ENV is set to test or testing. Does that make sense? In most cases, you should definitely not pollute the global namespace. You kind of have to throw out what you know about design patterns with C++/C#/Java and embrace the simplicity of JS. –  JP Richardson Feb 13 '12 at 5:13
    
Okay, but should every module then create its own database connection? –  Erik Feb 13 '12 at 8:14
1  
This is true with regard to testing, but DI has other benefits; by using DI you can program to an interface, not an implementation. –  moteutsch Aug 22 '12 at 0:35
4  
@JPRichardson How can I write a component that uses a logger without depending on any one library? If I require('my_logger_library'), people using my component will have to override the require to use their own library. Instead, I can allow people to pass a callback that wraps a logger implementation into the components "constructor" or "init" method. That is the purpose of DI. –  moteutsch Aug 22 '12 at 1:01

I've also written a module to accomplish this, it's called rewire. Just use npm install rewire and then:

var rewire = require("rewire"),
    myModule = rewire("./path/to/myModule.js"); // exactly like require()

// Your module will now export a special setter and getter for private variables.
myModule.__set__("myPrivateVar", 123);
myModule.__get__("myPrivateVar"); // = 123


// This allows you to mock almost everything within the module e.g. the fs-module.
// Just pass the variable name as first parameter and your mock as second.
myModule.__set__("fs", {
    readFile: function (path, encoding, cb) {
        cb(null, "Success!");
    }
});
myModule.readSomethingFromFileSystem(function (err, data) {
    console.log(data); // = Success!
});

I've been inspired by Nathan MacInnes's injectr but used a different approach. I don't use vm to eval the test-module, in fact I use node's own require. This way your module behaves exactly like using require() (except your modifications). Also debugging is fully supported.

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Old question, but I am happy to see people actually work in this! Thanks! –  Erik Jun 4 '12 at 12:38
    
Just stumbled across this. +1 for the mention! –  Nathan MacInnes Apr 9 at 19:08
3  
As of mid 2014 - npmjs.org/package/proxyquire makes mocking out "require" dependencies trivial. –  arcseldon Jul 1 at 8:59
    
proxyquire is cool as well! They're now using the internal "module"-module which is way better than using node's vm. But after all it's just a matter of style. I like my module to use the original require and to swap out the dependencies later. Furthermore rewire also allows to override globals. –  jhnns Jul 22 at 8:37

require is the way of managing dependencies in Node.js and surely it is intuitive and effective, but it has also its limitations.

My advice is to take a look at some of the Dependency Injection containers available today for Node.js to have an idea on what are their pros/cons. Some of them are:

Just to name a few.

Now the real question is, what can you achieve with a Node.js DI container, compared to a simple require?

Pros:

  • better testability: modules accepts their dependencies as input
  • Inversion of Control: decide how to wire your modules without touching the main code of your application.
  • a different algorithm for resolving modules: dependencies have "virtual" identifiers, usually they are not bound to a path in the filesystem.
  • Better extensibility: enabled by IoC and "virtual" identifiers.
  • Other fancy stuff possible:
    • Async initialization
    • Module lifecycle management
    • Extensibility of the DI container itself
    • Can easily implement higher level abstractions (e.g. Named services and AOP)

Cons:

  • Different from the Node.js "experience": not using require definitely feels like you are deviating from the Node way of thinking.
  • Dependencies are not explicit: program flow is more difficult to understand and debug
  • Slower startup time
  • Maturity (at the moment): none of the current solutions is really popular at the moment, so not so many tutorials, no ecosystem, not battle tested.

As anything related to software development, choosing between DI or require depends on your requirements, your system complexity and your programming style.

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2  
Do you think the situation has changed considerably since '09? –  bebraw Dec 12 '13 at 15:13
3  
Do you mean since 10 days ago? :) –  Mario Dec 19 '13 at 23:28
1  
Nooo. Dec 9... Should have known. –  bebraw Dec 20 '13 at 11:05
    
I "implemented" DI using module.exports = function(deps) {} kind of pattern. Yes, it works, but it's not quite ideal. –  bebraw Dec 20 '13 at 11:06
    
You can also implement DI by injecting properties directly into your modules (in contrast of injecting using factories), but in this case a container is really necessary to keep track of all the dependencies. –  Mario Dec 23 '13 at 14:36

I recently checked this thread for much the same reason as the OP - most of the libs I've encountered temporarily rewrite the require statement. I've had mixed degrees of success with this method, and so I ended up using the following approach.

In the context of an express application - I wrap app.js in a bootstrap.js file:

var path = require('path');
var myapp = require('./app.js');

var loader = require('./server/services/loader.js');

// give the loader the root directory
// and an object mapping module names 
// to paths relative to that root
loader.init(path.normalize(__dirname), require('./server/config/loader.js')); 

myapp.start();

The object map passed to the loader looks like this:

// live loader config
module.exports = {
    'dataBaseService': '/lib/dataBaseService.js'
}

// test loader config
module.exports = {
    'dataBaseService': '/mocks/dataBaseService.js'
    'otherService' : {other: 'service'} // takes objects too...
};

Then, rather than directly calling require...

var myDatabaseService = loader.load('dataBaseService');

If no alias is located in the loader - then it will just default to a regular require. This has two benefits: I can swap in any version of the class, and it remove the need to use relative path names throughout the application (so If I need a custom lib below or above the current file, I don't need to traverse, and require will cache the module against the same key). It also allows me to specify mocks at any point in the app, rather than in the immediate test suite.

I've just published a little npm module for convenience:

https://npmjs.org/package/nodejs-simple-loader

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I built Electrolyte for just this purpose. The other dependency injection solutions out there were too invasive for my tastes, and messing with the global require is a particular grievance of mine.

Electrolyte embraces modules, specifically those that export a "setup" function like you see in Connect/Express middleware. Essentially, these types of modules are just factories for some object they return.

For example, a module that creates a database connection:

var mysql = require('mysql');

exports = module.exports = function(settings) {
  var connection = mysql.createConnection({
    host: settings.dbHost,
    port: settings.dbPort
  });

  connection.connect(function(err) {
    if (err) { throw err; }
  });

  return connection;
}

exports['@singleton'] = true;
exports['@require'] = [ 'settings' ];

What you see at the bottom are annotations, an extra bit of metadata that Electrolyte uses to instantiate and inject dependencies, automatically wiring your application's components together.

To create a database connection:

var db = electrolyte.create('database');

Electrolyte transitively traverses the @require'd dependencies, and injects instances as arguments to the exported function.

The key is that this is minimally invasive. This module is completely usable, independent of Electrolyte itself. That means your unit tests can test just the module under test, passing in mock objects without need for additional dependencies to rewire internals.

When running the full application, Electrolyte steps in at the inter-module level, wiring things together without the need for globals, singletons or excessive plumbing.

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It depends on the design of your application. You can obviously do a java like injection where you create an object of a class with the dependency passed in the constructor like this.

function Cache(store) {
   this._store = store;
}

var cache = new Cache(mysqlStore);

If you are not doing OOP in javascript, you can make an init function that sets everything up.

However, there is another approach that you can take which is more common in an event based system such as node.js. If you can model you application to only(most of the time) act on events then all you need to do is to set everything up(which I usually do by calling an init function) and emit events from a stub. This makes testing fairly easier and readable.

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Thanks for your answer, but I don't fully understand your second part of your answer. –  Erik Feb 12 '12 at 19:26

I always liked the simplicity of IoC concept - "You don't have to know anything about environment, you'll be called by someone when needed"

But all IoC implementations I saw did exactly the opposite - they clutter the code with even more things than without it. So, I created my own IoC that works as I'd like it to be - it stays hidden and invisible 90% of time.

It's used in MonoJS web framework http://monojs.org

I am talking about simple things, like sharing a database connection object, so far, but I have not found a solution that satisfies me.

It's done like this - register component once in config.

app.register 'db', -> 
  require('mongodb').connect config.dbPath

And use it anywhere

app.db.findSomething()

You can see the full component definition code (with DB Connection and other Components) here https://github.com/sinizinairina/mono/blob/master/mono.coffee

This is the only place when you have to tell IoC what to do, after that all those components will be created and wired automatically and you don't have to see IoC specific code in your application anymore.

The IoC itself https://github.com/alexeypetrushin/miconjs

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Have a look at dips (A simple yet powerful dependency injection and entity (file) management framework for Node.js)

https://github.com/devcrust/node-dips

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I recently created a library called circuitbox which allows you to use dependency-injection with node.js. It does true dependency-injection vs. many of the dependency-lookup based libraries I have seen. Circuitbox also supports asynchronous creation and initialization routines. Below is an example:

Assume the following code is in a file called consoleMessagePrinter.js

'use strict';

// Our console message printer
// deps is injected by circuitbox with the dependencies
function ConsoleMessagePrinter(deps) {
  return {
    print: function () {
      console.log(deps.messageSource.message());
    }
  };
}

module.exports = ConsoleMessagePrinter;

Assume the following is in the file main.js

'use strict';

// our simple message source
// deps is injected by circuitbox with the dependencies
var simpleMessageSource = function (deps) {
  return {
    message: function () {
      return deps.message;
    }
  };
};

// require circuitbox
var circuitbox = require('../lib');

// create a circuitbox
circuitbox.create({
  modules: [
    function (registry) {
      // the message to be used
      registry.for('message').use('This is the message');

      // define the message source
      registry.for('messageSource').use(simpleMessageSource)
        .dependsOn('message');

      // define the message printer - does a module.require internally
      registry.for('messagePrinter').requires('./consoleMessagePrinter')
        .dependsOn('messageSource');
    }
  ]
}).done(function (cbx) {

  // get the message printer and print a message
  cbx.get('messagePrinter').done(function (printer) {
    printer.print();
  }, function (err) {
    console.log('Could not recieve a printer');
    return;
  });

}, function (err) {
  console.log('Could not create circuitbox');
});

Circuitbox lets you define your components and declare their dependencies as modules. Once its initialized, it allows you to retrieve a component. Circuitbox automatically injects all the components the target component requires and gives it to you for use.

The project is in alpha version. Your comments, ideas and feedback are welcome.

Hope it helps!

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I'd also mention mockery. Didn't personally use it, but it might be up to the task.

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Though the original question is a bit outdated, I'd still like to share my personal love JS port of PHP Pimple a simple Dependency Injection Container

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