![Helios - an extensible open source mobile backend framework](https://raw.github.com/helios-framework/helios.io/assets/helios-banner.png) Helios is an open-source framework that provides essential backend services for iOS apps, from data synchronization and user accounts to push notifications, in-app purchases, and passbook integration. It allows developers to get a client-server app up-and-running in just a few minutes, and seamlessly incorporate functionality as necessary. Helios is designed for "mobile first" development. Build out great features on the device, and implement the server-side components as necessary. Pour all of your energy into crafting a great user experience, rather than getting mired down with the backend. One great example of this philosophy in Helios is Core Data Synchronization. This allows you to use your existing Core Data model definition to automatically generate a REST webservice, which can be used to shuttle data between the server and client. No iCloud, _no problem_. ![Helios Web UI Screenshot](https://raw.github.com/helios-framework/helios.io/assets/helios-screenshot.png) Helios also comes with a Web UI. Browse and search through all of your database records, push notification registrations, in-app purchases, and passbook passes. You can even send targeted push notifications right from the browser. --- ## Requirements - Ruby 2.0+ with [Bundler](http://bundler.io) installed - PostgreSQL 9.2+ _([Postgres.app](http://postgresapp.com) is the easiest way to get a Postgres server running on your Mac)_ ## Getting Started on OS X 1. Verify Ruby Installation: ``` $ ruby -v ``` 2. Install Helios, Bundler, and at the command prompt: ``` $ gem install helios ``` 3. Create a new Helios application: ``` $ helios new myapp ``` 3. Create a Postgres database at the command prompt: ``` $ createdb -h localhost myapp ``` > Database credentials are read from the `.env` file generated by Helios, as the variable `DATABASE_URL`. By default, this will point to a database with the name of the generated app. 4. Change directory to `myapp` ``` $ cd myapp ``` 5. Start the web server: ``` $ helios server ``` 6. Go to [http://localhost:5000/admin](http://localhost:5000/admin) and you’ll see your app's Web UI Read on for instructions on the following: - Linking a Core Data model - Integrating Helios into your mobile client ## Usage Built on the Rack webserver interface, Helios can be easily added into any existing Rails or Sinatra application as middleware. Or, if you're starting with a Helios application, you can build a new Rails or Sinatra application on top of it. This means that you can develop your application using the tools and frameworks you love, and maintain flexibility with your architecture as your needs evolve. ### Sinatra / Rack #### Gemfile ```ruby gem 'helios' ``` #### config.ru ```ruby require 'bundler' Bundler.require run Helios::Application.new do service :data, model: 'path/to/DataModel.xcdatamodel' service :push_notification, apn_certificate: 'path/to/apple_push_notification.pem', apn_environment: 'development' service :in_app_purchase service :passbook end ``` ### Rails To create a Rails app that uses Postgres as its database, pass the `-d postgresql` argument to the `rails new` command: ``` $ rails new APP_PATH -d postgresql ``` If you're adding Helios to an existing Rails project, be sure to specify a PostgreSQL database in `config/database.yml` and check that the `pg` gem is included in your `Gemfile`: #### Gemfile ```ruby gem 'helios' gem 'pg' ``` Helios can be run as Rails middleware by adding this to the configuration block in `config/application.rb` #### config/application.rb ```ruby config.middleware.use Helios::Application do service :data, model: 'path/to/DataModel.xcdatamodel' service :push_notification, apn_certificate: 'path/to/apple_push_notification.pem', apn_environment: 'development' service :in_app_purchase service :passbook end ``` ## Available Services Each service in Helios can be enabled and configured separately: `data`: Generates a REST webservice from a schema definition. Currently supports Core Data (`.xcdatamodel`) files. **Parameters** - `model`: Path to the data model file **Associated Classes** Each entity in the specified data model will have a `Sequel::Model` subclass created for it under the `Rack::CoreData::Models` namespace. | | | |---------------------------|----------------------------------------------------| | `GET /:resources` | Get list of all of the specified resources | | `POST /:resources` | Create a new instance of the specified resource | | `GET /:resources/:id` | Get the specified resource instance | | `PUT /:resources/:id` | Update the specified resource instance | | `DELETE /:resources/:id` | Delete the specified resource instance | --- `push_notification`: Adds iOS push notification registration / unregistration endpoints. **Associated Classes** - `Rack::PushNotification::Device` | | | |---------------------------|-----------------------------------------------------------| | `PUT /push_notification/devices/:token` | Register or update existing device for push notifications | | `DELETE /push_notification/devices/:token` | Unregister a device from receiving push notifications | | `POST /push_notification/message` | Send out a push notification to some devices | --- `in_app_purchase`: Adds an endpoint for iOS in-app purchase receipt verification endpoints, as well one for returning product identifiers. **Associated Classes** - `Rack::InAppPurchase::Receipt` - `Rack::InAppPurchase::Product` | | | |------------------------------|-----------------------------------------------------------| | `POST /in_app_purchase/receipts/verify` | Decode the associated Base64-encoded `receipt-data`, recording the receipt data and verifying the information with Apple | | `GET /in_app_purchase/products/identifiers` | Get an array of valid product identifiers | --- `passbook`: Adds endpoints for the [web service protocol](https://developer.apple.com/library/prerelease/ios/#documentation/PassKit/Reference/PassKit_WebService/WebService.html) for communicating with Passbook **Associated Classes** - `Rack::Passbook::Pass` - `Rack::Passbook::Registration` | | | |---------------------------|----------------------------------------------------| | `GET /passbook/v1/passes/:passTypeIdentifier/:serialNumber` | Get the Latest Version of a Pass | | `GET /passbook/v1/devices/:deviceLibraryIdentifier/registrations/:passTypeIdentifier[?passesUpdatedSince=tag]` | Get the Serial Numbers for Passes Associated with a Device | | `POST /passbook/v1/devices/:deviceLibraryIdentifier/registrations/:passTypeIdentifier/:serialNumber` | Register a Device to Receive Push Notifications for a Pass | | `DELETE /passbook/v1/devices/:deviceLibraryIdentifier/registrations/:passTypeIdentifier/:serialNumber` | Unregister a Device | --- `newsstand`: Adds endpoints for Newsstand. Offers complete management of issues, covers, and assets, with plist-based web services and Atom feeds. **Associated Classes** - `Rack::Newsstand::Issue` | | | |-------------------------------|-------------------------| | `GET /newsstand/issues` | Get list of all issues | | `GET /newsstand/issues/:name` | Get a specific issue | | `POST /newsstand/issues` | Add a new issue | ## Command-Line Interface Helios comes with a CLI to help create and manage your application. After you `$ gem install helios`, you'll have the `helios` binary available. ``` $ helios --help helios A command-line interface for building mobile infrastructures Commands: console Open IRB session with Helios environment help Display global or [command] help documentation. link Links a Core Data model new Creates a new Helios project server Start running Helios locally ``` ### Creating an Application The first step to using Helios is to create a new application. This can be done with the `$ helios new` command, which should be familiar if you've ever used Rails. ``` $ helios new --help Usage: helios new path/to/app The `helios new` command creates a new Helios application with a default directory structure and configuration at the path you specify. Options: --skip-gemfile Don't create a Gemfile -B, --skip-bundle Don't run bundle install -G, --skip-git Don't create a git repository --edge Setup the application with Gemfile pointing to Helios repository -f, --force Overwrite files that already exist -p, --pretend Run but do not make any changes -s, --skip Skip files that already exist ``` ### Linking a Core Data Model In order to keep your data model and REST webservices in sync, you can link it to your helios application: ``` $ helios link path/to/DataModel.xcdatamodel ``` This creates a hard link between the data model file in your Xcode and Helios projects—any changes made to either file will affect both. The next time you start the server, Helios will automatically migrate the database to create tables and insert columns to accomodate any new entities or attributes. > If you are using OS X, do not attempt to delete your Helios application directory using `rm -r` if you have linked a Core Data model. Doing so will result in the removal of the Xcode data model itself. Instead use the finder to move the Helios application directory to trash. ### Starting the Application Locally To run Helios in development mode on `localhost`, run the `server` command: ``` $ helios server ``` ### Testing Push Notifications Once you have registered a device and set up your certificate, try this: ``` $ curl -X POST -d 'payload={"aps": {"alert":"Blastoff!"}}' http://localhost:5000/push_notification/message ``` ### Setting Up Storage for Newsstand In order to set up storage for Newsstand, you will need an account with one of the following cloud storage providers: - [Amazon AWS S3](http://aws.amazon.com/s3/) - [Google Cloud Storage](https://cloud.google.com/products/cloud-storage/) - [Rackspace Cloud Files](http://www.rackspace.com/cloud/files/) In your application directory, edit the `config.ru` with your credentials for the cloud storage provider of your choice. Here is an example configuration using AWS. ```ruby require 'bundler' Bundler.require app = Helios::Application.new { service :data, model: Dir['*.xcdatamodel*'].first if Dir['*.xcdatamodel*'].any? service :push_notification service :in_app_purchase service :passbook service :newsstand, { storage: { provider: 'AWS', aws_access_key_id: 'YOUR_ACCESS_KEY_ID', aws_secret_access_key: 'YOUR_SECRET_ACCESS_KEY' } } } run app ``` For other configuration options, see [fog.io](http://fog.io/storage/). ### Running the Helios Console You can start an IRB session with the runtime environment of the Helios application with the `console` command: ``` $ helios console ``` This command activates the services as configured by your Helios application, including any generated Core Data models. The `rack` module is automatically included on launch, allowing you to access everything more directly: ```ruby > Passbook::Passes.all # => [...] ``` ## Deploying to Heroku [Heroku](http://www.heroku.com) is the easiest way to get your app up and running. For full instructions on how to get started, check out ["Getting Started with Ruby on Heroku"](https://devcenter.heroku.com/articles/ruby). Once you've installed the [Heroku Toolbelt](https://toolbelt.heroku.com), and have a Heroku account, enter the following commands from the project directory: ``` $ heroku create $ git add . $ git push heroku master ``` ## Integrating with an iOS Application ### Core Data Synchronization With [AFIncrementalStore](https://github.com/AFNetworking/AFIncrementalStore), you can integrate your Helios app directly into the Core Data stack. Whether it’s a fetch or save changes request, or fulfilling an attribute or relation fault, AFIncrementalStore handles all of the networking needed to read and write to and from the server. See ["Building an iOS App with AFIncrementalStore and the Core Data Buildpack"](https://devcenter.heroku.com/articles/ios-core-data-buildpack-app) on the Heroku Dev Center for a comprehensive guide on how to use AFIncrementalStore with the Core Data buildpack. An article for Helios is forthcoming, but aside from deployment, the instructions are essentially unchanged. ### Push Notification Registration With [Orbiter](https://github.com/mattt/Orbiter) you can integrate Push Notifications into your app easily. ```objective-c - (void)application:(UIApplication *)application didRegisterForRemoteNotificationsWithDeviceToken:(NSData *)deviceToken { NSURL *serverURL = [NSURL URLWithString:@"http://raging-notification-3556.herokuapp.com/"]; Orbiter *orbiter = [[Orbiter alloc] initWithBaseURL:serverURL credential:nil]; [orbiter registerDeviceToken:deviceToken withAlias:nil success:^(id responseObject) { NSLog(@"Registration Success: %@", responseObject); } failure:^(NSError *error) { NSLog(@"Registration Error: %@", error); }]; } ``` ### Converting Your Push Notification Certificate > These instructions come from the [APN on Rails](https://github.com/PRX/apn_on_rails) project. Once you have the certificate from Apple for your application, export your key and the apple certificate as p12 files. Here is a quick walkthrough on how to do this: 1. Click the disclosure arrow next to your certificate in Keychain Access and select the certificate and the key. 2. Right click and choose `Export 2 items…`. 3. Choose the p12 format from the drop down and name it `cert.p12`. Now covert the p12 file to a pem file: ``` $ openssl pkcs12 -in cert.p12 -out apple_push_notification.pem -nodes -clcerts ``` --- ## Contact Mattt Thompson - http://github.com/mattt - http://twitter.com/mattt ## License Helios is released under the [MIT License](http://opensource.org/licenses/MIT).