Traditional client/server applications work based on a request/response cycle: The client sends a request to the server and the server sends back a response (the client is said to pull information from the server). But there was once no way for the server to send (push) information to the client outside of a regular request cycle.
Push notifications solved this problem. They’re a way for the server to initiate a connection and send information to a client whenever there’s an event of interest. This mechanism allows for updates to be delivered in near real-time instead of having to wait for the next synchronization.
Depending on how they are implemented and delivered, there are two types of push notifications:
This difference is particularly important on Android because Android’s native notifications require accessing Google services (in particular, Google Cloud Messaging, or GCM) which are linked to the Google Play Store. Enterprise devices might not include access to the Play Store, so if you are deploying your application to the Enterprise Tablet or other professional-grade Android devices, be aware that Google Cloud Messaging may not be available and you will need to use RhoConnect Push Service instead.
In order to choose one or the other, you need to think about:
Having trouble building an Android app with RhoElements 4.0.0 and Push capability?
Since being moved to Google Play services, GCM is no longer supported as a standalone jar file. If you’re having trouble building an Android app with RhoElements 4.0.0 and Push capability, try these steps:
1. Download the GCM r03 sip file from Google’s repository.
2. Copy it to sdk/extras and extract it.
3. Rename the folder to ‘gcm’
You only need to complete one of the setup sections, either “native” (this section) or “RhoConnect Push Service” depending on which delivery backend you want to use. If you are not sure, check what push notifications are and when to use them. Once you have completed one of these, proceed to Integrating push notifications in a RhoMobile app.
Native iOS notifications use Apple’s Push Notification Service (APNS) for delivery.
You need an Apple iOS Developer account and a real device in order to use native push notifications in iOS. Testing on the iOS Simulator is not possible due to Apple’s restrictions.
The following checklist contains the steps required to enable native push in iOS:
See Setting Up RhoConnect Push on iOS for detailed information on how to complete these operations.
Once completed, proceed to Integrating push notifications in a RhoMobile app
Native Android notifications use Google Cloud Messaging (GCM) for delivery. The following checklist must be completed in order to integrate your RhoConnect server with GCM:
settings/settings.yml in RhoConnect as :gcm_api_key
build.yml in your RhoMobile appbuild.yml to always display notifications or to do so only if the application is not running when the notification is receivedSee Setting Up RhoConnect Push on Android for the details on how to complete these steps.
Once completed, proceed to Integrating push notifications in a RhoMobile app
You only need to complete one of the setup sections, either this section (“RhoConnect Push Service”) or “Setting up your app for native push notifications”, depending on which delivery backend you want to use. If you are not sure, check what push notifications are and when to use them. Once you have completed one of these, continue with Integrating push notifications in a RhoMobile app.
If you cannot use platform-specific notifications for whatever reason, RhoConnect Push Service still allows you to use push notifications in your app. See Setting Up RhoConnect Push Service for more information on how to set up this solution. Be aware that RhoConnect Push Service is not available on iOS.
Once the server-side infrastructure is ready, reacting to push notifications in RhoMobile is really easy: just use the Push API to register a callback that will be invoked when a notification is received.
Each notification can contain one or more commands to be performed:
When your code receives a notification, inspect the params hash and process the different commands, such as in the following example:
Ruby:
def setup_push Rho::Push.startNotifications(url_for(:action => :push_callback)) end def push_callback # If the notification contains a message, it will be in the alert parameter if @params['alert'] Rho::Notification.showPopup("Push notification received with message: #{@params['alert']}") end sources_to_sync = @params['do_sync'] # comma-separated list of data sources we must sync, or "all" if sources_to_sync if sources_to_sync=="all" # if the notification tells us to sync all sources, we will do just that Rho::RhoConnectClient.doSync() else # otherwise, we will sync only those sources mentioned in the notification sources_to_sync.split(",").each do |source| Rho::RhoConnectClient.doSyncSource(source) end end end end
JavaScript:
function setup_push_manual() { Rho.Push.startNotifications(push_callback); } function push_callback(params) { // If the notification contains a message, it will be in the alert parameter if (params.alert) { Rho.Notification.showPopup("Push notification received with message: "+params.alert); } var sources_to_sync = params.do_sync; // comma-separated list of data sources we must sync, or "all" if (sources_to_sync) { if (sources_to_sync=="all") { // if the notification tells us to sync all sources, we will do just that Rho.RhoConnectClient.doSync(); } else { // otherwise, we will sync only those sources mentioned in the notification var sources = sources_to_sync.split(","); for (var i=0; i<sources.length; i++) { Rho.RhoConnectClient.doSyncSource(sources[i]); } } } }
Once both your RhoConnect server and RhoMobile application are set up to work with push notifications, you can easily test them from the RhoConnect Web Console or from the command line:
curl -X POST -H "X-RhoConnect-API-TOKEN: my-rhoconnect-token" --data "user_id=user1&message=Hello+user&sources[]=all&vibrate=2000" http://localhost:9292/rc/v1/users/ping
where
my-rhoconnect-token is a placeholder from the RhoConnect API token found in settings/settings.yml (and which you must change, before deployment in production, to a secret value)user1 is the name of a user that has logged in successfully to the RhoConnect servermessage is an optional text string that will be shown to the user when the notification is receivedall means that, on receipt of this notification, the RhoMobile application should synchronize all its data sources. See below for an example of more fine-grained notificationslocalhost:9292 is the location of your RhoConnect serverRequesting synchronization of only one particular model (Product):
curl -X POST -H "X-RhoConnect-API-TOKEN: my-rhoconnect-token" --data "user_id=user1&message=Hello+user&sources[]=Product&vibrate=2000" http://localhost:9292/rc/v1/users/ping
Requesting synchronization of two models (Product and Customer):
curl -X POST -H "X-RhoConnect-API-TOKEN: my-rhoconnect-token" --data "user_id=user1&message=Hello+user&sources[]=Product&sources[]=Customer&vibrate=2000" http://localhost:9292/rc/v1/users/ping
When you are satisfied that your notifications are working, see Setting up Push on a Backend Application for examples of how to send notifications from Ruby, Java, .NET, RhoConnect source adapters and Resque jobs
While push notifications normally arrive in a very short amount of time (usually less than a few seconds), delivery is done on a “best effort” basis and there is no guarantee that any notification will be received within a particular timeframe or at all. Additionally, a device might not have a network connection available at a particular time. In that case, notifications may be queued, but they will eventually expire if they cannot be delivered for too long. Limits are platform-dependant.
Push notifications are not intended to be a data-delivery channel, that is, you should push the minimum possible amount of data and, if the application requires more information, it should request it from the server. In particular, do not expect to embed large strings in the message field. Some platforms have a hard limit on the size of a notification, and it varies by platform. Keep your payload as small as possible; for example, Apple limits the size of a notification to 256 bytes, of which some are used internally by RhoMobile. Treat notifications as “triggers” and initiate transfers from your application or use the built-in facilities to request synchronization of data sources.
Push notifications are not a good approach for commands that need to run at known, predictable intervals. If you want to synchronize data periodically with a RhoConnect server, use the built-in poll_interval parameter in RhoConnect or set up scheduling in your RhoMobile application.
As mentioned above, enterprise-grade Android devices may not include the libraries required to use native notifications. On those devices, use RhoConnect Push Service instead.