The XrayKit is a mobile SDK that offers event driven communication with the real time Xray backend. The main benefits for mobile applications from this SDK are
- Deliver user and application events
- Receive data in real time in response to those events
- Remotely setup local triggers to deliver data instantly even offline
Among others, the XrayKit can be used as a base SDK for mobile marketing SDKs providing the base functionality for sending events and delivering domain specific data.
XrayKit is meant to be network trasnport and api protocol agnostic. This means that how the events are sent or how that data are received can be implemented for scenarios where MQTT or WebSockets are prefered over a HTTP protocol. The default implementation is provided to allow the communication with the Xray backend via HTTP.
See Architecture for further information about the SDK
Note: XrayKit requires Swift 4.2 and Xcode] 10.0
Carthage is a simple, decentralized dependency manager for Cocoa. To install XrayKit with Carthage:
-
Make sure Carthage is installed.
-
Update your Cartfile to include the following:
github "xray-tech/xorc-sdk-ios" ~> 1.0
-
Run
carthage updateand add the appropriate framework.
CocoaPods is a dependency manager for Cocoa projects. To install XrayKit with CocoaPods:
-
Make sure CocoaPods is installed. (XrayKit requires version 1.0.0 or greater.)
# Using the default Ruby install will require you to use sudo when # installing and updating gems. [sudo] gem install cocoapods
-
Update your Podfile to include the following:
use_frameworks! target 'YourAppTargetName' do pod 'XrayKit', '~> 1.0' end
-
Run
pod install --repo-update.
Start the XrayKit preferably as soon as your application starts in your AppDelegate:
import XrayKit
import XrayHTTP
func application(_ application: UIApplication, didFinishLaunchingWithOptions launchOptions: [UIApplication.LaunchOptionsKey: Any]?) -> Bool {
// Register the event trasnmitter specific to the Xray backend.
let options = XrayCrmOptions(appId: "36", apiKey: "1aa867899db75d0967c6c77aaf5bf3d962d97fd1ffd3ee4aaae41d29dc0cee3f")
let crmTransmitter = XrayCrm(options: options)
Xray.events.register(transmitter: crm)
// Start the XrayKit
Xray.start()
return true
}Sending a simple event with properties
let event = Event(name: "purchase", properties: [
"item_name": "iPhoneX",
"item_price": 1149
]
)
Xray.events.log(event: event)You can assing a context to each event. The context is not used for any data triggers but are handed back to you when the even triggers data (more on that later)
// Send a simple event with properties and context
// optional properties related to the event
let properties = [ "item_name": "iPhoneX", "item_price": 1149]
// optional context in which the event was triggered.
let context = ["test_device": true]
Xray.events.log(event: Event(name: "purchase", properties: properties, context: context))Local events
You can emmit events that are local which means that they will not be send over the network. The use case if you want to emmit events containing sensitive data that must not leave the device.
let event = Event(name: "did_join_wifi", properties: ["ssid": "home wlan"], context: nil, scope: .local)
Xray.events.log(event: event)The XrayKit can react on emmited events by delivering data back to you. What the data are and what is their meaning is to be defined by you. The XrayKit simply delivers to you "at the right time".
In the following example we simply log the data as String
Xray.data.onTrigger = { (payloads: [DataPayload]) in
payloads.forEach { (payload: DataPayload) in
if let myData = String(data: payload.data, encoding: .utf8) {
print("Received data \(myData)")
}
}
}An marketing implementation could expect a data as a JSON and present an InApp message. In the following example, the InAppMessage is a fictive struct that holds the required fields to display a message to a user.
struct InAppMessage: Decodable {
enum CloseButtonPosition: String, Decodable {
case topLeft
case topRight
case boomLeft
case bottomRight
}
let url: URL
let closeButtonPosition: CloseButtonPosition
}
Xray.data.onTrigger = { payloads in
let decoder = JSONDecoder()
guard
let data = payloads.first?.data,
let inAppMessage = try? decoder.decode(InAppMessage.self, from: data) else { return }
// handle the presentation to the user
present(inAppMessage: inAppMessage)
}The Xray backend rule engine decides remotely when to deliver the data to the XrayKit. The default implementation uses the APNS silent message to push the DataPayload so all you need to do is the implement the above onTrigger callback.
You can setup DataTriggers manually using the DataPayload.Trigger. An EventTrigger has an event name and a list of filters. Both are stored locally by the XrayKit and matched agains all occuring events. If an event with a matching name amd properties matches, the DataPayload is delivered in the onTrigger callback.
You can use any operators supported by NSPredicate to used with the event properties:
// Create an event trigger that matches a "pruchase" event with an "item_name" either equal to "iPad" or "iPhoneX
let trigger = EventTrigger(name: "purchase", filters: [ "event.properties.item_name": ["in": ["iPhoneX", "iPad"]] ])
// Schedule the trigger until the event occurs
Xray.data.schedule(payload: DataPayload(data: "Thanks for your purchase".data(using: .utf8)!, trigger: .event(trigger)))To facilitate dynamic creation of the filters, you can use json to create them. So given the following json
{
"AND": [
{
"event.properties.item_name": {
"BEGINSWITH": "iP"
}
},
{
"event.properties.item_description": {
"in": [
"Apple",
"Google"
]
}
},
{
"OR": [
{
"event.properties.item_sale": {
"==": true
}
},
{
"event.properties.item_inventory_count": {
">=": 11
}
}
]
}
]
}you can create a DataTrigger
let jsonFiltersData: Data = ...
EventTrigger(name: "purchase", jsonFilters: data)
Xray.data.schedule(payload: DataPayload(data: "Thanks for your purchase".data(using: .utf8)!, trigger: .event(trigger)))You can find more filter examples in the Example directory