A quick, simple and stylish solution for your remote and dev configurations.
As part of software development process, we always need to see how our app will react depending on the different scenarios or configurations especially during testing. At the same time, it would be better if we can control some of app configurations on the fly, especially if there are unexpected things happened in our production environment, we can immediately enable or disable certain app functionality.
Install using SPM
.package(url: "https://github.com/michaelhenry/XConfigs", .upToNextMinor(from: "1.0.0")),
let kvProvider = SampleKeyValueProvider()
// Register the AppConfigs and set which keyValueProvider and option to use. Note that `.allowInAppModification(InAppModificationOption)` option accepts a `KeyValueStore`.
XConfigs.configure(with: AppConfigs.self, keyValueProvider: kvProvider, option: .allowInAppModification(.init(store: UserDefaults.standard)))
Please note that on production build, it is recommend that the in-app modification is disabled (option is set to readonly
), so XConfigs will just use either the value from the keyValueProvider or the default value assigned inside the property wrapper as fallback.
Eg.
#if DEBUG
XConfigs.configure(with: MockConfigs.self, keyValueProvider: kvProvider, option: .allowInAppModification(.init(store: UserDefaults.standard)))
#else
XConfigs.configure(with: MockConfigs.self, keyValueProvider: kvProvider, option: .readonly)
#endif
Please refer to XConfigs's docs.
Similar with logger tool such as swift-log, You can simply create a single global variable or just a singleton, as long as the it conforms to XConfigSpecification and then use the @XConfig
property wrapper inside it.
If you have some custom datatype, you can simply conform them to RawStringValueRepresentable
. So the key thing is as long as a value can be represented as a string, it should be fine.
struct AppConfigs: XConfigSpec {
@XConfig(key: "isOnboardingEnabled", defaultValue: false)
var isOnboardingEnabled: Bool
@XConfig(key: "apiURL", defaultValue: URL(string: "https://google.com")!)
var apiURL: URL
@XConfig(key: "region", defaultValue: .north)
var region: Region
@XConfig(key: "maxRetry", defaultValue: 10)
var maxRetry: Int
@XConfig(key: "threshold", defaultValue: 1)
var threshold: Int
@XConfig(key: "rate", defaultValue: 2.5)
var rate: Double
}
enum Region: String, CaseIterable, RawStringValueRepresentable {
case north
case south
case east
case west
}
For the complete example, please refer to the Demo project which auto-generated the screen(below) using the AppConfigs.swift config specification.
xconfigs-demo.mp4
xconfigs-demo2.mp4
You can backed XConfigs by FirebaseRemoteConfig by simply implementing the KeyValueProvider protocol.
Example:
import FirebaseRemoteConfig
struct FirebaseKeyValueProvider: KeyValueProvider {
private let remoteConfig: RemoteConfig = {
let rconfig = RemoteConfig.remoteConfig()
let settings = RemoteConfigSettings()
settings.minimumFetchInterval = 0
rconfig.configSettings = settings
return rconfig
}()
// Please refer to https://firebase.google.com/docs/remote-config/get-started?platform=ios
func fetch() {
remoteConfig.fetch { (status, error) -> Void in
if status == .success {
print("Config fetched!")
self.remoteConfig.activate { changed, error in
// ...
}
} else {
print("Config not fetched")
print("Error: \(error?.localizedDescription ?? "No error available.")")
}
}
}
// XConfigs KeyValueProvider protocol
func get<Value>(for key: String) -> Value? where Value : RawStringValueRepresentable {
guard let rawValue = remoteConfig.configValue(forKey: key).stringValue, let value = Value(rawString: rawValue) else { return nil }
return value
}
}
MIT