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Kotlin Multiplatform Monitoring is in Preview.
Datadog Real User Monitoring (RUM) enables you to visualize and analyze the real-time performance and user journeys of your application’s individual users.
The Datadog Kotlin Multiplatform SDK supports Android 5.0+ (API level 21) and iOS v12+.
Declare dd-sdk-kotlin-multiplatform-rum
as a common source set dependency in your Kotlin Multiplatform module’s build.gradle.kts
file.
kotlin {
// declare targets
// ...
sourceSets {
// ...
commonMain.dependencies {
implementation("com.datadoghq:dd-sdk-kotlin-multiplatform-rum:<latest_version>")
}
}
}
Note: Kotlin 2.0.20 or higher is required if crash tracking is enabled on iOS. Otherwise, due to the compatibility with PLCrashReporter
, the application may hang if crash tracking is enabled.
Add the following Datadog iOS SDK dependencies, which are needed for the linking step:
DatadogObjc
DatadogCrashReporting
Note: Versions of these dependencies should be aligned with the version used by the Datadog Kotlin Multiplatform SDK itself.
Datadog Kotlin Multiplatform SDK version | Datadog iOS SDK version |
---|---|
0.0.1 | 2.14.1 |
0.0.2 | 2.17.0 |
0.0.3 | 2.17.0 |
If you are using Kotlin Multiplatform library as a CocoaPods dependency for your iOS application, you can add dependencies as following:
cocoapods {
// ...
framework {
baseName = "sharedLib"
}
pod("DatadogObjc") {
linkOnly = true
version = 2.17.0
}
pod("DatadogCrashReporting") {
linkOnly = true
version = 2.17.0
}
}
If you are integrating Kotlin Multiplatform library as a framework with an embedAndSignAppleFrameworkForXcode
Gradle task as a part of your Xcode build, you can add the necessary dependencies directly in Xcode as following:
https://github.com/DataDog/dd-sdk-ios.git
as a package URL.Kotlin Multiplatform
as the application type and enter an application name to generate a unique Datadog application ID and client token.To ensure the safety of your data, you must use a client token. If you used only Datadog API keys to configure the Datadog SDK, they would be exposed client-side in the Android application’s APK byte code.
For more information about setting up a client token, see the Client Token documentation.
In the initialization snippet, set an environment name. For Android, set a variant name if it exists. For more information, see Using Tags.
See trackingConsent
to add GDPR compliance for your EU users, and other configuration options to initialize the library.
// in common source set
fun initializeDatadog(context: Any? = null) {
// context should be application context on Android and can be null on iOS
val appClientToken = <CLIENT_TOKEN>
val appEnvironment = <ENV_NAME>
val appVariantName = <APP_VARIANT_NAME>
val configuration = Configuration.Builder(
clientToken = appClientToken,
env = appEnvironment,
variant = appVariantName
)
.trackCrashes(true)
.build()
Datadog.initialize(context, configuration, trackingConsent)
}
// in common source set
fun initializeDatadog(context: Any? = null) {
// context should be application context on Android and can be null on iOS
val appClientToken = <CLIENT_TOKEN>
val appEnvironment = <ENV_NAME>
val appVariantName = <APP_VARIANT_NAME>
val configuration = Configuration.Builder(
clientToken = appClientToken,
env = appEnvironment,
variant = appVariantName
)
.useSite(DatadogSite.EU1)
.trackCrashes(true)
.build()
Datadog.initialize(context, configuration, trackingConsent)
}
// in common source set
fun initializeDatadog(context: Any? = null) {
// context should be application context on Android and can be null on iOS
val appClientToken = <CLIENT_TOKEN>
val appEnvironment = <ENV_NAME>
val appVariantName = <APP_VARIANT_NAME>
val configuration = Configuration.Builder(
clientToken = appClientToken,
env = appEnvironment,
variant = appVariantName
)
.useSite(DatadogSite.US3)
.trackCrashes(true)
.build()
Datadog.initialize(context, configuration, trackingConsent)
}
// in common source set
fun initializeDatadog(context: Any? = null) {
// context should be application context on Android and can be null on iOS
val appClientToken = <CLIENT_TOKEN>
val appEnvironment = <ENV_NAME>
val appVariantName = <APP_VARIANT_NAME>
val configuration = Configuration.Builder(
clientToken = appClientToken,
env = appEnvironment,
variant = appVariantName
)
.useSite(DatadogSite.US5)
.trackCrashes(true)
.build()
Datadog.initialize(context, configuration, trackingConsent)
}
// in common source set
fun initializeDatadog(context: Any? = null) {
// context should be application context on Android and can be null on iOS
val appClientToken = <CLIENT_TOKEN>
val appEnvironment = <ENV_NAME>
val appVariantName = <APP_VARIANT_NAME>
val configuration = Configuration.Builder(
clientToken = appClientToken,
env = appEnvironment,
variant = appVariantName
)
.useSite(DatadogSite.US1_FED)
.trackCrashes(true)
.build()
Datadog.initialize(context, configuration, trackingConsent)
}
// in common source set
fun initializeDatadog(context: Any? = null) {
// context should be application context on Android and can be null on iOS
val appClientToken = <CLIENT_TOKEN>
val appEnvironment = <ENV_NAME>
val appVariantName = <APP_VARIANT_NAME>
val configuration = Configuration.Builder(
clientToken = appClientToken,
env = appEnvironment,
variant = appVariantName
)
.useSite(DatadogSite.AP1)
.trackCrashes(true)
.build()
Datadog.initialize(context, configuration, trackingConsent)
}
To control the data your application sends to Datadog RUM, you can specify a sample rate for RUM sessions while initializing the RUM feature as a percentage between 0 and 100.
val rumConfig = RumConfiguration.Builder(applicationId)
// Here 75% of the RUM sessions are sent to Datadog
.setSessionSampleRate(75.0f)
.build()
Rum.enable(rumConfig)
// in a common source set
fun initializeRum(applicationId: String) {
val rumConfiguration = RumConfiguration.Builder(applicationId)
.trackLongTasks(durationThreshold)
.apply {
// platform specific setup
rumPlatformSetup(this)
}
.build()
Rum.enable(rumConfiguration)
}
internal expect fun rumPlatformSetup(rumConfigurationBuilder: RumConfiguration.Builder)
// in iOS source set
internal actual fun rumPlatformSetup(rumConfigurationBuilder: RumConfiguration.Builder) {
with(rumConfigurationBuilder) {
trackUiKitViews()
trackUiKitActions()
// check more iOS-specific methods
}
}
// in Android source set
internal actual fun rumPlatformSetup(rumConfigurationBuilder: RumConfiguration.Builder) {
with(rumConfigurationBuilder) {
useViewTrackingStrategy(/** choose view tracking strategy **/)
trackUserInteractions()
// check more Android-specific methods
}
}
See Automatically track views to enable automatic tracking of all your views.
To be compliant with GDPR, the SDK requires the tracking consent value at initialization. Tracking consent can be one of the following values:
TrackingConsent.PENDING
: (Default) The SDK starts collecting and batching the data but does not send it to the
collection endpoint. The SDK waits for the new tracking consent value to decide what to do with the batched data.TrackingConsent.GRANTED
: The SDK starts collecting the data and sends it to the data collection endpoint.TrackingConsent.NOT_GRANTED
: The SDK does not collect any data. You are not able to manually send any logs, traces, or
RUM events.To update the tracking consent after the SDK is initialized, call Datadog.setTrackingConsent(<NEW CONSENT>)
. The SDK changes its behavior according to the new consent. For example, if the current tracking consent is TrackingConsent.PENDING
and you update it to:
TrackingConsent.GRANTED
: The SDK sends all current batched data and future data directly to the data collection endpoint.TrackingConsent.NOT_GRANTED
: The SDK wipes all batched data and does not collect any future data.dd-sdk-kotlin-multiplatform-ktor
library in the your build.gradle.kts
file:kotlin {
// ...
sourceSets {
// ...
commonMain.dependencies {
implementation("com.datadoghq:dd-sdk-kotlin-multiplatform-ktor:x.x.x")
}
}
}
val ktorClient = HttpClient {
install(
datadogKtorPlugin(
tracedHosts = mapOf(
"example.com" to setOf(TracingHeaderType.DATADOG),
"example.eu" to setOf(TracingHeaderType.DATADOG)
),
traceSamplingRate = 100f
)
)
}
This records each request processed by the HttpClient
as a resource in RUM, with all the relevant information automatically filled (URL, method, status code, and error). Only the network requests that started when a view is active are tracked. To track requests when your application is in the background, create a view manually or enable background view tracking.
You can track events such as crashes and network requests when your application is in the background (for example, no active view is available).
Add the following snippet during RUM configuration:
.trackBackgroundEvents(true)
Tracking background events may lead to additional sessions, which can impact billing. For questions, contact Datadog support.
Kotlin Multiplatform Crash Reporting and Error Tracking displays any issues in your application and the latest available errors. You can view error details and attributes including JSON in the RUM Explorer.
RUM ensures availability of data when your user device is offline. In case of low-network areas, or when the device battery is too low, all the RUM events are first stored on the local device in batches.
Each batch follows the intake specification. They are sent as soon as the network is available, and the battery is high enough to ensure the Datadog SDK does not impact the end user’s experience. If the network is not available while your application is in the foreground, or if an upload of data fails, the batch is kept until it can be sent successfully.
This means that even if users open your application while offline, no data is lost. To ensure the SDK does not use too much disk space, the data on the disk is automatically discarded if it gets too old.