Getting started with Android Jetpack

Jetpack encompasses a collection of Android libraries that incorporate best practices and provide backwards compatibility in your Android apps.

The Jetpack guide to app architecture provides an overview of the best practices and recommended architecture to consider as you build your Android app.

The following sections cover how you can get started using Jetpack components.

Use a Jetpack library in your app

All Jetpack components are available on the Google Maven repository.

Open the settings.gradle file add the google() repository in the dependencyResolutionManagement { repositories {...}} block as shown below:

Groovy

dependencyResolutionManagement {
    repositoriesMode.set(RepositoriesMode.FAIL_ON_PROJECT_REPOS)
    repositories {
        google()
        jcenter()
    }
}

Kotlin

dependencyResolutionManagement {
    repositoriesMode.set(RepositoriesMode.FAIL_ON_PROJECT_REPOS)
    repositories {
        google()
        jcenter()
    }
}

You can then add Jetpack components, such as architecture components like LiveData and ViewModel, in your module's build.gradle file, as shown here:

Groovy

dependencies {
    def lifecycle_version = "2.2.0"

    implementation "androidx.lifecycle:lifecycle-livedata-ktx:$lifecycle_version"
    implementation "androidx.lifecycle:lifecycle-viewmodel-ktx:$lifecycle_version"
    ...
}

Kotlin

dependencies {
    val lifecycle_version = "2.2.0"

    implementation("androidx.lifecycle:lifecycle-livedata-ktx:$lifecycle_version")
    implementation("androidx.lifecycle:lifecycle-viewmodel-ktx:$lifecycle_version")
    ...
}

Many Jetpack libraries provide Android KTX extensions as shown above with lifecycle-livedata-ktx and lifecycle-viewmodel-ktx. The KTX extensions build upon the Java-based API, taking advantage of Kotlin-specific language features.

To learn of new Jetpack library releases, check out the Releases page.

Kotlin-based and Java-based API reference pages are available for all Jetpack libraries.

Verify Jetpack dependencies (optional)

As of June 2023, the Jetpack team signs Jetpack libraries. These signatures allow developers to verify that the library artifacts are built and signed by Google. A library is eligible for signature verification once it publishes an update.

If your Android project has signature verification enabled, here are the steps to take to verify Jetpack dependencies in the Gradle project:

  1. Add Google's trusted key to the <trusted-keys> section in $PROJECT_ROOT/gradle/verification-metadata.xml:

    <trusted-keys>
        <trusted-key id="8461efa0e74abae010de66994eb27db2a3b88b8b">
            ...
        </trusted-key>
        ...
    </trusted-keys>
    
  2. Add a <trusting group> entry for each library that the project is using. Here's an example for the androidx.fragment and androidx.emoji2 libraries:

    <trusted-keys>
        <trusted-key id="8461efa0e74abae010de66994eb27db2a3b88b8b">
            <trusting group="androidx.fragment"/>
            <trusting group="androidx.emoji2"/>
        </trusted-key>
        ...
    </trusted-keys>
    

For issues with dependency verification, visit Gradle's guide on troubleshooting dependency verification.

Finally, details on our trusted key can be viewed on Ubuntu's keyserver site.

Take advantage of Jetpack

Jetpack libraries may be used alone or in combination to address different needs in your apps.

  • WorkManager for your background scheduling needs.
  • Room for data storage persistence.
  • Navigation to manage your application navigation flow.
  • CameraX for your camera app needs.
  • See the Overview of all the Jetpack libraries.

Jetpack libraries are published in the androidx namespace. If your project currently uses the Android Support Library, read how to migrate to the androidx namespace.

To learn more about using Jetpack, check out these pages:

Additional resources

Online training

Sample code

  • The Sunflower demo app uses many different Jetpack components to demonstrate Android development best practices.

Codelabs

Videos