Starting March 27, 2025, we recommend using android-latest-release instead of aosp-main to build and contribute to AOSP. For more information, see Changes to AOSP.
Android platform testing
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Android Open Source Project (AOSP) provides several tools and test suites
for testing various parts of your implementation. Before using the pages in this
section, you should be familiar with the following terms:
- Android-compatible device
- A device that can run any third-party app written by third-party developers
using the Android SDK and NDK. Android-compatible devices must adhere to the
requirements of the
Compatibility Definition Document (CDD) and pass the
Compatibility Test Suite (CTS). Android-compatible
devices are eligible to participate in the Android ecosystem, which includes
potential licensure of Google Play, potential licensure of the
Google Mobile Services (GMS) suite of
app and APIs, and use of the Android trademark. Anyone is welcome to
use the Android source code, but to be considered part of the Android ecosystem,
a device must be Android compatible.
- artifact
- A build-related log that enables local troubleshooting.
- Compatibility Definition Document (CDD)
- A document that enumerates the software and hardware requirements for an
Android-compatible device.
- Compatibility Test Suite (CTS)
A free, commercial-grade test suite, available for download as a binary or as
source in AOSP. The CTS is a set of unit tests designed to be integrated into
your daily workflow. The intent of CTS is to reveal incompatibilities, and
ensure that the software remains compatible throughout the development process.
CTS and platform tests aren't mutually exclusive. Here are some general
guidelines:
- If a test is asserting correctness of framework API functions or behaviors,
and the test should be enforced across OEM partners, it should be in CTS.
- If a test is intended to catch regressions during platform development,
and might require privileged permission to carry out, and might be dependent
on implementation details (as released in AOSP), it should be a platform
test.
- Google Mobile Services (GMS)
A collection of Google apps and APIs that can be preinstalled on devices.
- GoogleTest (GTest)
A C++ testing and mocking framework. GTest binaries typically
access lower-level abstraction layers or perform raw IPC against various system
services. The testing approach for GTest is usually tightly coupled with the
service being tested. CTS contains the GTest framework.
- instrumentation test
A special test execution environment
launched by the am instrument command, where the targeted app process
is restarted and initialized with basic app context, and an
instrumentation thread is started inside the app process virtual
machine. CTS contains instrumentation tests.
- Logcat
A command-line tool that creates a log of system messages, including
stack traces of when the device throws an error and messages that you have
written from your app with the Log class.
- logging
Using a log to keep track of computer system events, such
as errors. Logging in Android is complex due to the mix of standards used that
are combined in the Logcat tool.
- postsubmit test
An Android test that is performed when a new patch is committed to a
common kernel branch. By entering aosp_kernel as a partial branch name, you
can see a list of kernel branches with results available. For example, results
for android-mainline can be found at
https://ci.android.com/builds/branches/aosp_kernel-common-android-mainline/grid.
- presubmit test
A test used to prevent failures from being introduced into the
common kernels.
- Trade Federation
Also called Tradefed, a continuous test
framework designed for running tests on Android devices. For example,
Tradefed is used to run Compatibility Test Suite and Vendor Test Suite tests.
- Vendor Test Suite (VTS)
A set of extensive capabilities for
Android testing, promoting a test-driven development process, and automating
hardware abstraction layer (HAL) and OS kernel testing.
Platform test types
A platform test typically interacts with one or more of the Android system
services or HAL layers, exercises the
functionalities of the subject under test, and asserts correctness of the
testing outcome. A platform test might:
- (Type 1) Exercise framework APIs using Android framework. Specific APIs being
exercised can include:
- Public APIs intended for third-party apps
- Hidden APIs intended for privileged apps, namely system APIs or
private APIs (
@hide, or protected, package private)
- (Type 2) Invoke Android system services using raw binder or IPC proxies
directly.
- (Type 3) Interact directly with HALs using low-level APIs or IPC interfaces.
Type 1 and 2 tests are typically instrumentation tests, while type 3 tests are
usually GTests.
What's next?
Here is a list of documents that you can read for more detailed information:
If you haven't studied Android architecture, see
Architecture overview.
If you're creating an Android-compatible device, see
the Android compatibility program overview.
To integrate instrumentation, functional, metric, and JAR host tests
into a platform continuous testing service, see
Test development workflow.
To detect and harden your devices against vulnerabilities,
see Security testing.
To learn about testing your HAL and kernel implementations, see
Vendor Test Suite (VTS) and infrastructure.
For app testing, read
Fundamentals of testing Android
apps
and conduct the Advanced Android in Kotlin 05.1:Testing
Basics
using the
samples provided.
Learn about the basic presubmit testing available to you through repo hooks.
These hooks can be used to run linters, check formatting, and trigger unit
tests before proceeding, such as uploading a commit. These hooks are disabled
by default. For further information, see AOSP Preupload
Hooks.
To read more about logging, see Understand logging.
To understand how to debug Android code, see
Debug native Android platform code.
Content and code samples on this page are subject to the licenses described in the Content License. Java and OpenJDK are trademarks or registered trademarks of Oracle and/or its affiliates.
Last updated 2025-06-18 UTC.
[[["Easy to understand","easyToUnderstand","thumb-up"],["Solved my problem","solvedMyProblem","thumb-up"],["Other","otherUp","thumb-up"]],[["Missing the information I need","missingTheInformationINeed","thumb-down"],["Too complicated / too many steps","tooComplicatedTooManySteps","thumb-down"],["Out of date","outOfDate","thumb-down"],["Samples / code issue","samplesCodeIssue","thumb-down"],["Other","otherDown","thumb-down"]],["Last updated 2025-06-18 UTC."],[],[],null,["# Android platform testing\n\nAndroid Open Source Project (AOSP) provides several tools and test suites\nfor testing various parts of your implementation. Before using the pages in this\nsection, you should be familiar with the following terms:\n\n*Android-compatible device*\n: A device that can run any third-party app written by third-party developers\n using the Android SDK and NDK. Android-compatible devices must adhere to the\n requirements of the\n [Compatibility Definition Document (CDD)](#CDD) and pass the\n [Compatibility Test Suite (CTS)](#cts). Android-compatible\n devices are eligible to participate in the Android ecosystem, which includes\n potential licensure of Google Play, potential licensure of the\n [Google Mobile Services (GMS)](#gms) suite of\n app and APIs, and use of the Android trademark. Anyone is welcome to\n use the Android source code, but to be considered part of the Android ecosystem,\n a device must be Android compatible.\n\n*artifact*\n: A build-related log that enables local troubleshooting.\n\n*Compatibility Definition Document (CDD)*\n: A document that enumerates the software and hardware requirements for an\n Android-compatible device.\n\n*Compatibility Test Suite (CTS)*\n\n: A free, commercial-grade test suite, available for download as a binary or as\n source in AOSP. The CTS is a set of unit tests designed to be integrated into\n your daily workflow. The intent of CTS is to reveal incompatibilities, and\n ensure that the software remains compatible throughout the development process.\n\n CTS and platform tests aren't mutually exclusive. Here are some general\n guidelines:\n\n - If a test is asserting correctness of framework API functions or behaviors, and the test should be enforced across OEM partners, it should be in CTS.\n - If a test is intended to catch regressions during platform development, and might require privileged permission to carry out, and might be dependent on implementation details (as released in AOSP), it should be a platform test.\n\n*Google Mobile Services (GMS)*\n\n: A collection of Google apps and APIs that can be preinstalled on devices.\n\n*GoogleTest (GTest)*\n\n: A C++ testing and mocking framework. GTest binaries typically\n access lower-level abstraction layers or perform raw IPC against various system\n services. The testing approach for GTest is usually tightly coupled with the\n service being tested. CTS contains the GTest framework.\n\n*instrumentation test*\n\n: A special test execution environment\n launched by the `am instrument` command, where the targeted app process\n is restarted and initialized with basic app context, and an\n instrumentation thread is started inside the app process virtual\n machine. CTS contains instrumentation tests.\n\n*Logcat*\n\n: A command-line tool that creates a log of system messages, including\n stack traces of when the device throws an error and messages that you have\n written from your app with the `Log` class.\n\n*logging*\n\n: Using a log to keep track of computer system events, such\n as errors. Logging in Android is complex due to the mix of standards used that\n are combined in the Logcat tool.\n\n*postsubmit test*\n\n: An Android test that is performed when a new patch is committed to a\n common kernel branch. By entering `aosp_kernel` as a partial branch name, you\n can see a list of kernel branches with results available. For example, results\n for `android-mainline` can be found at\n \u003chttps://ci.android.com/builds/branches/aosp_kernel-common-android-mainline/grid\u003e.\n\n*presubmit test*\n\n: A test used to prevent failures from being introduced into the\n common kernels.\n\n*Trade Federation*\n\n: Also called Tradefed, a continuous test\n framework designed for running tests on Android devices. For example,\n Tradefed is used to run Compatibility Test Suite and Vendor Test Suite tests.\n\n*Vendor Test Suite (VTS)*\n\n: A set of extensive capabilities for\n Android testing, promoting a test-driven development process, and automating\n hardware abstraction layer (HAL) and OS kernel testing.\n\nPlatform test types\n-------------------\n\nA platform test typically interacts with one or more of the Android system\nservices or HAL layers, exercises the\nfunctionalities of the subject under test, and asserts correctness of the\ntesting outcome. A platform test might:\n\n- (Type 1) Exercise framework APIs using Android framework. Specific APIs being exercised can include:\n - Public APIs intended for third-party apps\n - Hidden APIs intended for privileged apps, namely system APIs or private APIs (`@hide`, or `protected`, `package private`)\n- (Type 2) Invoke Android system services using raw binder or IPC proxies directly.\n- (Type 3) Interact directly with HALs using low-level APIs or IPC interfaces.\n\nType 1 and 2 tests are typically instrumentation tests, while type 3 tests are\nusually GTests.\n\nWhat's next?\n------------\n\nHere is a list of documents that you can read for more detailed information:\n\n- If you haven't studied Android architecture, see\n [Architecture overview](/docs/core/architecture).\n\n- If you're creating an Android-compatible device, see\n the [Android compatibility program overview](/docs/compatibility/overview).\n\n- To integrate instrumentation, functional, metric, and JAR host tests\n into a platform continuous testing service, see\n [Test development workflow](/docs/core/tests/development).\n\n- To detect and harden your devices against vulnerabilities,\n see [Security testing](/docs/security/test/fuzz-sanitize).\n\n- To learn about testing your HAL and kernel implementations, see\n [Vendor Test Suite (VTS) and infrastructure](/docs/core/tests/vts).\n\n- For app testing, read\n [Fundamentals of testing Android\n apps](https://developer.android.com/training/testing/fundamentals)\n and conduct the [Advanced Android in Kotlin 05.1:Testing\n Basics](https://codelabs.developers.google.com/codelabs/advanced-android-kotlin-training-testing-basics/index.html)\n using the\n [samples](https://github.com/android/testing-samples) provided.\n\n- Learn about the basic presubmit testing available to you through repo hooks.\n These hooks can be used to run linters, check formatting, and trigger unit\n tests before proceeding, such as uploading a commit. These hooks are disabled\n by default. For further information, see [AOSP Preupload\n Hooks](https://android.googlesource.com/platform/tools/repohooks/+/refs/heads/android16-release/README.md).\n\n- To read more about logging, see [Understand logging](/docs/core/tests/debug/understanding-logging).\n\n- To understand how to debug Android code, see\n [Debug native Android platform code](/docs/core/tests/debug)."]]
