tree: 63fd766c874b654e25749b9a43d9150c2b7ede3f [path history] [tgz]
  1. BUILD.gn
  2. OWNERS
  3. README.md
  4. build/
  5. examples/
  6. tests/
  7. util/
sdk/cts/README.md

Compatibility Test Suite

This directory contains the Fuchsia Compatibility Test Suite (CTS). The Fuchsia CTS is a set of tests designed to be built and run outside of fuchsia.git, targeting externally-available API and ABI elements (e.g., headers, FIDL files).

Writing tests

This section provides guidelines on how to author CTS tests.

Directory structure

The structure of the //sdk/cts directory mirrors the structure of SDK artifacts. Tests should go in the same directory as the interface under test is found in an SDK. For example:

  • Tests for host tools should go in //sdk/cts/tools
  • Tests for FIDL interfaces should go in the appropriate subdirectory of //sdk/cts/fidl. For example, tests for fuchsia.sysmem should go in //sdk/cts/fidl/fuchsia.sysmem.
  • Tests for libraries should go in the appropriate subdirectory of //sdk/cts/pkg. For example, tests for async-loop should go in //sdk/cts/pkg/async-loop.

Build support

CTS tests target API and ABI available through externally-available SDKs. Build support ensures that tests only depend on API elements that are available via an SDK, or whitelisted for use within the CTS. All build targets must use the cts_ rule variants found in //sdk/cts/build instead of the standard fuchsia.git rules (i.e., use cts_fuchsia_component, cts_executable, and so on).

The allowlist for non-SDK code can be found in //sdk/cts/build/allowed_cts_deps.gni. Test authors who believe they need an additional inclusion should reach out to the OWNERS of this directory.

Writing tests

For example tests, see //sdk/cts/examples.

Language

Target-side tests

Tests for particular headers must be written in a language that supports that header. C headers currently target C11 and C++11 and above. C++ headers currently target C++14 and above. This policy may change as we build a larger test corpus and decide how to enforce C++14 compatibility.

All tests that target API must be written in a language that is supported for end developers per the Fuchsia language policy. The CTS currently only provides direct support for C++ for tests that target API.

In the future, we plan on supporting ABI-only tests that can be written in different languages (e.g., Rust) and delivered as prebuilts into the CTS.

Host-side tests

For end-to-end tests and scripts that run on the host, we support the use of Dart (and, specifically sl4f).

Dependencies

See the section on build support for information on including new dependencies on first-party code.

In order to avoid relying on third party use of the SDK to test the SDK, CTS tests that run on-device do not rely on third party frameworks that rely on the SDK to build. This is why we use zxtest instead of gtest. If you want to include a third party dependency, contact the OWNERS of //sdk/cts/.

Code that runs on the host does not have this restriction.

Testing Dos and Don'ts

Tests should contain a check for every documented assertion about a particular API or ABI. For example, if we have a class fit::basic_string_view, and it has a method size that is documented to return the size of the string_view, we would have a test that creates a string_view, calls the size method, and asserts that the return value is correct.

Tests should reflect best practices about the usage of a given API. Informally, if an end developer were to see the test, and copy its usage of the API, the test author would believe that developer would be using the API correctly. Tests should, to the extent possible, not depend on undocumented, application-specific invariants. In the future, in the case of widespread use of undocumented usages outside of the Fuchsia tree, we may need to support use cases that do not follow recommended usages.

Wherever possible, tests should avoid creating test doubles (e.g., mocks and fakes) for the internal state of the target device. The intent of the CTS is to make sure the entire device behaves correctly, not to make sure that a particular component behaves correctly in isolation.

Tests must take care to leave the system in its original state. For example, a test might make a system-wide change to set the foreground and background color of text to the same color. The colors should be reset at the end of the test. In the future, we plan to create enforcement mechanisms that allow tests to declare that they permanently change the state of the device, so that the framework can do the reset itself. Until such enforcement mechanisms are in place, tests should reset the system to their initial state.

Questions

For questions and clarification on this document, please reach out to the directory's owners.