tree: a249c3eac456747c7864d1df3baf692c1bf4094d [path history] [tgz]
  1. meta/
  2. tests/
  3. tools/
  4. BUILD.gn
  5. compute_atom_api.py
  6. config.gni
  7. create_atom_manifest.py
  8. create_molecule_manifest.py
  9. export_sdk.py
  10. generate_archive_manifest.py
  11. generate_meta.py
  12. host_tool_sdk_element.gni
  13. manifest_schema.json
  14. merged_sdk.gni
  15. OWNERS
  16. physical_device.gni
  17. product_metadata.gni
  18. README.md
  19. README_MODULAR.md
  20. sdk.gni
  21. sdk_alias.gni
  22. sdk_atom.gni
  23. sdk_atom_alias.gni
  24. sdk_common.py
  25. sdk_common_unittest.py
  26. sdk_component_manifests.gni
  27. sdk_data.gni
  28. sdk_documentation.gni
  29. sdk_element.gni
  30. sdk_element_adapter.py
  31. sdk_element_adapter_test.py
  32. sdk_host_tool.gni
  33. sdk_molecule.gni
  34. sdk_noop_atom.gni
  35. sdk_package.gni
  36. sdk_prebuilt_executable.gni
  37. verify_sdk_api.py
  38. version_history_sdk_element.gni
  39. virtual_device.gni
build/sdk/README.md

SDK build tools

This directory contains templates and scripts used to build and consume SDKs in the Fuchsia GN build.

Overview

The build output of “an SDK build” is a tarball containing files collected from the source tree and the output directory, augmented with metadata files.

Metadata includes the nature of an element (e.g. programming language(s), runtime type), its relationship with other elements (e.g. dependencies, supporting tools), the context in which the element was constructed (e.g. target architecture, high-level compilation options), etc... Schemas for the various types of SDK elements are available under meta/.

Implementation

Individual elements are declared using the sdk_atom template. It should be rare for a developer to directly use that template though: in most instances its use should be wrapped by another higher-level template, such as language-based templates.

Groups of atoms are declared with the sdk_molecule template. A molecule can also depend on other molecules. Molecules are a great way to provide hierarchy to SDK atoms.

Declaring SDK elements

There are a few GN templates developers should use to enable the inclusion of their code in an SDK:

Some language-specific targets are also SDK-ready:

In order to add documentation to an SDK, use the sdk_documentation template.

Component manifest shards being added to the SDK should use the sdk_component_manifest template.

Other static data (e.g. configuration or LICENSE files) being added to the SDK should use the sdk_data template.

A target //foo/bar declared with one of these templates will yield an additional target //foo/bar:bar_sdk which is an atom ready to be included in an SDK.

Additionally, the sdk template should be used to declare an SDK.

Visibility

The sdk_atom template declares a category parameter which allows developers to control who may be able to use their atom. See the parameter's documentation for more information on this.

Creating a custom SDK

Once elements have been set up for inclusion in an SDK, declaring such an SDK only takes a few steps:

  1. Identify the atoms needed in the SDK;
  2. Create a new SDK //some/place:my_sdk with the sdk template, regrouping the atoms and molecules that should be included;
  3. Add a new package file for the molecule:
{
  "labels": [
    "//some/place:my_sdk"
  ]
}

The package file can now be used in a standard Fuchsia build and will produce the archive at //out/<build-type>/sdk/archive/my_sdk.tar.gz.

Note that in order for the archive to be generated, an extra GN argument has to be passed to GN:

build_sdk_archives=true

Using a custom SDK in the build

By setting the export property to true on an SDK target, that SDK's contents become available in the build output directory and may be used for other GN targets to depend on. This is useful for example when building third-party code which would otherwise rely on an official SDK.

For an SDK declared at //some/place:my_sdk and marked as “exported”, an additional GN target exists: //some/place:my_sdk_export. This target will generate a usable SDK under //out/<build-type>/sdk/exported/my_sdk.

GN build arguments

build_sdk_archives

By default, the build system will not produce SDK tarballs as it is a somewhat time-consuming build step. Set this argument to true in order to have tarballs created under $OUTPUT_DIR/sdk/archive.

warn_on_sdk_changes

For each element in the SDK, a reference file representing its API is checked into the source tree. If the API is modified but the reference file is not updated, the build will fail. Set this argument to true in order to turn the errors into mere warnings.