# Native API Map Files Native APIs such as those exposed by the NDK, LL-NDK, or APEX are described by map.txt files. These files are [linker version scripts] with comments that are semantically meaningful to [gen_stub_libs.py]. For an example of a map file, see [libc.map.txt]. [gen_stub_libs.py]: https://cs.android.com/android/platform/superproject/+/master:build/soong/cc/gen_stub_libs.py [libc.map.txt]: https://cs.android.com/android/platform/superproject/+/master:bionic/libc/libc.map.txt [linker version scripts]: https://www.gnu.org/software/gnulib/manual/html_node/LD-Version-Scripts.html ## Basic format A linker version script defines at least one alphanumeric "version" definition, each of which contain a list of symbols. For example: ```txt MY_API_R { # introduced=R global: api_foo; api_bar; local: *; }; MY_API_S { # introduced=S global: api_baz; } MY_API_R; ``` Comments on the same line as either a version definition or a symbol name have meaning. If you need to add any comments that should not be interpreted by the stub generator, keep them on their own line. For a list of supported comments, see the "Tags" section. Here, `api_foo` and `api_bar` are exposed in the generated stubs with the `MY_API_R` version and `api_baz` is exposed with the `MY_API_S` version. No other symbols are defined as public by this API. `MY_API_S` inherits all symbols defined by `MY_API_R`. When generating NDK API stubs from this version script, the stub library for R will define `api_foo` and `api_bar`. The stub library for S will define all three APIs. Note that, with few exceptions (see "Special version names" below), the name of the version has no inherent meaning. These map files can (and should) also be used as version scripts for building the implementation library rather than just defining the stub interface by using the `version_script` property of `cc_library`. This has the effect of limiting symbol visibility of the library to expose only the interface named by the map file. Without this, APIs that you have not explicitly exposed will still be available to users via `dlsym`. Note: All comments are ignored in this case. Any symbol named in any `global:` group will be visible in the implementation library. Annotations in comments only affect what is exposed by the stubs. ## Special version names Version names that end with `_PRIVATE` or `_PLATFORM` will not be exposed in any stubs, but will be exposed in the implementation library. Using either of these naming schemes is equivalent to marking the version with the `platform-only` tag. See the docs for `platform-only` for more information. ## Tags Comments on the same line as a version definition or a symbol name are interpreted by the stub generator. Multiple space-delimited tags may be used on the same line. The supported tags are: ### apex Indicates that the version or symbol is to be exposed in the APEX stubs rather than the NDK. May be used in combination with `llndk` if the symbol is exposed to both APEX and the LL-NDK. ### future Indicates that the version or symbol is first introduced in the "future" API level. This is an arbitrarily high API level used to define APIs that have not yet been added to a specific release. Warning: APIs marked `future` will be usable in any module with `sdk: "current"` but **will not be included in the NDK**. `future` should generally not be used, but is useful when developing APIs for an unknown future release. ### introduced Indicates the version in which an API was first introduced. For example, `introduced=21` specifies that the API was first added (or first made public) in API level 21. This tag can be applied to either a version definition or an individual symbol. If applied to a version, all symbols contained in the version will have the tag applied. An `introduced` tag on a symbol overrides the value set for the version, if both are defined. Note: The map file alone does not contain all the information needed to determine which API level an API was added in. The `first_version` property of `ndk_library` will dictate which API levels stubs are generated for. If the module sets `first_version: "21"`, no symbols were introduced before API 21. **Symbol names for which no other rule applies will implicitly be introduced in `first_version`.** Code names can (and typically should) be used when defining new APIs. This allows the actual number of the API level to remain vague during development of that release. For example, `introduced=S` can be used to define APIs added in S. Any code name known to the build system can be used. For a list of versions known to the build system, see `out/soong/api_levels.json` (if not present, run `m out/soong/api_levels.json` to generate it). Architecture-specific variants of this tag exist: * `introduced-arm=VERSION` * `introduced-arm64=VERSION` * `introduced-x86=VERSION` * `introduced-x86_64=VERSION` The architecture-specific tag will take precedence over the architecture-generic tag when generating stubs for that architecture if both are present. If the symbol is defined with only architecture-specific tags, it will not be present for architectures that are not named. Note: The architecture-specific tags should, in general, not be used. These are primarily needed for APIs that were wrongly inconsistently exposed by libc/libm in old versions of Android before the stubs were well maintained. Think hard before using an architecture-specific tag for a new API. ### llndk Indicates that the version or symbol is to be exposed in the LL-NDK stubs rather than the NDK. May be used in combination with `apex` if the symbol is exposed to both APEX and the LL-NDK. Historically this annotation was spelled `vndk`, but it has always meant LL-NDK. ### platform-only Indicates that the version or symbol is public in the implementation library but should not be exposed in the stub library. Developers can still access them via `dlsym`, but they will not be exposed in the stubs so it should at least be clear to the developer that they are up to no good. The typical use for this tag is for exposing an API to the platform that is not for use by the NDK, LL-NDK, or APEX (similar to Java's `@SystemAPI`). It is preferable to keep such APIs in an entirely separate library to protect them from access via `dlsym`, but this is not always possible. ### var Used to define a public global variable. By default all symbols are exposed as functions. In the uncommon situation of exposing a global variable, the `var` tag may be used. ### versioned=VERSION Behaves similarly to `introduced` but defines the first version that the stub library should apply symbol versioning. For example: ```txt R { # introduced=R global: foo; bar; # versioned=S local: *; }; ``` The stub library for R will contain symbols for both `foo` and `bar`, but only `foo` will include a versioned symbol `foo@R`. The stub library for S will contain both symbols, as well as the versioned symbols `foo@R` and `bar@R`. This tag is not commonly needed and is only used to hide symbol versioning mistakes that shipped as part of the platform. Note: Like `introduced`, the map file does not tell the whole story. The `ndk_library` Soong module may define a `unversioned_until` property that sets the default for the entire map file. ### weak Indicates that the symbol should be [weak] in the stub library. [weak]: https://gcc.gnu.org/onlinedocs/gcc-4.7.2/gcc/Function-Attributes.html