# Copyright 2021 The Chromium Authors # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. import("//build/rust/rust_target.gni") # Defines a Rust static library which can be used by downstream Rust or C++ # targets. This is a single Rust compilation unit consisting of potentially # multiple .rs files. # # We term this 'rust_static_library' because it is used most analogously # to a C++ 'static_library' in Chromium. Like the C++ one, it can be compiled # independently into an intermediate linking target. The output contains the # object file(s) of the GN target's sources, and not its dependencies. # # Parameters # # sources # List of source files which this crate is allowed to compile, which is # used to determine the impact of source code changes on other GN targets. # This is not used by the Rust compiler, as it discovers source files by # following `mod` declarations starting at the `crate_root`. The # discovered source files must match this list. (This is not yet enforced, # but will be.) # # epoch (optional) # The major version of the library, which is used to differentiate between # multiple versions of the same library name. This includes all leading 0s # and the first non-zero value in the crate's version. This should be left # as the default, which is "0", for first-party code unless there are # multiple versions of a crate present. For third-party code, the version # epoch (matching the directory it is found in) should be specified. # # Examples: # 1.0.2 => epoch = "1" # 4.2.0 => epoch = "4" # 0.2.7 => epoch = "0.2" # 0.0.3 => epoch = "0.0.3" # # edition (optional) # Edition of the Rust language to be used. # Options are "2015", "2018" and "2021". Defaults to "2021". # # configs (optional) # A list of config labels (in the GN meaning) applying to this target. # # rustflags (optional) # Explicit flags for rustc command line. (Use 'edition' or 'features' # where possible). # # deps (optional) # List of GN targets on which this crate depends. These may be Rust # or non-Rust targets. # # public_deps (optional) # List of GN targets on which this crate depends, and which are exported # into the dependency list of any crate that depends on it. Dependency # crates that appear in the public API should be included here. # # test_deps (optional) # List of GN targets on which this crate's tests depend, in addition # to deps. # # mutually_dependent_target (optional) # mutually_dependent_public_deps (optional) # These is for use by the mixed_target() template. # # If this Rust code is intrinsically paired with some C/C++ code, # with bidirectional calls between the two, then this would # be a circular dependency. GN does not allow circular dependencies, # (other than for header files per allow_circular_includes_from). # But this is common for a 'component' which has both Rust and C++ # code. You should structure things such that the C++ code depends # on the Rust code in the normal way: # static_library("cpp_stuff") { # deps = [ "rust_stuff" ] # # .. # } # but that the Rust target also notes the C++ target using this # 'mutually_dependent_target' parameter. # rust_static_library("rust_stuff") { # mutually_dependent_target = "cpp_stuff" # mutually_dependent_public_deps = _cpp_stuff_public_deps # # .. # } # # This causes the Rust unit tests, if generated, to depend on the mutually # dependent target, since depending on the Rust code only would be # insufficient. And it allows any C++ bindings generated from the Rust code # to include headers from the mutually_dependent_target by depending on its # public_deps. # # build_native_rust_unit_tests (optional) # Builds native unit tests (under #[cfg(test)]) written inside the Rust # crate. This will create a `_unittests` executable in the output # directory when set to true. # # unit_test_target (optional) # Overrides the default name for the unit tests target # # crate_root (optional) # Location of the crate root. # This defaults to `./src/lib.rs` and should only be changed when # absolutely necessary (such as in the case of generated code). # # features (optional) # A list of conditional compilation flags to enable. This can be used # to set features for crates built in-tree which are also published to # crates.io. Each feature in the list will be passed to rustc as # '--cfg feature=XXX' # # cxx_bindings (optional) # A list of Rust files which contain #[cxx::bridge] mods or # autocxx::include_cpp! macros and should therefore have C++ bindings # generated. See https://cxx.rs or https://google.github.io/autocxx/. # This will automatically add appropriate dependencies: there's no # need to depend on the cxx crate or any generated bindings. # # visibility (optional) # rustflags (optional) # crate_name (optional) # Per the usual gn meaning for Rust targets. # # inputs (optional) # Additional input files needed for compilation (such as `include!`ed files) # # test_inputs (optional) # Same as above but for the unit tests target # # Example of usage: # # rust_static_library("foo_bar") { # deps = [ # "//boo/public/rust/bar", # "//third_party/rust/crates:argh", # "//third_party/rust/crates:serde", # "//third_party/rust/crates:slab", # ] # sources = [ "src/lib.rs" ] # } # # This template is intended to serve the same purpose as 'rustc_library' # in Fuchsia. template("rust_static_library") { exclude_forwards = TESTONLY_AND_VISIBILITY + [ "configs" ] rust_target(target_name) { forward_variables_from(invoker, "*", exclude_forwards) forward_variables_from(invoker, TESTONLY_AND_VISIBILITY) if (defined(invoker.configs)) { library_configs = [] library_configs = invoker.configs } target_type = "rust_library" } } set_defaults("rust_static_library") { configs = default_compiler_configs }