| # Copyright 2015 The Bazel Authors. All rights reserved. |
| # |
| # Licensed under the Apache License, Version 2.0 (the "License"); |
| # you may not use this file except in compliance with the License. |
| # You may obtain a copy of the License at |
| # |
| # http://www.apache.org/licenses/LICENSE-2.0 |
| # |
| # Unless required by applicable law or agreed to in writing, software |
| # distributed under the License is distributed on an "AS IS" BASIS, |
| # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| # See the License for the specific language governing permissions and |
| # limitations under the License. |
| |
| """Rust rule implementations""" |
| |
| load("@bazel_skylib//lib:paths.bzl", "paths") |
| load("//rust/private:common.bzl", "COMMON_PROVIDERS", "rust_common") |
| load("//rust/private:providers.bzl", "BuildInfo") |
| load("//rust/private:rustc.bzl", "rustc_compile_action") |
| load( |
| "//rust/private:utils.bzl", |
| "can_build_metadata", |
| "compute_crate_name", |
| "crate_root_src", |
| "dedent", |
| "determine_lib_name", |
| "determine_output_hash", |
| "expand_dict_value_locations", |
| "find_toolchain", |
| "generate_output_diagnostics", |
| "get_edition", |
| "get_import_macro_deps", |
| "transform_deps", |
| "transform_sources", |
| ) |
| |
| # TODO(marco): Separate each rule into its own file. |
| |
| def _assert_no_deprecated_attributes(_ctx): |
| """Forces a failure if any deprecated attributes were specified |
| |
| Args: |
| _ctx (ctx): The current rule's context object |
| """ |
| pass |
| |
| def _assert_correct_dep_mapping(ctx): |
| """Forces a failure if proc_macro_deps and deps are mixed inappropriately |
| |
| Args: |
| ctx (ctx): The current rule's context object |
| """ |
| for dep in ctx.attr.deps: |
| if rust_common.crate_info in dep: |
| if dep[rust_common.crate_info].type == "proc-macro": |
| fail( |
| "{} listed {} in its deps, but it is a proc-macro. It should instead be in the bazel property proc_macro_deps.".format( |
| ctx.label, |
| dep.label, |
| ), |
| ) |
| for dep in ctx.attr.proc_macro_deps: |
| type = dep[rust_common.crate_info].type |
| if type != "proc-macro": |
| fail( |
| "{} listed {} in its proc_macro_deps, but it is not proc-macro, it is a {}. It should probably instead be listed in deps.".format( |
| ctx.label, |
| dep.label, |
| type, |
| ), |
| ) |
| |
| def _rust_library_impl(ctx): |
| """The implementation of the `rust_library` rule. |
| |
| This rule provides CcInfo, so it can be used everywhere Bazel |
| expects rules_cc, but care must be taken to have the correct |
| dependencies on an allocator and std implemetation as needed. |
| |
| Args: |
| ctx (ctx): The rule's context object |
| |
| Returns: |
| list: A list of providers. |
| """ |
| return _rust_library_common(ctx, "rlib") |
| |
| def _rust_static_library_impl(ctx): |
| """The implementation of the `rust_static_library` rule. |
| |
| This rule provides CcInfo, so it can be used everywhere Bazel |
| expects rules_cc. |
| |
| Args: |
| ctx (ctx): The rule's context object |
| |
| Returns: |
| list: A list of providers. |
| """ |
| return _rust_library_common(ctx, "staticlib") |
| |
| def _rust_shared_library_impl(ctx): |
| """The implementation of the `rust_shared_library` rule. |
| |
| This rule provides CcInfo, so it can be used everywhere Bazel |
| expects rules_cc. |
| |
| On Windows, a PDB file containing debugging information is available under |
| the key `pdb_file` in `OutputGroupInfo`. Similarly on macOS, a dSYM folder |
| is available under the key `dsym_folder` in `OutputGroupInfo`. |
| |
| Args: |
| ctx (ctx): The rule's context object |
| |
| Returns: |
| list: A list of providers. |
| """ |
| return _rust_library_common(ctx, "cdylib") |
| |
| def _rust_proc_macro_impl(ctx): |
| """The implementation of the `rust_proc_macro` rule. |
| |
| Args: |
| ctx (ctx): The rule's context object |
| |
| Returns: |
| list: A list of providers. |
| """ |
| return _rust_library_common(ctx, "proc-macro") |
| |
| def _rust_library_common(ctx, crate_type): |
| """The common implementation of the library-like rules. |
| |
| Args: |
| ctx (ctx): The rule's context object |
| crate_type (String): one of lib|rlib|dylib|staticlib|cdylib|proc-macro |
| |
| Returns: |
| list: A list of providers. See `rustc_compile_action` |
| """ |
| _assert_no_deprecated_attributes(ctx) |
| _assert_correct_dep_mapping(ctx) |
| |
| toolchain = find_toolchain(ctx) |
| |
| crate_name = compute_crate_name(ctx.workspace_name, ctx.label, toolchain, ctx.attr.crate_name) |
| |
| crate_root = getattr(ctx.file, "crate_root", None) |
| if not crate_root: |
| crate_root = crate_root_src(ctx.attr.name, ctx.files.srcs, crate_type) |
| srcs, crate_root = transform_sources(ctx, ctx.files.srcs, crate_root) |
| |
| # Determine unique hash for this rlib. |
| # Note that we don't include a hash for `cdylib` and `staticlib` since they are meant to be consumed externally |
| # and having a deterministic name is important since it ends up embedded in the executable. This is problematic |
| # when one needs to include the library with a specific filename into a larger application. |
| # (see https://github.com/bazelbuild/rules_rust/issues/405#issuecomment-993089889 for more details) |
| if crate_type in ["cdylib", "staticlib"]: |
| output_hash = None |
| else: |
| output_hash = determine_output_hash(crate_root, ctx.label) |
| |
| rust_lib_name = determine_lib_name( |
| crate_name, |
| crate_type, |
| toolchain, |
| output_hash, |
| ) |
| rust_lib = ctx.actions.declare_file(rust_lib_name) |
| rust_metadata = None |
| rustc_rmeta_output = None |
| if can_build_metadata(toolchain, ctx, crate_type) and not ctx.attr.disable_pipelining: |
| rust_metadata = ctx.actions.declare_file( |
| paths.replace_extension(rust_lib_name, ".rmeta"), |
| sibling = rust_lib, |
| ) |
| rustc_rmeta_output = generate_output_diagnostics(ctx, rust_metadata) |
| |
| deps = transform_deps(ctx.attr.deps) |
| proc_macro_deps = transform_deps(ctx.attr.proc_macro_deps + get_import_macro_deps(ctx)) |
| |
| return rustc_compile_action( |
| ctx = ctx, |
| attr = ctx.attr, |
| toolchain = toolchain, |
| output_hash = output_hash, |
| crate_info_dict = dict( |
| name = crate_name, |
| type = crate_type, |
| root = crate_root, |
| srcs = depset(srcs), |
| deps = depset(deps), |
| proc_macro_deps = depset(proc_macro_deps), |
| aliases = ctx.attr.aliases, |
| output = rust_lib, |
| rustc_output = generate_output_diagnostics(ctx, rust_lib), |
| metadata = rust_metadata, |
| rustc_rmeta_output = rustc_rmeta_output, |
| edition = get_edition(ctx.attr, toolchain, ctx.label), |
| rustc_env = ctx.attr.rustc_env, |
| rustc_env_files = ctx.files.rustc_env_files, |
| is_test = False, |
| data = depset(ctx.files.data), |
| compile_data = depset(ctx.files.compile_data), |
| compile_data_targets = depset(ctx.attr.compile_data), |
| owner = ctx.label, |
| ), |
| ) |
| |
| def _rust_binary_impl(ctx): |
| """The implementation of the `rust_binary` rule |
| |
| Args: |
| ctx (ctx): The rule's context object |
| |
| Returns: |
| list: A list of providers. See `rustc_compile_action` |
| """ |
| toolchain = find_toolchain(ctx) |
| crate_name = compute_crate_name(ctx.workspace_name, ctx.label, toolchain, ctx.attr.crate_name) |
| _assert_correct_dep_mapping(ctx) |
| |
| output = ctx.actions.declare_file(ctx.label.name + toolchain.binary_ext) |
| |
| deps = transform_deps(ctx.attr.deps) |
| proc_macro_deps = transform_deps(ctx.attr.proc_macro_deps + get_import_macro_deps(ctx)) |
| |
| crate_root = getattr(ctx.file, "crate_root", None) |
| if not crate_root: |
| crate_root = crate_root_src(ctx.attr.name, ctx.files.srcs, ctx.attr.crate_type) |
| srcs, crate_root = transform_sources(ctx, ctx.files.srcs, crate_root) |
| |
| providers = rustc_compile_action( |
| ctx = ctx, |
| attr = ctx.attr, |
| toolchain = toolchain, |
| crate_info_dict = dict( |
| name = crate_name, |
| type = ctx.attr.crate_type, |
| root = crate_root, |
| srcs = depset(srcs), |
| deps = depset(deps), |
| proc_macro_deps = depset(proc_macro_deps), |
| aliases = ctx.attr.aliases, |
| output = output, |
| rustc_output = generate_output_diagnostics(ctx, output), |
| edition = get_edition(ctx.attr, toolchain, ctx.label), |
| rustc_env = ctx.attr.rustc_env, |
| rustc_env_files = ctx.files.rustc_env_files, |
| is_test = False, |
| data = depset(ctx.files.data), |
| compile_data = depset(ctx.files.compile_data), |
| compile_data_targets = depset(ctx.attr.compile_data), |
| owner = ctx.label, |
| ), |
| ) |
| |
| providers.append(RunEnvironmentInfo( |
| environment = expand_dict_value_locations( |
| ctx, |
| ctx.attr.env, |
| ctx.attr.data, |
| ), |
| )) |
| |
| return providers |
| |
| def get_rust_test_flags(attr): |
| """Determine the desired rustc flags for test targets. |
| |
| Args: |
| attr (dict): Attributes of a rule |
| |
| Returns: |
| List: A list of test flags |
| """ |
| if getattr(attr, "use_libtest_harness", True): |
| rust_flags = ["--test"] |
| else: |
| rust_flags = ["--cfg", "test"] |
| |
| return rust_flags |
| |
| def _rust_test_impl(ctx): |
| """The implementation of the `rust_test` rule. |
| |
| Args: |
| ctx (ctx): The ctx object for the current target. |
| |
| Returns: |
| list: The list of providers. See `rustc_compile_action` |
| """ |
| _assert_no_deprecated_attributes(ctx) |
| _assert_correct_dep_mapping(ctx) |
| |
| toolchain = find_toolchain(ctx) |
| |
| crate_name = compute_crate_name(ctx.workspace_name, ctx.label, toolchain, ctx.attr.crate_name) |
| crate_type = "bin" |
| deps = transform_deps(ctx.attr.deps) |
| proc_macro_deps = transform_deps(ctx.attr.proc_macro_deps + get_import_macro_deps(ctx)) |
| |
| if ctx.attr.crate and ctx.attr.srcs: |
| fail("rust_test.crate and rust_test.srcs are mutually exclusive. Update {} to use only one of these attributes".format( |
| ctx.label, |
| )) |
| |
| if ctx.attr.crate: |
| # Target is building the crate in `test` config |
| crate = ctx.attr.crate[rust_common.crate_info] if rust_common.crate_info in ctx.attr.crate else ctx.attr.crate[rust_common.test_crate_info].crate |
| |
| output = ctx.actions.declare_file( |
| ctx.label.name + toolchain.binary_ext, |
| ) |
| |
| srcs, crate_root = transform_sources(ctx, ctx.files.srcs, getattr(ctx.file, "crate_root", None)) |
| |
| # Optionally join compile data |
| if crate.compile_data: |
| compile_data = depset(ctx.files.compile_data, transitive = [crate.compile_data]) |
| else: |
| compile_data = depset(ctx.files.compile_data) |
| if crate.compile_data_targets: |
| compile_data_targets = depset(ctx.attr.compile_data, transitive = [crate.compile_data_targets]) |
| else: |
| compile_data_targets = depset(ctx.attr.compile_data) |
| rustc_env_files = ctx.files.rustc_env_files + crate.rustc_env_files |
| |
| # crate.rustc_env is already expanded upstream in rust_library rule implementation |
| rustc_env = dict(crate.rustc_env) |
| data_paths = depset(direct = getattr(ctx.attr, "data", [])).to_list() |
| rustc_env.update(expand_dict_value_locations( |
| ctx, |
| ctx.attr.rustc_env, |
| data_paths, |
| )) |
| |
| # Build the test binary using the dependency's srcs. |
| crate_info_dict = dict( |
| name = crate_name, |
| type = crate_type, |
| root = crate.root, |
| srcs = depset(srcs, transitive = [crate.srcs]), |
| deps = depset(deps, transitive = [crate.deps]), |
| proc_macro_deps = depset(proc_macro_deps, transitive = [crate.proc_macro_deps]), |
| aliases = ctx.attr.aliases, |
| output = output, |
| rustc_output = generate_output_diagnostics(ctx, output), |
| edition = crate.edition, |
| rustc_env = rustc_env, |
| rustc_env_files = rustc_env_files, |
| is_test = True, |
| compile_data = compile_data, |
| compile_data_targets = compile_data_targets, |
| wrapped_crate_type = crate.type, |
| owner = ctx.label, |
| ) |
| else: |
| crate_root = getattr(ctx.file, "crate_root", None) |
| |
| if not crate_root: |
| crate_root_type = "lib" if ctx.attr.use_libtest_harness else "bin" |
| crate_root = crate_root_src(ctx.attr.name, ctx.files.srcs, crate_root_type) |
| srcs, crate_root = transform_sources(ctx, ctx.files.srcs, crate_root) |
| |
| output = ctx.actions.declare_file( |
| ctx.label.name + toolchain.binary_ext, |
| ) |
| |
| data_paths = depset(direct = getattr(ctx.attr, "data", [])).to_list() |
| rustc_env = expand_dict_value_locations( |
| ctx, |
| ctx.attr.rustc_env, |
| data_paths, |
| ) |
| |
| # Target is a standalone crate. Build the test binary as its own crate. |
| crate_info_dict = dict( |
| name = crate_name, |
| type = crate_type, |
| root = crate_root, |
| srcs = depset(srcs), |
| deps = depset(deps), |
| proc_macro_deps = depset(proc_macro_deps), |
| aliases = ctx.attr.aliases, |
| output = output, |
| rustc_output = generate_output_diagnostics(ctx, output), |
| edition = get_edition(ctx.attr, toolchain, ctx.label), |
| rustc_env = rustc_env, |
| rustc_env_files = ctx.files.rustc_env_files, |
| is_test = True, |
| compile_data = depset(ctx.files.compile_data), |
| compile_data_targets = depset(ctx.attr.compile_data), |
| owner = ctx.label, |
| ) |
| |
| providers = rustc_compile_action( |
| ctx = ctx, |
| attr = ctx.attr, |
| toolchain = toolchain, |
| crate_info_dict = crate_info_dict, |
| rust_flags = get_rust_test_flags(ctx.attr), |
| skip_expanding_rustc_env = True, |
| ) |
| data = getattr(ctx.attr, "data", []) |
| |
| env = expand_dict_value_locations( |
| ctx, |
| getattr(ctx.attr, "env", {}), |
| data, |
| ) |
| if toolchain.llvm_cov and ctx.configuration.coverage_enabled: |
| if not toolchain.llvm_profdata: |
| fail("toolchain.llvm_profdata is required if toolchain.llvm_cov is set.") |
| |
| if toolchain._experimental_use_coverage_metadata_files: |
| llvm_cov_path = toolchain.llvm_cov.path |
| llvm_profdata_path = toolchain.llvm_profdata.path |
| else: |
| llvm_cov_path = toolchain.llvm_cov.short_path |
| if llvm_cov_path.startswith("../"): |
| llvm_cov_path = llvm_cov_path[len("../"):] |
| |
| llvm_profdata_path = toolchain.llvm_profdata.short_path |
| if llvm_profdata_path.startswith("../"): |
| llvm_profdata_path = llvm_profdata_path[len("../"):] |
| |
| env["RUST_LLVM_COV"] = llvm_cov_path |
| env["RUST_LLVM_PROFDATA"] = llvm_profdata_path |
| components = "{}/{}".format(ctx.label.workspace_root, ctx.label.package).split("/") |
| env["CARGO_MANIFEST_DIR"] = "/".join([c for c in components if c]) |
| providers.append(testing.TestEnvironment(env)) |
| |
| return providers |
| |
| def _rust_library_group_impl(ctx): |
| dep_variant_infos = [] |
| dep_variant_transitive_infos = [] |
| runfiles = [] |
| |
| for dep in ctx.attr.deps: |
| if rust_common.crate_info in dep: |
| dep_variant_infos.append(rust_common.dep_variant_info( |
| crate_info = dep[rust_common.crate_info] if rust_common.crate_info in dep else None, |
| dep_info = dep[rust_common.dep_info] if rust_common.crate_info in dep else None, |
| build_info = dep[BuildInfo] if BuildInfo in dep else None, |
| cc_info = dep[CcInfo] if CcInfo in dep else None, |
| crate_group_info = None, |
| )) |
| elif rust_common.crate_group_info in dep: |
| dep_variant_transitive_infos.append(dep[rust_common.crate_group_info].dep_variant_infos) |
| else: |
| fail("crate_group_info targets can only depend on rust_library or rust_library_group targets.") |
| |
| if dep[DefaultInfo].default_runfiles != None: |
| runfiles.append(dep[DefaultInfo].default_runfiles) |
| |
| return [ |
| rust_common.crate_group_info( |
| dep_variant_infos = depset(dep_variant_infos, transitive = dep_variant_transitive_infos), |
| ), |
| DefaultInfo(runfiles = ctx.runfiles().merge_all(runfiles)), |
| coverage_common.instrumented_files_info( |
| ctx, |
| dependency_attributes = ["deps"], |
| ), |
| ] |
| |
| def _stamp_attribute(default_value): |
| return attr.int( |
| doc = dedent("""\ |
| Whether to encode build information into the `Rustc` action. Possible values: |
| |
| - `stamp = 1`: Always stamp the build information into the `Rustc` action, even in \ |
| [--nostamp](https://docs.bazel.build/versions/main/user-manual.html#flag--stamp) builds. \ |
| This setting should be avoided, since it potentially kills remote caching for the target and \ |
| any downstream actions that depend on it. |
| |
| - `stamp = 0`: Always replace build information by constant values. This gives good build result caching. |
| |
| - `stamp = -1`: Embedding of build information is controlled by the \ |
| [--[no]stamp](https://docs.bazel.build/versions/main/user-manual.html#flag--stamp) flag. |
| |
| Stamped targets are not rebuilt unless their dependencies change. |
| |
| For example if a `rust_library` is stamped, and a `rust_binary` depends on that library, the stamped |
| library won't be rebuilt when we change sources of the `rust_binary`. This is different from how |
| [`cc_library.linkstamps`](https://docs.bazel.build/versions/main/be/c-cpp.html#cc_library.linkstamp) |
| behaves. |
| """), |
| default = default_value, |
| values = [1, 0, -1], |
| ) |
| |
| # Internal attributes core to Rustc actions. |
| RUSTC_ATTRS = { |
| "_cc_toolchain": attr.label( |
| doc = ( |
| "In order to use find_cc_toolchain, your rule has to depend " + |
| "on C++ toolchain. See `@rules_cc//cc:find_cc_toolchain.bzl` " + |
| "docs for details." |
| ), |
| default = Label("@bazel_tools//tools/cpp:current_cc_toolchain"), |
| ), |
| "_error_format": attr.label( |
| default = Label("//:error_format"), |
| ), |
| "_extra_exec_rustc_flag": attr.label( |
| default = Label("//:extra_exec_rustc_flag"), |
| ), |
| "_extra_exec_rustc_flags": attr.label( |
| default = Label("//:extra_exec_rustc_flags"), |
| ), |
| "_extra_rustc_flag": attr.label( |
| default = Label("//:extra_rustc_flag"), |
| ), |
| "_extra_rustc_flags": attr.label( |
| default = Label("//:extra_rustc_flags"), |
| ), |
| "_is_proc_macro_dep": attr.label( |
| default = Label("//rust/private:is_proc_macro_dep"), |
| ), |
| "_is_proc_macro_dep_enabled": attr.label( |
| default = Label("//rust/private:is_proc_macro_dep_enabled"), |
| ), |
| "_per_crate_rustc_flag": attr.label( |
| default = Label("//:experimental_per_crate_rustc_flag"), |
| ), |
| "_process_wrapper": attr.label( |
| doc = "A process wrapper for running rustc on all platforms.", |
| default = Label("//util/process_wrapper"), |
| executable = True, |
| allow_single_file = True, |
| cfg = "exec", |
| ), |
| "_rustc_output_diagnostics": attr.label( |
| default = Label("//:rustc_output_diagnostics"), |
| ), |
| } |
| |
| _common_attrs = { |
| "aliases": attr.label_keyed_string_dict( |
| doc = dedent("""\ |
| Remap crates to a new name or moniker for linkage to this target |
| |
| These are other `rust_library` targets and will be presented as the new name given. |
| """), |
| ), |
| "alwayslink": attr.bool( |
| doc = dedent("""\ |
| If 1, any binary that depends (directly or indirectly) on this library |
| will link in all the object files even if some contain no symbols referenced by the binary. |
| |
| This attribute is used by the C++ Starlark API when passing CcInfo providers. |
| """), |
| default = False, |
| ), |
| "compile_data": attr.label_list( |
| doc = dedent("""\ |
| List of files used by this rule at compile time. |
| |
| This attribute can be used to specify any data files that are embedded into |
| the library, such as via the |
| [`include_str!`](https://doc.rust-lang.org/std/macro.include_str!.html) |
| macro. |
| """), |
| allow_files = True, |
| ), |
| "crate_features": attr.string_list( |
| doc = dedent("""\ |
| List of features to enable for this crate. |
| |
| Features are defined in the code using the `#[cfg(feature = "foo")]` |
| configuration option. The features listed here will be passed to `rustc` |
| with `--cfg feature="${feature_name}"` flags. |
| """), |
| ), |
| "crate_name": attr.string( |
| doc = dedent("""\ |
| Crate name to use for this target. |
| |
| This must be a valid Rust identifier, i.e. it may contain only alphanumeric characters and underscores. |
| Defaults to the target name, with any hyphens replaced by underscores. |
| """), |
| ), |
| "crate_root": attr.label( |
| doc = dedent("""\ |
| The file that will be passed to `rustc` to be used for building this crate. |
| |
| If `crate_root` is not set, then this rule will look for a `lib.rs` file (or `main.rs` for rust_binary) |
| or the single file in `srcs` if `srcs` contains only one file. |
| """), |
| allow_single_file = [".rs"], |
| ), |
| "data": attr.label_list( |
| doc = dedent("""\ |
| List of files used by this rule at compile time and runtime. |
| |
| If including data at compile time with include_str!() and similar, |
| prefer `compile_data` over `data`, to prevent the data also being included |
| in the runfiles. |
| """), |
| allow_files = True, |
| ), |
| "deps": attr.label_list( |
| doc = dedent("""\ |
| List of other libraries to be linked to this library target. |
| |
| These can be either other `rust_library` targets or `cc_library` targets if |
| linking a native library. |
| """), |
| ), |
| "edition": attr.string( |
| doc = "The rust edition to use for this crate. Defaults to the edition specified in the rust_toolchain.", |
| ), |
| # Previously `proc_macro_deps` were a part of `deps`, and then proc_macro_host_transition was |
| # used into cfg="host" using `@local_config_platform//:host`. |
| # This fails for remote execution, which needs cfg="exec", and there isn't anything like |
| # `@local_config_platform//:exec` exposed. |
| "proc_macro_deps": attr.label_list( |
| doc = dedent("""\ |
| List of `rust_proc_macro` targets used to help build this library target. |
| """), |
| cfg = "exec", |
| providers = [rust_common.crate_info], |
| ), |
| "rustc_env": attr.string_dict( |
| doc = dedent("""\ |
| Dictionary of additional `"key": "value"` environment variables to set for rustc. |
| |
| rust_test()/rust_binary() rules can use $(rootpath //package:target) to pass in the |
| location of a generated file or external tool. Cargo build scripts that wish to |
| expand locations should use cargo_build_script()'s build_script_env argument instead, |
| as build scripts are run in a different environment - see cargo_build_script()'s |
| documentation for more. |
| """), |
| ), |
| "rustc_env_files": attr.label_list( |
| doc = dedent("""\ |
| Files containing additional environment variables to set for rustc. |
| |
| These files should contain a single variable per line, of format |
| `NAME=value`, and newlines may be included in a value by ending a |
| line with a trailing back-slash (`\\\\`). |
| |
| The order that these files will be processed is unspecified, so |
| multiple definitions of a particular variable are discouraged. |
| |
| Note that the variables here are subject to |
| [workspace status](https://docs.bazel.build/versions/main/user-manual.html#workspace_status) |
| stamping should the `stamp` attribute be enabled. Stamp variables |
| should be wrapped in brackets in order to be resolved. E.g. |
| `NAME={WORKSPACE_STATUS_VARIABLE}`. |
| """), |
| allow_files = True, |
| ), |
| "rustc_flags": attr.string_list( |
| doc = dedent("""\ |
| List of compiler flags passed to `rustc`. |
| |
| These strings are subject to Make variable expansion for predefined |
| source/output path variables like `$location`, `$execpath`, and |
| `$rootpath`. This expansion is useful if you wish to pass a generated |
| file of arguments to rustc: `@$(location //package:target)`. |
| """), |
| ), |
| # TODO(stardoc): How do we provide additional documentation to an inherited attribute? |
| # "name": attr.string( |
| # doc = "This name will also be used as the name of the crate built by this rule.", |
| # `), |
| "srcs": attr.label_list( |
| doc = dedent("""\ |
| List of Rust `.rs` source files used to build the library. |
| |
| If `srcs` contains more than one file, then there must be a file either |
| named `lib.rs`. Otherwise, `crate_root` must be set to the source file that |
| is the root of the crate to be passed to rustc to build this crate. |
| """), |
| allow_files = [".rs"], |
| # Allow use of --compile_one_dependency with rust targets. Support for this feature for |
| # non-builtin rulesets is undocumented outside of the bazel source: |
| # https://github.com/bazelbuild/bazel/blob/7.1.1/src/main/java/com/google/devtools/build/lib/packages/Attribute.java#L102 |
| flags = ["DIRECT_COMPILE_TIME_INPUT"], |
| ), |
| "stamp": _stamp_attribute( |
| default_value = 0, |
| ), |
| "version": attr.string( |
| doc = "A version to inject in the cargo environment variable.", |
| default = "0.0.0", |
| ), |
| "_stamp_flag": attr.label( |
| doc = "A setting used to determine whether or not the `--stamp` flag is enabled", |
| default = Label("//rust/private:stamp"), |
| ), |
| } | RUSTC_ATTRS |
| |
| _coverage_attrs = { |
| "_collect_cc_coverage": attr.label( |
| default = Label("//util/collect_coverage"), |
| executable = True, |
| cfg = "exec", |
| ), |
| # Bazel’s coverage runner |
| # (https://github.com/bazelbuild/bazel/blob/6.0.0/tools/test/collect_coverage.sh) |
| # needs a binary called “lcov_merge.” Its location is passed in the |
| # LCOV_MERGER environmental variable. For builtin rules, this variable |
| # is set automatically based on a magic “$lcov_merger” or |
| # “:lcov_merger” attribute, but it’s not possible to create such |
| # attributes in Starlark. Therefore we specify the variable ourselves. |
| # Note that the coverage runner runs in the runfiles root instead of |
| # the execution root, therefore we use “path” instead of “short_path.” |
| "_lcov_merger": attr.label( |
| default = configuration_field(fragment = "coverage", name = "output_generator"), |
| executable = True, |
| cfg = "exec", |
| ), |
| } |
| |
| _experimental_use_cc_common_link_attrs = { |
| "experimental_use_cc_common_link": attr.int( |
| doc = ( |
| "Whether to use cc_common.link to link rust binaries. " + |
| "Possible values: [-1, 0, 1]. " + |
| "-1 means use the value of the toolchain.experimental_use_cc_common_link " + |
| "boolean build setting to determine. " + |
| "0 means do not use cc_common.link (use rustc instead). " + |
| "1 means use cc_common.link." |
| ), |
| values = [-1, 0, 1], |
| default = -1, |
| ), |
| "malloc": attr.label( |
| default = Label("@bazel_tools//tools/cpp:malloc"), |
| doc = """Override the default dependency on `malloc`. |
| |
| By default, Rust binaries linked with cc_common.link are linked against |
| `@bazel_tools//tools/cpp:malloc"`, which is an empty library and the resulting binary will use |
| libc's `malloc`. This label must refer to a `cc_library` rule. |
| """, |
| mandatory = False, |
| providers = [[CcInfo]], |
| ), # A late-bound attribute denoting the value of the `--custom_malloc` |
| # command line flag (or None if the flag is not provided). |
| "_custom_malloc": attr.label( |
| default = configuration_field( |
| fragment = "cpp", |
| name = "custom_malloc", |
| ), |
| providers = [[CcInfo]], |
| ), |
| } |
| |
| _rust_test_attrs = dict({ |
| "crate": attr.label( |
| mandatory = False, |
| doc = dedent("""\ |
| Target inline tests declared in the given crate |
| |
| These tests are typically those that would be held out under |
| `#[cfg(test)]` declarations. |
| """), |
| ), |
| "env": attr.string_dict( |
| mandatory = False, |
| doc = dedent("""\ |
| Specifies additional environment variables to set when the test is executed by bazel test. |
| Values are subject to `$(rootpath)`, `$(execpath)`, location, and |
| ["Make variable"](https://docs.bazel.build/versions/master/be/make-variables.html) substitution. |
| """), |
| ), |
| "use_libtest_harness": attr.bool( |
| mandatory = False, |
| default = True, |
| doc = dedent("""\ |
| Whether to use `libtest`. For targets using this flag, individual tests can be run by using the |
| [--test_arg](https://docs.bazel.build/versions/4.0.0/command-line-reference.html#flag--test_arg) flag. |
| E.g. `bazel test //src:rust_test --test_arg=foo::test::test_fn`. |
| """), |
| ), |
| "_use_grep_includes": attr.bool(default = True), |
| }.items() + _coverage_attrs.items() + _experimental_use_cc_common_link_attrs.items()) |
| |
| rust_library = rule( |
| implementation = _rust_library_impl, |
| provides = COMMON_PROVIDERS, |
| attrs = dict(_common_attrs.items() + { |
| "disable_pipelining": attr.bool( |
| default = False, |
| doc = dedent("""\ |
| Disables pipelining for this rule if it is globally enabled. |
| This will cause this rule to not produce a `.rmeta` file and all the dependent |
| crates will instead use the `.rlib` file. |
| """), |
| ), |
| }.items()), |
| fragments = ["cpp"], |
| toolchains = [ |
| str(Label("//rust:toolchain_type")), |
| "@bazel_tools//tools/cpp:toolchain_type", |
| ], |
| doc = dedent("""\ |
| Builds a Rust library crate. |
| |
| Example: |
| |
| Suppose you have the following directory structure for a simple Rust library crate: |
| |
| ```output |
| [workspace]/ |
| WORKSPACE |
| hello_lib/ |
| BUILD |
| src/ |
| greeter.rs |
| lib.rs |
| ``` |
| |
| `hello_lib/src/greeter.rs`: |
| ```rust |
| pub struct Greeter { |
| greeting: String, |
| } |
| |
| impl Greeter { |
| pub fn new(greeting: &str) -> Greeter { |
| Greeter { greeting: greeting.to_string(), } |
| } |
| |
| pub fn greet(&self, thing: &str) { |
| println!("{} {}", &self.greeting, thing); |
| } |
| } |
| ``` |
| |
| `hello_lib/src/lib.rs`: |
| |
| ```rust |
| pub mod greeter; |
| ``` |
| |
| `hello_lib/BUILD`: |
| ```python |
| package(default_visibility = ["//visibility:public"]) |
| |
| load("@rules_rust//rust:defs.bzl", "rust_library") |
| |
| rust_library( |
| name = "hello_lib", |
| srcs = [ |
| "src/greeter.rs", |
| "src/lib.rs", |
| ], |
| ) |
| ``` |
| |
| Build the library: |
| ```output |
| $ bazel build //hello_lib |
| INFO: Found 1 target... |
| Target //examples/rust/hello_lib:hello_lib up-to-date: |
| bazel-bin/examples/rust/hello_lib/libhello_lib.rlib |
| INFO: Elapsed time: 1.245s, Critical Path: 1.01s |
| ``` |
| """), |
| ) |
| |
| def _rust_static_library_transition_impl(settings, attr): |
| return { |
| "//command_line_option:platforms": str(attr.platform) if attr.platform else settings["//command_line_option:platforms"], |
| } |
| |
| _rust_static_library_transition = transition( |
| implementation = _rust_static_library_transition_impl, |
| inputs = [ |
| "//command_line_option:platforms", |
| ], |
| outputs = [ |
| "//command_line_option:platforms", |
| ], |
| ) |
| |
| rust_static_library = rule( |
| implementation = _rust_static_library_impl, |
| attrs = dict(_common_attrs.items() + { |
| "platform": attr.label( |
| doc = "Optional platform to transition the static library to.", |
| default = None, |
| ), |
| "_allowlist_function_transition": attr.label( |
| default = "@bazel_tools//tools/allowlists/function_transition_allowlist", |
| ), |
| }.items()), |
| fragments = ["cpp"], |
| cfg = _rust_static_library_transition, |
| toolchains = [ |
| str(Label("//rust:toolchain_type")), |
| "@bazel_tools//tools/cpp:toolchain_type", |
| ], |
| provides = [CcInfo], |
| doc = dedent("""\ |
| Builds a Rust static library. |
| |
| This static library will contain all transitively reachable crates and native objects. |
| It is meant to be used when producing an artifact that is then consumed by some other build system |
| (for example to produce an archive that Python program links against). |
| |
| This rule provides CcInfo, so it can be used everywhere Bazel expects `rules_cc`. |
| |
| When building the whole binary in Bazel, use `rust_library` instead. |
| """), |
| ) |
| |
| def _rust_shared_library_transition_impl(settings, attr): |
| return { |
| "//command_line_option:platforms": str(attr.platform) if attr.platform else settings["//command_line_option:platforms"], |
| } |
| |
| _rust_shared_library_transition = transition( |
| implementation = _rust_shared_library_transition_impl, |
| inputs = [ |
| "//command_line_option:platforms", |
| ], |
| outputs = [ |
| "//command_line_option:platforms", |
| ], |
| ) |
| |
| rust_shared_library = rule( |
| implementation = _rust_shared_library_impl, |
| attrs = dict(_common_attrs.items() + _experimental_use_cc_common_link_attrs.items() + { |
| "platform": attr.label( |
| doc = "Optional platform to transition the shared library to.", |
| default = None, |
| ), |
| "_allowlist_function_transition": attr.label( |
| default = "@bazel_tools//tools/allowlists/function_transition_allowlist", |
| ), |
| "_use_grep_includes": attr.bool(default = True), |
| }.items()), |
| fragments = ["cpp"], |
| cfg = _rust_shared_library_transition, |
| toolchains = [ |
| str(Label("//rust:toolchain_type")), |
| "@bazel_tools//tools/cpp:toolchain_type", |
| ], |
| provides = [CcInfo], |
| doc = dedent("""\ |
| Builds a Rust shared library. |
| |
| This shared library will contain all transitively reachable crates and native objects. |
| It is meant to be used when producing an artifact that is then consumed by some other build system |
| (for example to produce a shared library that Python program links against). |
| |
| This rule provides CcInfo, so it can be used everywhere Bazel expects `rules_cc`. |
| |
| When building the whole binary in Bazel, use `rust_library` instead. |
| """), |
| ) |
| |
| def _proc_macro_dep_transition_impl(settings, _attr): |
| if settings["//rust/private:is_proc_macro_dep_enabled"]: |
| return {"//rust/private:is_proc_macro_dep": True} |
| else: |
| return [] |
| |
| _proc_macro_dep_transition = transition( |
| inputs = ["//rust/private:is_proc_macro_dep_enabled"], |
| outputs = ["//rust/private:is_proc_macro_dep"], |
| implementation = _proc_macro_dep_transition_impl, |
| ) |
| |
| rust_proc_macro = rule( |
| implementation = _rust_proc_macro_impl, |
| provides = COMMON_PROVIDERS, |
| # Start by copying the common attributes, then override the `deps` attribute |
| # to apply `_proc_macro_dep_transition`. To add this transition we additionally |
| # need to declare `_allowlist_function_transition`, see |
| # https://docs.bazel.build/versions/main/skylark/config.html#user-defined-transitions. |
| attrs = dict( |
| _common_attrs.items(), |
| _allowlist_function_transition = attr.label( |
| default = Label("//tools/allowlists/function_transition_allowlist"), |
| ), |
| deps = attr.label_list( |
| doc = dedent("""\ |
| List of other libraries to be linked to this library target. |
| |
| These can be either other `rust_library` targets or `cc_library` targets if |
| linking a native library. |
| """), |
| cfg = _proc_macro_dep_transition, |
| ), |
| ), |
| fragments = ["cpp"], |
| toolchains = [ |
| str(Label("//rust:toolchain_type")), |
| "@bazel_tools//tools/cpp:toolchain_type", |
| ], |
| doc = dedent("""\ |
| Builds a Rust proc-macro crate. |
| """), |
| ) |
| |
| _rust_binary_attrs = dict({ |
| "crate_type": attr.string( |
| doc = dedent("""\ |
| Crate type that will be passed to `rustc` to be used for building this crate. |
| |
| This option is a temporary workaround and should be used only when building |
| for WebAssembly targets (//rust/platform:wasi and //rust/platform:wasm). |
| """), |
| default = "bin", |
| ), |
| "env": attr.string_dict( |
| mandatory = False, |
| doc = dedent("""\ |
| Specifies additional environment variables to set when the target is executed by bazel run. |
| Values are subject to `$(rootpath)`, `$(execpath)`, location, and |
| ["Make variable"](https://docs.bazel.build/versions/master/be/make-variables.html) substitution. |
| |
| Execpath returns absolute path, and in order to be able to construct the absolute path we |
| need to wrap the test binary in a launcher. Using a launcher comes with complications, such as |
| more complicated debugger attachment. |
| """), |
| ), |
| "linker_script": attr.label( |
| doc = dedent("""\ |
| Link script to forward into linker via rustc options. |
| """), |
| allow_single_file = True, |
| ), |
| "out_binary": attr.bool( |
| doc = ( |
| "Force a target, regardless of it's `crate_type`, to always mark the " + |
| "file as executable. This attribute is only used to support wasm targets but is " + |
| "expected to be removed following a resolution to https://github.com/bazelbuild/rules_rust/issues/771." |
| ), |
| default = False, |
| ), |
| "stamp": _stamp_attribute(default_value = -1), |
| "_use_grep_includes": attr.bool(default = True), |
| }.items() + _experimental_use_cc_common_link_attrs.items()) |
| |
| def _rust_binary_transition_impl(settings, attr): |
| return { |
| "//command_line_option:platforms": str(attr.platform) if attr.platform else settings["//command_line_option:platforms"], |
| } |
| |
| _rust_binary_transition = transition( |
| implementation = _rust_binary_transition_impl, |
| inputs = [ |
| "//command_line_option:platforms", |
| ], |
| outputs = [ |
| "//command_line_option:platforms", |
| ], |
| ) |
| |
| rust_binary = rule( |
| implementation = _rust_binary_impl, |
| provides = COMMON_PROVIDERS, |
| attrs = dict(_common_attrs.items() + _rust_binary_attrs.items() + { |
| "platform": attr.label( |
| doc = "Optional platform to transition the binary to.", |
| default = None, |
| ), |
| "_allowlist_function_transition": attr.label( |
| default = "@bazel_tools//tools/allowlists/function_transition_allowlist", |
| ), |
| }.items()), |
| executable = True, |
| fragments = ["cpp"], |
| cfg = _rust_binary_transition, |
| toolchains = [ |
| str(Label("//rust:toolchain_type")), |
| "@bazel_tools//tools/cpp:toolchain_type", |
| ], |
| doc = dedent("""\ |
| Builds a Rust binary crate. |
| |
| Example: |
| |
| Suppose you have the following directory structure for a Rust project with a |
| library crate, `hello_lib`, and a binary crate, `hello_world` that uses the |
| `hello_lib` library: |
| |
| ```output |
| [workspace]/ |
| WORKSPACE |
| hello_lib/ |
| BUILD |
| src/ |
| lib.rs |
| hello_world/ |
| BUILD |
| src/ |
| main.rs |
| ``` |
| |
| `hello_lib/src/lib.rs`: |
| ```rust |
| pub struct Greeter { |
| greeting: String, |
| } |
| |
| impl Greeter { |
| pub fn new(greeting: &str) -> Greeter { |
| Greeter { greeting: greeting.to_string(), } |
| } |
| |
| pub fn greet(&self, thing: &str) { |
| println!("{} {}", &self.greeting, thing); |
| } |
| } |
| ``` |
| |
| `hello_lib/BUILD`: |
| ```python |
| package(default_visibility = ["//visibility:public"]) |
| |
| load("@rules_rust//rust:defs.bzl", "rust_library") |
| |
| rust_library( |
| name = "hello_lib", |
| srcs = ["src/lib.rs"], |
| ) |
| ``` |
| |
| `hello_world/src/main.rs`: |
| ```rust |
| extern crate hello_lib; |
| |
| fn main() { |
| let hello = hello_lib::Greeter::new("Hello"); |
| hello.greet("world"); |
| } |
| ``` |
| |
| `hello_world/BUILD`: |
| ```python |
| load("@rules_rust//rust:defs.bzl", "rust_binary") |
| |
| rust_binary( |
| name = "hello_world", |
| srcs = ["src/main.rs"], |
| deps = ["//hello_lib"], |
| ) |
| ``` |
| |
| Build and run `hello_world`: |
| ``` |
| $ bazel run //hello_world |
| INFO: Found 1 target... |
| Target //examples/rust/hello_world:hello_world up-to-date: |
| bazel-bin/examples/rust/hello_world/hello_world |
| INFO: Elapsed time: 1.308s, Critical Path: 1.22s |
| |
| INFO: Running command line: bazel-bin/examples/rust/hello_world/hello_world |
| Hello world |
| ``` |
| |
| On Windows, a PDB file containing debugging information is available under |
| the key `pdb_file` in `OutputGroupInfo`. Similarly on macOS, a dSYM folder |
| is available under the key `dsym_folder` in `OutputGroupInfo`. |
| """), |
| ) |
| |
| def _common_attrs_for_binary_without_process_wrapper(attrs): |
| new_attr = dict(attrs) |
| |
| # use a fake process wrapper |
| new_attr["_process_wrapper"] = attr.label( |
| default = None, |
| executable = True, |
| allow_single_file = True, |
| cfg = "exec", |
| ) |
| |
| new_attr["_bootstrap_process_wrapper"] = attr.label( |
| default = Label("//util/process_wrapper:bootstrap_process_wrapper"), |
| executable = True, |
| allow_single_file = True, |
| cfg = "exec", |
| ) |
| |
| # fix stamp = 0 |
| new_attr["stamp"] = attr.int( |
| doc = dedent("""\ |
| Fix `stamp = 0` as stamping is not supported when building without process_wrapper: |
| https://github.com/bazelbuild/rules_rust/blob/8df4517d370b0c543a01ba38b63e1d5a4104b035/rust/private/rustc.bzl#L955 |
| """), |
| default = 0, |
| values = [0], |
| ) |
| |
| return new_attr |
| |
| # Provides an internal rust_{binary,library} to use that we can use to build the process |
| # wrapper, this breaks the dependency of rust_* on the process wrapper by |
| # setting it to None, which the functions in rustc detect and build accordingly. |
| rust_binary_without_process_wrapper = rule( |
| implementation = _rust_binary_impl, |
| provides = COMMON_PROVIDERS, |
| attrs = _common_attrs_for_binary_without_process_wrapper(_common_attrs.items() + _rust_binary_attrs.items() + { |
| "platform": attr.label( |
| doc = "Optional platform to transition the binary to.", |
| default = None, |
| ), |
| "_allowlist_function_transition": attr.label( |
| default = "@bazel_tools//tools/allowlists/function_transition_allowlist", |
| ), |
| }.items()), |
| executable = True, |
| fragments = ["cpp"], |
| cfg = _rust_binary_transition, |
| toolchains = [ |
| str(Label("//rust:toolchain_type")), |
| "@bazel_tools//tools/cpp:toolchain_type", |
| ], |
| ) |
| |
| rust_library_without_process_wrapper = rule( |
| implementation = _rust_library_impl, |
| provides = COMMON_PROVIDERS, |
| attrs = dict(_common_attrs_for_binary_without_process_wrapper(_common_attrs).items()), |
| fragments = ["cpp"], |
| toolchains = [ |
| str(Label("//rust:toolchain_type")), |
| "@bazel_tools//tools/cpp:toolchain_type", |
| ], |
| ) |
| |
| def _rust_test_transition_impl(settings, attr): |
| return { |
| "//command_line_option:platforms": str(attr.platform) if attr.platform else settings["//command_line_option:platforms"], |
| } |
| |
| _rust_test_transition = transition( |
| implementation = _rust_test_transition_impl, |
| inputs = [ |
| "//command_line_option:platforms", |
| ], |
| outputs = [ |
| "//command_line_option:platforms", |
| ], |
| ) |
| |
| rust_test = rule( |
| implementation = _rust_test_impl, |
| provides = COMMON_PROVIDERS, |
| attrs = dict(_common_attrs.items() + _rust_test_attrs.items() + { |
| "platform": attr.label( |
| doc = "Optional platform to transition the test to.", |
| default = None, |
| ), |
| "_allowlist_function_transition": attr.label( |
| default = "@bazel_tools//tools/allowlists/function_transition_allowlist", |
| ), |
| }.items()), |
| executable = True, |
| fragments = ["cpp"], |
| cfg = _rust_test_transition, |
| test = True, |
| toolchains = [ |
| str(Label("//rust:toolchain_type")), |
| "@bazel_tools//tools/cpp:toolchain_type", |
| ], |
| doc = dedent("""\ |
| Builds a Rust test crate. |
| |
| Examples: |
| |
| Suppose you have the following directory structure for a Rust library crate \ |
| with unit test code in the library sources: |
| |
| ```output |
| [workspace]/ |
| WORKSPACE |
| hello_lib/ |
| BUILD |
| src/ |
| lib.rs |
| ``` |
| |
| `hello_lib/src/lib.rs`: |
| ```rust |
| pub struct Greeter { |
| greeting: String, |
| } |
| |
| impl Greeter { |
| pub fn new(greeting: &str) -> Greeter { |
| Greeter { greeting: greeting.to_string(), } |
| } |
| |
| pub fn greet(&self, thing: &str) -> String { |
| format!("{} {}", &self.greeting, thing) |
| } |
| } |
| |
| #[cfg(test)] |
| mod test { |
| use super::Greeter; |
| |
| #[test] |
| fn test_greeting() { |
| let hello = Greeter::new("Hi"); |
| assert_eq!("Hi Rust", hello.greet("Rust")); |
| } |
| } |
| ``` |
| |
| To build and run the tests, simply add a `rust_test` rule with no `srcs` |
| and only depends on the `hello_lib` `rust_library` target via the |
| `crate` attribute: |
| |
| `hello_lib/BUILD`: |
| ```python |
| load("@rules_rust//rust:defs.bzl", "rust_library", "rust_test") |
| |
| rust_library( |
| name = "hello_lib", |
| srcs = ["src/lib.rs"], |
| ) |
| |
| rust_test( |
| name = "hello_lib_test", |
| crate = ":hello_lib", |
| # You may add other deps that are specific to the test configuration |
| deps = ["//some/dev/dep"], |
| ) |
| ``` |
| |
| Run the test with `bazel test //hello_lib:hello_lib_test`. |
| |
| ### Example: `test` directory |
| |
| Integration tests that live in the [`tests` directory][int-tests], they are \ |
| essentially built as separate crates. Suppose you have the following directory \ |
| structure where `greeting.rs` is an integration test for the `hello_lib` \ |
| library crate: |
| |
| [int-tests]: http://doc.rust-lang.org/book/testing.html#the-tests-directory |
| |
| ```output |
| [workspace]/ |
| WORKSPACE |
| hello_lib/ |
| BUILD |
| src/ |
| lib.rs |
| tests/ |
| greeting.rs |
| ``` |
| |
| `hello_lib/tests/greeting.rs`: |
| ```rust |
| extern crate hello_lib; |
| |
| use hello_lib; |
| |
| #[test] |
| fn test_greeting() { |
| let hello = greeter::Greeter::new("Hello"); |
| assert_eq!("Hello world", hello.greeting("world")); |
| } |
| ``` |
| |
| To build the `greeting.rs` integration test, simply add a `rust_test` target |
| with `greeting.rs` in `srcs` and a dependency on the `hello_lib` target: |
| |
| `hello_lib/BUILD`: |
| ```python |
| load("@rules_rust//rust:defs.bzl", "rust_library", "rust_test") |
| |
| rust_library( |
| name = "hello_lib", |
| srcs = ["src/lib.rs"], |
| ) |
| |
| rust_test( |
| name = "greeting_test", |
| srcs = ["tests/greeting.rs"], |
| deps = [":hello_lib"], |
| ) |
| ``` |
| |
| Run the test with `bazel test //hello_lib:greeting_test`. |
| """), |
| ) |
| |
| def rust_test_suite(name, srcs, shared_srcs = [], **kwargs): |
| """A rule for creating a test suite for a set of `rust_test` targets. |
| |
| This rule can be used for setting up typical rust [integration tests][it]. Given the following |
| directory structure: |
| |
| ```text |
| [crate]/ |
| BUILD.bazel |
| src/ |
| lib.rs |
| main.rs |
| tests/ |
| integrated_test_a.rs |
| integrated_test_b.rs |
| integrated_test_c.rs |
| patterns/ |
| fibonacci_test.rs |
| helpers/ |
| mod.rs |
| ``` |
| |
| The rule can be used to generate [rust_test](#rust_test) targets for each source file under `tests` |
| and a [test_suite][ts] which encapsulates all tests. |
| |
| ```python |
| load("//rust:defs.bzl", "rust_binary", "rust_library", "rust_test_suite") |
| |
| rust_library( |
| name = "math_lib", |
| srcs = ["src/lib.rs"], |
| ) |
| |
| rust_binary( |
| name = "math_bin", |
| srcs = ["src/main.rs"], |
| ) |
| |
| rust_test_suite( |
| name = "integrated_tests_suite", |
| srcs = glob(["tests/**"]), |
| shared_srcs=glob(["tests/helpers/**"]), |
| deps = [":math_lib"], |
| ) |
| ``` |
| |
| [it]: https://doc.rust-lang.org/rust-by-example/testing/integration_testing.html |
| [ts]: https://docs.bazel.build/versions/master/be/general.html#test_suite |
| |
| Args: |
| name (str): The name of the `test_suite`. |
| srcs (list): All test sources, typically `glob(["tests/**/*.rs"])`. |
| shared_srcs (list): Optional argument for sources shared among tests, typically helper functions. |
| **kwargs (dict): Additional keyword arguments for the underyling [rust_test](#rust_test) targets. The |
| `tags` argument is also passed to the generated `test_suite` target. |
| """ |
| tests = [] |
| |
| for src in srcs: |
| if not src.endswith(".rs"): |
| fail("srcs should have `.rs` extensions") |
| |
| if src in shared_srcs: |
| continue |
| |
| # Prefixed with `name` to allow parameterization with macros |
| # The test name should not end with `.rs` |
| test_name = name + "_" + src[:-3] |
| rust_test( |
| name = test_name, |
| crate_root = src, |
| srcs = [src] + shared_srcs, |
| **kwargs |
| ) |
| tests.append(test_name) |
| |
| native.test_suite( |
| name = name, |
| tests = tests, |
| tags = kwargs.get("tags", None), |
| ) |
| |
| rust_library_group = rule( |
| implementation = _rust_library_group_impl, |
| provides = [rust_common.crate_group_info], |
| attrs = { |
| "deps": attr.label_list( |
| doc = "Other dependencies to forward through this crate group.", |
| providers = [[rust_common.crate_group_info], [rust_common.crate_info]], |
| ), |
| }, |
| doc = dedent("""\ |
| Functions as an alias for a set of dependencies. |
| |
| Specifically, the following are equivalent: |
| |
| ```starlark |
| rust_library_group( |
| name = "crate_group", |
| deps = [ |
| ":crate1", |
| ":crate2", |
| ], |
| ) |
| |
| rust_library( |
| name = "foobar", |
| deps = [":crate_group"], |
| ... |
| ) |
| ``` |
| |
| and |
| |
| ```starlark |
| rust_library( |
| name = "foobar", |
| deps = [ |
| ":crate1", |
| ":crate2", |
| ], |
| ... |
| ) |
| ``` |
| """), |
| ) |