declare_args() { # Absolute path of rust build files. rust_build = "//build_extra/rust/" # treat the warnings in rust files as errors rust_treat_warnings_as_errors = true } if (is_win) { executable_suffix = ".exe" } else { executable_suffix = "" } # To simplify transitive dependency management with gn, we build all rust # crates into the same directory. We need to be careful not to have crates # with the same name. out_dir = "$root_out_dir/rust_crates" # The official way of building Rust executables is to to let rustc do the # linking. However, we'd prefer to leave it in the hands of gn/ninja: # * It allows us to use source sets. # * It allows us to use the bundled lld that Chromium and V8 use. # * We have more control over build flags. # * To sidestep rustc weirdness (e.g. on Windows, it always links with the # release C runtime library, even for debug builds). # # The `get_rust_ldflags` tool outputs the linker flags that are needed to # successfully link rustc object code into an executable. # We generate two sets of ldflags: # `rust_bin_ldflags`: Used for rust_executable targets. # `rust_test_ldflags`: Used for rust_test targets; includes the test harness. # # The tool works by compiling and linking something with rustc, and analyzing # the arguments it passes to the system linker. That's what dummy.rs is for. dummy_rs_path = rebase_path("dummy.rs", root_build_dir) rust_bin_ldflags = exec_script("get_rust_ldflags.py", [ dummy_rs_path ], "list lines") rust_test_ldflags = exec_script("get_rust_ldflags.py", [ dummy_rs_path, "--test", ], "list lines") template("run_rustc") { action(target_name) { assert(defined(invoker.source_root), "Must specify source_root") forward_variables_from(invoker, [ "crate_name", "crate_type", "crate_version", "deps", "extern_infos", "features", "is_test", "source_root", "testonly", ]) if (!defined(crate_name)) { crate_name = target_name } if (!defined(is_test)) { is_test = false } sources = [ source_root, ] script = "//tools/run_rustc.py" args = [ rebase_path(source_root, root_build_dir), "--crate-name=$crate_name", "--crate-type=$crate_type", ] if (rust_treat_warnings_as_errors) { args += [ "-Dwarnings" ] } if (!is_win) { args += [ "--color=always" ] } if (!defined(crate_version)) { crate_name_and_version = crate_name } else { crate_name_and_version = "$crate_name-$crate_version" } if (crate_type == "bin") { output_file = "$out_dir/$crate_name_and_version.o" emit_type = "obj" } else if (crate_type == "rlib") { output_file = "$out_dir/lib$crate_name_and_version.rlib" emit_type = "link" } outputs = [ output_file, ] output_file_rel = rebase_path(output_file, root_build_dir) args += [ "--emit=$emit_type=$output_file_rel" ] depfile = "$out_dir/$crate_name_and_version.d" args += [ "--emit=dep-info=" + rebase_path(depfile, root_build_dir), # The following two args are used by run_rustc.py to fix # the depfile on the fly. They are not passed thru to rustc. "--depfile=" + rebase_path(depfile, root_build_dir), "--output_file=" + output_file_rel, # This is needed for transitive dependencies. "-L", "dependency=" + rebase_path(out_dir, root_build_dir), ] if (defined(crate_version)) { # Compute the sha256sum of the version number. See comments below. # Note that we do this only if there are multiple versions of this crate. hash = exec_script("//tools/sha256sum.py", [ "--input", crate_version, "--format", "%.8s", ], "trim string") args += [ # In our build setup, all crates are built in the same directory. The # actual build outputs have unique names (e.g. 'foo-1.2.3.rlib'), but # rustc also creates many temp files (e.g. 'foo.crate.metadata.rcgu.bc', # 'foo.foo0.rcgu.o'), and with those files, name collisions do occur. # This causes random failures during parallel builds and on CI. # # These name conflicts can be avoided by setting `-C extra-filename=` to # some unique value. Unfortunately the version number as such can't be # used: everything after the first dot (.) is thrown away, so winapi-0.2 # vs. winapi-0.3 would still have conflicts -- so we use a hash instead. "-C", "extra-filename=$hash", # Rustc blows up if a target (directly or indirectly) depends on two+ # crates that have the same name *and* the same metadata. So we use the # hash to give 'metadata' a unique value too (any unique value will do). "-C", "metadata=$hash", ] } if (is_debug) { args += [ "-g" ] } if (is_official_build) { args += [ "-O" ] } if (is_test) { args += [ "--test" ] } if (defined(features)) { foreach(f, features) { args += [ "--cfg", "feature=\"" + f + "\"", ] } } if (defined(invoker.args)) { args += invoker.args } if (!defined(deps)) { deps = [] } # Build the list of '--extern' arguments from the 'extern_infos' array. foreach(info, extern_infos) { rlib = "$out_dir/lib${info.crate_name_and_version}.rlib" args += [ "--extern", info.crate_name + "=" + rebase_path(rlib, root_build_dir), ] deps += [ info.label ] } } } template("rust_crate") { rustc_name = target_name + "_rustc" rustc_label = ":" + rustc_name config_name = target_name + "_config" # Convert all 'extern' and 'extern_version' items to a single format. extern_infos = [] if (defined(invoker.extern)) { foreach(label, invoker.extern) { extern_infos += [ { label = label crate_name = get_label_info(label, "name") crate_name_and_version = crate_name }, ] } } if (defined(invoker.extern_version)) { foreach(info, invoker.extern_version) { extern_infos += [ { forward_variables_from(info, [ "label", "crate_name", "crate_version", ]) crate_name_and_version = "$crate_name-$crate_version" }, ] } } forward_variables_from(invoker, [ "crate_name", "crate_type", ]) if (!defined(crate_name)) { crate_name = target_name } if (!defined(crate_type)) { crate_type = "rlib" } run_rustc(rustc_name) { forward_variables_from(invoker, [ "args", "crate_version", "deps", "features", "is_test", "source_root", "testonly", ]) } crate_outputs = get_target_outputs(rustc_label) crate_obj = crate_outputs[0] config(config_name) { lib_dirs = [] forward_variables_from(invoker, [ "libs" ]) if (!defined(libs)) { libs = [] } foreach(info, extern_infos) { rlib = "$out_dir/lib${info.crate_name_and_version}.rlib" libs += [ rlib ] } lib_dirs = [ out_dir ] } source_set(target_name) { forward_variables_from(invoker, [ "deps", "libs", "testonly", ]) if (!defined(deps)) { deps = [] } if (!defined(libs)) { libs = [] } libs += [ crate_obj ] deps += [ rustc_label ] all_dependent_configs = [ ":" + config_name ] } } template("rust_executable") { bin_name = target_name + "_bin" bin_label = ":" + bin_name rust_crate(bin_name) { crate_type = "bin" forward_variables_from(invoker, "*") } executable(target_name) { forward_variables_from(invoker, "*") if (defined(is_test) && is_test) { ldflags = rust_test_ldflags } else { ldflags = rust_bin_ldflags } if (!defined(deps)) { deps = [] } deps += [ bin_label ] if (defined(extern)) { deps += extern } if (defined(extern_version)) { foreach(info, extern_version) { deps += [ info.label ] } } } } template("rust_test") { rust_executable(target_name) { forward_variables_from(invoker, "*") is_test = true testonly = true } }