# Copyright 2013 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/config/clang/clang.gni") import("//build/config/compiler/compiler.gni") import("//build/config/coverage/coverage.gni") import("//build/config/rust.gni") import("//build/config/sanitizers/sanitizers.gni") import("//build/config/v8_target_cpu.gni") import("//build/toolchain/cc_wrapper.gni") import("//build/toolchain/goma.gni") import("//build/toolchain/rbe.gni") import("//build/toolchain/toolchain.gni") if (is_nacl) { # To keep NaCl variables out of builds that don't include NaCl, all # variables defined in nacl/config.gni referenced here should be protected by # is_nacl conditions. import("//build/config/nacl/config.gni") } declare_args() { # Enables allowlist generation for IDR_ grit defines seen by the compiler. # Currently works only on some platforms and enabled by default for official # builds. Requires debug info. enable_resource_allowlist_generation = is_official_build && # Don't enable for Android-on-Chrome OS. (target_os == "android" || target_os == "win") # Use -MD instead of -MMD for compiler commands. This is useful for tracking # the comprehensive set of dependencies. system_headers_in_deps = false } # When the arg is set via args.gn, it applies to all toolchains. In order to not # hit the assert in grit_rule.gni, explicitly disable for host toolchains. if ((is_linux || is_chromeos) && target_os == "android") { enable_resource_allowlist_generation = false } # Ensure enable_resource_allowlist_generation is enabled only when it will work. if (enable_resource_allowlist_generation) { assert( !strip_debug_info, "enable_resource_allowlist_generation=true requires strip_debug_info=false") assert( !is_component_build, "enable_resource_allowlist_generation=true requires is_component_build=false") assert( target_os == "android" || target_os == "win", "enable_resource_allowlist_generation=true does not work for target_os=$target_os") } # This template defines a toolchain for something that works like gcc # (including clang). # # It requires the following variables specifying the executables to run: # - ar # - cc # - cxx # - ld # # Optional parameters that control the tools: # # - extra_cflags # Extra flags to be appended when compiling C files (but not C++ files). # - extra_cppflags # Extra flags to be appended when compiling both C and C++ files. "CPP" # stands for "C PreProcessor" in this context, although it can be # used for non-preprocessor flags as well. Not to be confused with # "CXX" (which follows). # - extra_cxxflags # Extra flags to be appended when compiling C++ files (but not C files). # - extra_asmflags # Extra flags to be appended when compiling assembly. # - extra_ldflags # Extra flags to be appended when linking # # - link_outputs # The content of this array, if specified, will be added to the list of # outputs from the link command. This can be useful in conjunction with # the post_link parameter. # - use_unstripped_as_runtime_outputs # When |strip| is set, mark unstripped executables as runtime deps rather # than stripped ones. # - post_link # The content of this string, if specified, will be run as a separate # command following the the link command. # - deps # Just forwarded to the toolchain definition. # - executable_extension # If this string is specified it will be used for the file extension # for an executable, rather than using no extension; targets will # still be able to override the extension using the output_extension # variable. # - rebuild_define # The contents of this string, if specified, will be passed as a #define # to the toolchain. It can be used to force recompiles whenever a # toolchain is updated. # - shlib_extension # If this string is specified it will be used for the file extension # for a shared library, rather than default value specified in # toolchain.gni # - strip # Location of the strip executable. When specified, strip will be run on # all shared libraries and executables as they are built. The pre-stripped # artifacts will be put in lib.unstripped/ and exe.unstripped/. # # Callers will normally want to invoke "gcc_toolchain" instead, which makes an # additional toolchain for Rust targets that are build-time artificts such as # proc macros. template("single_gcc_toolchain") { toolchain(target_name) { assert(defined(invoker.ar), "gcc_toolchain() must specify a \"ar\" value") assert(defined(invoker.cc), "gcc_toolchain() must specify a \"cc\" value") assert(defined(invoker.cxx), "gcc_toolchain() must specify a \"cxx\" value") assert(defined(invoker.ld), "gcc_toolchain() must specify a \"ld\" value") # This define changes when the toolchain changes, forcing a rebuild. # Nothing should ever use this define. if (defined(invoker.rebuild_define)) { rebuild_string = "-D" + invoker.rebuild_define + " " } else { rebuild_string = "" } # GN's syntax can't handle more than one scope dereference at once, like # "invoker.toolchain_args.foo", so make a temporary to hold the toolchain # args so we can do "invoker_toolchain_args.foo". assert(defined(invoker.toolchain_args), "Toolchains must specify toolchain_args") invoker_toolchain_args = invoker.toolchain_args assert(defined(invoker_toolchain_args.current_cpu), "toolchain_args must specify a current_cpu") assert(defined(invoker_toolchain_args.current_os), "toolchain_args must specify a current_os") # When invoking this toolchain not as the default one, these args will be # passed to the build. They are ignored when this is the default toolchain. toolchain_args = { # Populate toolchain args from the invoker. forward_variables_from(invoker_toolchain_args, "*") # The host toolchain value computed by the default toolchain's setup # needs to be passed through unchanged to all secondary toolchains to # ensure that it's always the same, regardless of the values that may be # set on those toolchains. host_toolchain = host_toolchain if (!defined(invoker_toolchain_args.v8_current_cpu)) { v8_current_cpu = invoker_toolchain_args.current_cpu } } # When the invoker has explicitly overridden use_remoteexec, use_goma or # cc_wrapper in the toolchain args, use those values, otherwise default # to the global one. This works because the only reasonable override # that toolchains might supply for these values are to force-disable them. if (defined(toolchain_args.use_remoteexec)) { toolchain_uses_remoteexec = toolchain_args.use_remoteexec } else { toolchain_uses_remoteexec = use_remoteexec } if (defined(toolchain_args.use_remoteexec_links)) { toolchain_uses_remoteexec_links = toolchain_args.use_remoteexec_links } else { toolchain_uses_remoteexec_links = use_remoteexec_links } if (defined(toolchain_args.use_goma)) { toolchain_uses_goma = toolchain_args.use_goma } else { toolchain_uses_goma = use_goma } # x86_64-nacl-* is ELF-32 and Goma/RBE won't support ELF-32. if (toolchain_uses_goma && get_path_info(invoker.cc, "name") == "x86_64-nacl-gcc") { # it will also disable x86_64-nacl-g++ since these are in # the same toolchain. toolchain_uses_goma = false } if (defined(toolchain_args.cc_wrapper)) { toolchain_cc_wrapper = toolchain_args.cc_wrapper } else { toolchain_cc_wrapper = cc_wrapper } assert(!(toolchain_uses_remoteexec && toolchain_uses_goma), "Goma and re-client can't be used together.") assert(!(toolchain_cc_wrapper != "" && toolchain_uses_remoteexec), "re-client and cc_wrapper can't be used together.") assert(!(toolchain_cc_wrapper != "" && toolchain_uses_goma), "Goma and cc_wrapper can't be used together.") # When the invoker has explicitly overridden use_goma or cc_wrapper in the # toolchain args, use those values, otherwise default to the global one. # This works because the only reasonable override that toolchains might # supply for these values are to force-disable them. # But if needs_gomacc_path_arg is set in a Chrome OS build, the toolchain # wrapper will have picked up gomacc via cmd-line arg. So need to prepend # gomacc in that case. goma_path = "$goma_dir/gomacc" if (toolchain_uses_remoteexec && (!defined(invoker.needs_gomacc_path_arg) || !invoker.needs_gomacc_path_arg)) { if (defined(toolchain_args.rbe_cc_cfg_file)) { toolchain_rbe_cc_cfg_file = toolchain_args.rbe_cc_cfg_file } else { toolchain_rbe_cc_cfg_file = rbe_cc_cfg_file } # C/C++ (clang) rewrapper prefix to use when use_remoteexec is true. compiler_prefix = "${rbe_bin_dir}/rewrapper -cfg=${toolchain_rbe_cc_cfg_file} -exec_root=${rbe_exec_root} " } else if (toolchain_uses_goma && (!defined(invoker.needs_gomacc_path_arg) || !invoker.needs_gomacc_path_arg)) { compiler_prefix = "${goma_path} " if (use_goma_rust) { rust_compiler_prefix = compiler_prefix } } else { compiler_prefix = "${toolchain_cc_wrapper} " # Prevent warning about unused variable since it is not read in the code # paths when goma is not needed. not_needed(invoker, [ "needs_gomacc_path_arg" ]) } if (toolchain_uses_remoteexec_links) { if (defined(toolchain_args.rbe_link_cfg_file)) { toolchain_rbe_link_cfg_file = toolchain_args.rbe_link_cfg_file } else { toolchain_rbe_link_cfg_file = rbe_link_cfg_file } link_prefix = "${rbe_bin_dir}/rewrapper -cfg=${toolchain_rbe_link_cfg_file} -exec_root=${rbe_exec_root} " not_needed([ "goma_path" ]) } else if (use_goma_thin_lto && toolchain_uses_goma && use_thin_lto) { # remote_ld.py uses autoninja in an attempt to set a reasonable # number of jobs, but this results in too low a value on # Chrome OS builders. So we pass in an explicit value. link_prefix = "\"$python_path\" " + rebase_path("//tools/clang/scripts/remote_ld.py", root_build_dir) + " --wrapper ${goma_path} --jobs 200 --ar-path ${invoker.ar} -- " } else { link_prefix = "" not_needed([ "goma_path" ]) } # A specific toolchain may wish to avoid coverage instrumentation, so we # allow the global "use_clang_coverage" arg to be overridden. if (defined(toolchain_args.use_clang_coverage)) { toolchain_use_clang_coverage = toolchain_args.use_clang_coverage } else { toolchain_use_clang_coverage = use_clang_coverage } # For a coverage build, we use the wrapper script globally so that it can # remove coverage cflags from files that should not have them. if (toolchain_use_clang_coverage) { # "coverage_instrumentation_input_file" is set in args.gn, but it can be # overridden by a toolchain config. if (defined(toolchain_args.coverage_instrumentation_input_file)) { toolchain_coverage_instrumentation_input_file = toolchain_args.coverage_instrumentation_input_file } else { toolchain_coverage_instrumentation_input_file = coverage_instrumentation_input_file } _coverage_wrapper = rebase_path("//build/toolchain/clang_code_coverage_wrapper.py", root_build_dir) # The wrapper needs to know what OS we target because it uses that to # select a list of files that should not be instrumented. _coverage_wrapper = _coverage_wrapper + " --target-os=" + invoker_toolchain_args.current_os # We want to instrument everything if there is no input file set. # If there is a file we need to give it to the wrapper script so it can # instrument only those files. if (toolchain_coverage_instrumentation_input_file != "") { _coverage_wrapper = _coverage_wrapper + " --files-to-instrument=" + rebase_path(toolchain_coverage_instrumentation_input_file, root_build_dir) } compiler_prefix = "\"$python_path\" ${_coverage_wrapper} " + compiler_prefix } cc = compiler_prefix + invoker.cc cxx = compiler_prefix + invoker.cxx # "asm" doesn't support any of toolchain_cc_wrapper, toolchain_uses_goma and # toolchain_uses_remoteexec. The coverage flags are also nonsensical on # assembler runs. asm = invoker.cc ar = invoker.ar ld = link_prefix + invoker.ld if (defined(invoker.readelf)) { readelf = invoker.readelf } else { readelf = "readelf" } if (defined(invoker.nm)) { nm = invoker.nm } else { nm = "nm" } if (defined(invoker.dwp)) { dwp_switch = " --dwp=\"${invoker.dwp}\"" } else { dwp_switch = "" } if (defined(invoker.shlib_extension)) { default_shlib_extension = invoker.shlib_extension } else { default_shlib_extension = shlib_extension } if (defined(invoker.default_shlib_subdir)) { default_shlib_subdir = invoker.default_shlib_subdir } else { default_shlib_subdir = "" } if (defined(invoker.executable_extension)) { default_executable_extension = invoker.executable_extension } else { default_executable_extension = "" } # Bring these into our scope for string interpolation with default values. if (defined(invoker.extra_cflags) && invoker.extra_cflags != "") { extra_cflags = " " + invoker.extra_cflags } else { extra_cflags = "" } if (defined(invoker.extra_cppflags) && invoker.extra_cppflags != "") { extra_cppflags = " " + invoker.extra_cppflags } else { extra_cppflags = "" } if (defined(invoker.extra_cxxflags) && invoker.extra_cxxflags != "") { extra_cxxflags = " " + invoker.extra_cxxflags } else { extra_cxxflags = "" } if (defined(invoker.extra_asmflags) && invoker.extra_asmflags != "") { extra_asmflags = " " + invoker.extra_asmflags } else { extra_asmflags = "" } if (defined(invoker.extra_ldflags) && invoker.extra_ldflags != "") { extra_ldflags = " " + invoker.extra_ldflags } else { extra_ldflags = "" } if (system_headers_in_deps) { md = "-MD" } else { md = "-MMD" } enable_linker_map = defined(invoker.enable_linker_map) && invoker.enable_linker_map && generate_linker_map # These library switches can apply to all tools below. lib_switch = "-l" lib_dir_switch = "-L" # Object files go in this directory. object_subdir = "{{target_out_dir}}/{{label_name}}" tool("cc") { depfile = "{{output}}.d" precompiled_header_type = "gcc" command = "$cc $md -MF $depfile ${rebuild_string}{{defines}} {{include_dirs}} {{cflags}} {{cflags_c}}${extra_cppflags}${extra_cflags} -c {{source}} -o {{output}}" depsformat = "gcc" description = "CC {{output}}" outputs = [ "$object_subdir/{{source_name_part}}.o" ] } tool("cxx") { depfile = "{{output}}.d" precompiled_header_type = "gcc" command = "$cxx $md -MF $depfile ${rebuild_string}{{defines}} {{include_dirs}} {{cflags}} {{cflags_cc}}${extra_cppflags}${extra_cxxflags} -c {{source}} -o {{output}}" depsformat = "gcc" description = "CXX {{output}}" outputs = [ "$object_subdir/{{source_name_part}}.o" ] } tool("asm") { # For GCC we can just use the C compiler to compile assembly. depfile = "{{output}}.d" command = "$asm $md -MF $depfile ${rebuild_string}{{defines}} {{include_dirs}} {{asmflags}}${extra_asmflags} -c {{source}} -o {{output}}" depsformat = "gcc" description = "ASM {{output}}" outputs = [ "$object_subdir/{{source_name_part}}.o" ] } tool("alink") { if (current_os == "aix") { # AIX does not support either -D (deterministic output) or response # files. command = "$ar -X64 {{arflags}} -r -c -s {{output}} {{inputs}}" } else { rspfile = "{{output}}.rsp" rspfile_content = "{{inputs}}" command = "\"$ar\" {{arflags}} -r -c -s -D {{output}} @\"$rspfile\"" } # Remove the output file first so that ar doesn't try to modify the # existing file. if (host_os == "win") { tool_wrapper_path = rebase_path("//build/toolchain/win/tool_wrapper.py", root_build_dir) command = "cmd /s /c \"\"$python_path\" $tool_wrapper_path delete-file {{output}} && $command\"" } else { command = "rm -f {{output}} && $command" } # Almost all targets build with //build/config/compiler:thin_archive which # adds -T to arflags. description = "AR {{output}}" outputs = [ "{{output_dir}}/{{target_output_name}}{{output_extension}}" ] # Shared libraries go in the target out directory by default so we can # generate different targets with the same name and not have them collide. default_output_dir = "{{target_out_dir}}" default_output_extension = ".a" output_prefix = "lib" } tool("solink") { soname = "{{target_output_name}}{{output_extension}}" # e.g. "libfoo.so". sofile = "{{output_dir}}/$soname" # Possibly including toolchain dir. rspfile = sofile + ".rsp" pool = "//build/toolchain:link_pool($default_toolchain)" if (defined(invoker.strip)) { unstripped_sofile = "{{root_out_dir}}/lib.unstripped/$soname" } else { unstripped_sofile = sofile } # These variables are not built into GN but are helpers that # implement (1) linking to produce a .so, (2) extracting the symbols # from that file (3) if the extracted list differs from the existing # .TOC file, overwrite it, otherwise, don't change it. tocfile = sofile + ".TOC" soname_flag = "" if (current_os != "aix") { # -soname flag is not available on aix ld soname_flag = "-Wl,-soname=\"$soname\"" } link_command = "$ld -shared $soname_flag {{ldflags}}${extra_ldflags} -o \"$unstripped_sofile\" @\"$rspfile\" {{rlibs}}" # Generate a map file to be used for binary size analysis. # Map file adds ~10% to the link time on a z620. # With target_os="android", libchrome.so.map.gz is ~20MB. map_switch = "" if (enable_linker_map) { map_file = "$unstripped_sofile.map.gz" map_switch = " --map-file \"$map_file\"" } assert(defined(readelf), "to solink you must have a readelf") assert(defined(nm), "to solink you must have an nm") strip_switch = "" if (defined(invoker.strip)) { strip_switch = "--strip=${invoker.strip} " } # This needs a Python script to avoid using a complex shell command # requiring sh control structures, pipelines, and POSIX utilities. # The host might not have a POSIX shell and utilities (e.g. Windows). solink_wrapper = rebase_path("//build/toolchain/gcc_solink_wrapper.py", root_build_dir) solink_extra_flags = "" if (current_os == "aix") { # to be intercepted by solink_wrapper, so that we exit immediately # after linking the shared object, without generating the TOC file # (skipped on Aix) solink_extra_flags = "--partitioned-library" } command = "\"$python_path\" \"$solink_wrapper\" --readelf=\"$readelf\" --nm=\"$nm\" $strip_switch$dwp_switch --sofile=\"$unstripped_sofile\" --tocfile=\"$tocfile\"$map_switch --output=\"$sofile\" -- $link_command $solink_extra_flags" if (target_cpu == "mipsel" && is_component_build && is_android) { rspfile_content = "-Wl,--start-group -Wl,--whole-archive {{inputs}} {{solibs}} -Wl,--no-whole-archive {{libs}} -Wl,--end-group" } else if (current_os == "aix") { # --whole-archive, --no-whole-archive flags are not available on the aix # ld. rspfile_content = "{{inputs}} {{solibs}} {{libs}}" } else { rspfile_content = "-Wl,--whole-archive {{inputs}} {{solibs}} -Wl,--no-whole-archive {{libs}}" } description = "SOLINK $sofile" # Use this for {{output_extension}} expansions unless a target manually # overrides it (in which case {{output_extension}} will be what the target # specifies). default_output_extension = default_shlib_extension default_output_dir = "{{root_out_dir}}${default_shlib_subdir}" output_prefix = "lib" # Since the above commands only updates the .TOC file when it changes, ask # Ninja to check if the timestamp actually changed to know if downstream # dependencies should be recompiled. restat = true # Tell GN about the output files. It will link to the sofile but use the # tocfile for dependency management. outputs = [ sofile, tocfile, ] if (sofile != unstripped_sofile) { outputs += [ unstripped_sofile ] if (defined(invoker.use_unstripped_as_runtime_outputs) && invoker.use_unstripped_as_runtime_outputs) { runtime_outputs = [ unstripped_sofile ] } } # Clank build will generate DWP files when Fission is used. # Other builds generate DWP files outside of the gn link targets, if at # all. if (defined(invoker.dwp)) { outputs += [ unstripped_sofile + ".dwp" ] if (defined(invoker.use_unstripped_as_runtime_outputs) && invoker.use_unstripped_as_runtime_outputs) { runtime_outputs += [ unstripped_sofile + ".dwp" ] } } if (defined(map_file)) { outputs += [ map_file ] } link_output = sofile depend_output = tocfile } tool("solink_module") { soname = "{{target_output_name}}{{output_extension}}" # e.g. "libfoo.so". sofile = "{{output_dir}}/$soname" rspfile = sofile + ".rsp" pool = "//build/toolchain:link_pool($default_toolchain)" if (defined(invoker.strip)) { unstripped_sofile = "{{root_out_dir}}/lib.unstripped/$soname" } else { unstripped_sofile = sofile } soname_flag = "" whole_archive_flag = "" no_whole_archive_flag = "" if (current_os != "aix") { # -soname, --whole-archive, --no-whole-archive flags are not available # on aix ld soname_flag = "-Wl,-soname=\"$soname\"" whole_archive_flag = "-Wl,--whole-archive" no_whole_archive_flag = "-Wl,--no-whole-archive" } command = "$ld -shared {{ldflags}}${extra_ldflags} -o \"$unstripped_sofile\" $soname_flag @\"$rspfile\"" if (defined(invoker.strip)) { strip_command = "${invoker.strip} -o \"$sofile\" \"$unstripped_sofile\"" command += " && " + strip_command } rspfile_content = "$whole_archive_flag {{inputs}} {{solibs}} $no_whole_archive_flag {{libs}} {{rlibs}}" description = "SOLINK_MODULE $sofile" # Use this for {{output_extension}} expansions unless a target manually # overrides it (in which case {{output_extension}} will be what the target # specifies). if (defined(invoker.loadable_module_extension)) { default_output_extension = invoker.loadable_module_extension } else { default_output_extension = default_shlib_extension } default_output_dir = "{{root_out_dir}}${default_shlib_subdir}" output_prefix = "lib" outputs = [ sofile ] if (sofile != unstripped_sofile) { outputs += [ unstripped_sofile ] if (defined(invoker.use_unstripped_as_runtime_outputs) && invoker.use_unstripped_as_runtime_outputs) { runtime_outputs = [ unstripped_sofile ] } } } tool("link") { exename = "{{target_output_name}}{{output_extension}}" outfile = "{{output_dir}}/$exename" rspfile = "$outfile.rsp" unstripped_outfile = outfile pool = "//build/toolchain:link_pool($default_toolchain)" # Use this for {{output_extension}} expansions unless a target manually # overrides it (in which case {{output_extension}} will be what the target # specifies). default_output_extension = default_executable_extension default_output_dir = "{{root_out_dir}}" if (defined(invoker.strip)) { unstripped_outfile = "{{root_out_dir}}/exe.unstripped/$exename" } start_group_flag = "" end_group_flag = "" if (current_os != "aix") { # the "--start-group .. --end-group" feature isn't available on the aix # ld. start_group_flag = "-Wl,--start-group" end_group_flag = "-Wl,--end-group " } link_command = "$ld {{ldflags}}${extra_ldflags} -o \"$unstripped_outfile\" $start_group_flag @\"$rspfile\" {{solibs}} $end_group_flag {{libs}} {{rlibs}}" # Generate a map file to be used for binary size analysis. # Map file adds ~10% to the link time on a z620. # With target_os="android", libchrome.so.map.gz is ~20MB. map_switch = "" if (enable_linker_map) { map_file = "$unstripped_outfile.map.gz" map_switch = " --map-file \"$map_file\"" } strip_switch = "" if (defined(invoker.strip)) { strip_switch = " --strip=\"${invoker.strip}\" --unstripped-file=\"$unstripped_outfile\"" } link_wrapper = rebase_path("//build/toolchain/gcc_link_wrapper.py", root_build_dir) command = "\"$python_path\" \"$link_wrapper\" --output=\"$outfile\"$strip_switch$map_switch$dwp_switch -- $link_command" description = "LINK $outfile" rspfile_content = "{{inputs}}" outputs = [ outfile ] if (outfile != unstripped_outfile) { outputs += [ unstripped_outfile ] if (defined(invoker.use_unstripped_as_runtime_outputs) && invoker.use_unstripped_as_runtime_outputs) { runtime_outputs = [ unstripped_outfile ] } } # Clank build will generate DWP files when Fission is used. # Other builds generate DWP files outside of the gn link targets, if at # all. if (defined(invoker.dwp)) { outputs += [ unstripped_outfile + ".dwp" ] if (defined(invoker.use_unstripped_as_runtime_outputs) && invoker.use_unstripped_as_runtime_outputs) { runtime_outputs += [ unstripped_outfile + ".dwp" ] } } if (defined(invoker.link_outputs)) { outputs += invoker.link_outputs } if (defined(map_file)) { outputs += [ map_file ] } } # These two are really entirely generic, but have to be repeated in # each toolchain because GN doesn't allow a template to be used here. # See //build/toolchain/toolchain.gni for details. tool("stamp") { command = stamp_command description = stamp_description } tool("copy") { command = copy_command description = copy_description } tool("action") { pool = "//build/toolchain:action_pool($default_toolchain)" } if (toolchain_has_rust) { if (!defined(rust_compiler_prefix)) { rust_compiler_prefix = "" } rust_sysroot_relative = rebase_path(rust_sysroot, root_build_dir) rustc_bin = "$rust_sysroot_relative/bin/rustc" rustc = "$rust_compiler_prefix${rustc_bin}" rustc_wrapper = rebase_path("//build/rust/rustc_wrapper.py", root_build_dir) # RSP manipulation due to https://bugs.chromium.org/p/gn/issues/detail?id=249 tool("rust_staticlib") { libname = "{{output_dir}}/{{target_output_name}}{{output_extension}}" rspfile = "$libname.rsp" depfile = "$libname.d" default_output_extension = ".a" output_prefix = "lib" default_output_dir = "{{root_out_dir}}" description = "RUST(STATICLIB) {{output}}" outputs = [ libname ] rspfile_content = "{{rustdeps}} {{externs}} SOURCES {{sources}}" command = "\"$python_path\" \"$rustc_wrapper\" --rustc=$rustc --depfile=$depfile --rsp=$rspfile -- -Clinker=\"${invoker.cxx}\" $rustc_common_args --emit=dep-info=$depfile,link -o $libname LDFLAGS RUSTENV {{rustenv}}" rust_sysroot = rust_sysroot_relative } tool("rust_rlib") { # We must always prefix with `lib` even if the library already starts # with that prefix or else our stdlib is unable to find libc.rlib (or # actually liblibc.rlib). rlibname = "{{output_dir}}/lib{{target_output_name}}{{output_extension}}" rspfile = "$rlibname.rsp" depfile = "$rlibname.d" default_output_extension = ".rlib" # This is prefixed unconditionally in `rlibname`. # output_prefix = "lib" default_output_dir = "{{root_out_dir}}" description = "RUST {{output}}" outputs = [ rlibname ] rspfile_content = "{{rustdeps}} {{externs}} SOURCES {{sources}}" command = "\"$python_path\" \"$rustc_wrapper\" --rustc=$rustc --depfile=$depfile --rsp=$rspfile -- -Clinker=\"${invoker.cxx}\" $rustc_common_args --emit=dep-info=$depfile,link -o $rlibname LDFLAGS RUSTENV {{rustenv}}" rust_sysroot = rust_sysroot_relative } tool("rust_bin") { exename = "{{output_dir}}/{{target_output_name}}{{output_extension}}" depfile = "$exename.d" rspfile = "$exename.rsp" pool = "//build/toolchain:link_pool($default_toolchain)" default_output_extension = default_executable_extension default_output_dir = "{{root_out_dir}}" description = "RUST(BIN) {{output}}" outputs = [ exename ] rspfile_content = "{{rustdeps}} {{externs}} SOURCES {{sources}}" command = "\"$python_path\" \"$rustc_wrapper\" --rustc=$rustc --depfile=$depfile --rsp=$rspfile -- -Clinker=\"${invoker.cxx}\" $rustc_common_args --emit=dep-info=$depfile,link -o $exename LDFLAGS {{ldflags}} ${extra_ldflags} RUSTENV {{rustenv}}" rust_sysroot = rust_sysroot_relative } tool("rust_cdylib") { dllname = "{{output_dir}}/{{target_output_name}}{{output_extension}}" depfile = "$dllname.d" rspfile = "$dllname.rsp" pool = "//build/toolchain:link_pool($default_toolchain)" default_output_extension = default_shlib_extension output_prefix = "lib" default_output_dir = "{{root_out_dir}}${default_shlib_subdir}" description = "RUST(CDYLIB) {{output}}" outputs = [ dllname ] rspfile_content = "{{rustdeps}} {{externs}} SOURCES {{sources}}" command = "\"$python_path\" \"$rustc_wrapper\" --rustc=$rustc --depfile=$depfile --rsp=$rspfile -- -Clinker=\"${invoker.cxx}\" $rustc_common_args --emit=dep-info=$depfile,link -o $dllname LDFLAGS {{ldflags}} ${extra_ldflags} RUSTENV {{rustenv}}" rust_sysroot = rust_sysroot_relative } tool("rust_macro") { dllname = "{{output_dir}}/{{target_output_name}}{{output_extension}}" depfile = "$dllname.d" rspfile = "$dllname.rsp" pool = "//build/toolchain:link_pool($default_toolchain)" default_output_extension = default_shlib_extension output_prefix = "lib" default_output_dir = "{{root_out_dir}}${default_shlib_subdir}" description = "RUST(MACRO) {{output}}" outputs = [ dllname ] rspfile_content = "{{rustdeps}} {{externs}} SOURCES {{sources}}" command = "\"$python_path\" \"$rustc_wrapper\" --rustc=$rustc --depfile=$depfile --rsp=$rspfile -- -Clinker=\"${invoker.cxx}\" $rustc_common_args --emit=dep-info=$depfile,link -o $dllname LDFLAGS {{ldflags}} ${extra_ldflags} RUSTENV {{rustenv}}" rust_sysroot = rust_sysroot_relative } } forward_variables_from(invoker, [ "deps", "propagates_configs", ]) } } # Makes a GCC toolchain for the target, and an equivalent toolchain with the # prebuilt Rust stdlib for building proc macros (and other for-build-use # artifacts). template("gcc_toolchain") { single_gcc_toolchain(target_name) { assert(defined(invoker.toolchain_args), "Toolchains must declare toolchain_args") forward_variables_from(invoker, "*", [ "visibility", "test_only", ]) # No need to forward visibility and test_only as they apply to targets not # toolchains, but presubmit checks require that we explicitly exclude them } if (enable_rust && current_toolchain == default_toolchain) { # Make an additional toolchain which is used for making tools that are run # on the host machine as part of the build process (such as proc macros # and Cargo build scripts). This toolchain uses the prebuilt stdlib that # comes with the compiler, so it doesn't have to wait for the stdlib to be # built before building other stuff. And this ensures its proc macro # outputs have the right ABI to be loaded by the compiler, and it can be # used to compile build scripts that are part of the stdlib that is built # for the default toolchain. single_gcc_toolchain("${target_name}_for_rust_host_build_tools") { assert(defined(invoker.toolchain_args), "Toolchains must declare toolchain_args") forward_variables_from(invoker, "*", [ "toolchain_args", "visibility", "test_only", ]) toolchain_args = { # Populate toolchain args from the invoker. forward_variables_from(invoker.toolchain_args, "*") toolchain_for_rust_host_build_tools = true # The host build tools are static release builds to make the Chromium # build faster. is_debug = false is_component_build = false is_official_build = false use_clang_coverage = false use_sanitizer_coverage = false generate_linker_map = false } # When cross-compiling we don't want to use the target platform's file # extensions. shlib_extension = host_shlib_extension } } } # This is a shorthand for gcc_toolchain instances based on the Chromium-built # version of Clang. Only the toolchain_cpu and toolchain_os variables need to # be specified by the invoker, and optionally toolprefix if it's a # cross-compile case. Note that for a cross-compile case this toolchain # requires a config to pass the appropriate -target option, or else it will # actually just be doing a native compile. The invoker can optionally override # use_gold too. template("clang_toolchain") { gcc_toolchain(target_name) { _path = "$clang_base_path/bin" _is_path_absolute = get_path_info(_path, "abspath") == _path # Preserve absolute paths for tools like distcc. if (_is_path_absolute && filter_include([ _path ], [ "//*" ]) == []) { prefix = _path } else { prefix = rebase_path(_path, root_build_dir) } cc = "${prefix}/clang" cxx = "${prefix}/clang++" ld = cxx readelf = "${prefix}/llvm-readelf" ar = "${prefix}/llvm-ar" nm = "${prefix}/llvm-nm" forward_variables_from(invoker, "*", [ "toolchain_args" ]) toolchain_args = { if (defined(invoker.toolchain_args)) { forward_variables_from(invoker.toolchain_args, "*") } is_clang = true } } }