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|
# Copyright (c) 2013 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# TODO(brettw) Use "gcc_toolchain.gni" like the Linux toolchains. This requires
# some enhancements since the commands on Mac are slightly different than on
# Linux.
import("//build/config/apple/symbols.gni")
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/toolchain/cc_wrapper.gni")
import("//build/toolchain/goma.gni")
import("//build/toolchain/rbe.gni")
import("//build/toolchain/toolchain.gni")
assert((target_os == "ios" && host_os == "mac") || host_os != "win")
declare_args() {
# This controls whether whole module optimization is enabled when building
# Swift modules. If enabled, the compiler will compile the module as one
# unit, generating just one single object file. Otherwise, it will generate
# one object file per .swift file. If unspecified, will default to "true"
# for official builds, and "false" for all other builds.
swift_whole_module_optimization = -1
}
if (swift_whole_module_optimization == -1) {
swift_whole_module_optimization = is_official_build
}
# When implementing tools using Python scripts, a TOOL_VERSION=N env
# variable is placed in front of the command. The N should be incremented
# whenever the script is changed, so that the build system rebuilds all
# edges that utilize the script. Ideally this should be changed to use
# proper input-dirty checking, but that could be expensive. Instead, use a
# script to get the tool scripts' modification time to use as the version.
# This won't cause a re-generation of GN files when the tool script changes
# but it will cause edges to be marked as dirty if the ninja files are
# regenerated. See https://crbug.com/619083 for details. A proper fix
# would be to have inputs to tools (https://crbug.com/621119).
tool_versions =
exec_script("get_tool_mtime.py",
rebase_path([
"//build/toolchain/apple/filter_libtool.py",
"//build/toolchain/apple/linker_driver.py",
"//build/toolchain/ios/compile_xcassets.py",
"//build/toolchain/ios/swiftc.py",
],
root_build_dir),
"trim scope")
# Shared toolchain definition. Invocations should set current_os to set the
# build args in this definition.
template("apple_toolchain") {
toolchain(target_name) {
# 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.
assert(defined(invoker.toolchain_args),
"Toolchains must declare toolchain_args")
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
}
# 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.
if (defined(toolchain_args.use_remoteexec)) {
toolchain_uses_remoteexec = toolchain_args.use_remoteexec
} else {
toolchain_uses_remoteexec = use_remoteexec
}
if (defined(toolchain_args.use_goma)) {
toolchain_uses_goma = toolchain_args.use_goma
} else {
toolchain_uses_goma = use_goma
}
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.")
if (defined(toolchain_args.use_lld)) {
toolchain_uses_lld = toolchain_args.use_lld
} else {
toolchain_uses_lld = use_lld
}
if (defined(toolchain_args.use_xcode_clang)) {
toolchain_uses_xcode_clang = toolchain_args.use_xcode_clang
} else {
toolchain_uses_xcode_clang = use_xcode_clang
}
# Supports building with the version of clang shipped with Xcode when
# targeting iOS by not respecting clang_base_path.
if (toolchain_uses_xcode_clang) {
prefix = invoker.bin_path
} else {
prefix = rebase_path("$clang_base_path/bin/", root_build_dir)
}
_cc = "${prefix}clang"
_cxx = "${prefix}clang++"
swiftmodule_switch = "-Wl,-add_ast_path,"
# Compute the compiler prefix.
if (toolchain_uses_remoteexec) {
if (defined(toolchain_args.rbe_cc_cfg_file)) {
toolchain_rbe_cc_cfg_file = toolchain_args.rbe_cc_cfg_file
} else {
toolchain_rbe_cc_cfg_file = rbe_cc_cfg_file
}
# C/C++ (clang) rewrapper prefix to use when use_remoteexec is true.
compiler_prefix = "${rbe_bin_dir}/rewrapper -cfg=${toolchain_rbe_cc_cfg_file} -exec_root=${rbe_exec_root} "
} else if (toolchain_uses_goma) {
assert(toolchain_cc_wrapper == "",
"Goma and cc_wrapper can't be used together.")
compiler_prefix = "$goma_dir/gomacc "
if (use_goma_rust) {
rust_compiler_prefix = compiler_prefix
}
} else if (toolchain_cc_wrapper != "") {
compiler_prefix = toolchain_cc_wrapper + " "
} else {
compiler_prefix = ""
}
cc = compiler_prefix + _cc
cxx = compiler_prefix + _cxx
ld = _cxx
# Set the explicit search path for clang++ so it uses the right linker
# binary.
if (!toolchain_uses_lld) {
ld += " -B " + invoker.bin_path
}
if (defined(toolchain_args.coverage_instrumentation_input_file)) {
toolchain_coverage_instrumentation_input_file =
toolchain_args.coverage_instrumentation_input_file
} else {
toolchain_coverage_instrumentation_input_file =
coverage_instrumentation_input_file
}
_use_clang_coverage_wrapper =
toolchain_coverage_instrumentation_input_file != ""
if (_use_clang_coverage_wrapper) {
_coverage_wrapper =
rebase_path("//build/toolchain/clang_code_coverage_wrapper.py",
root_build_dir) + " --files-to-instrument=" +
rebase_path(toolchain_coverage_instrumentation_input_file,
root_build_dir) + " --target-os=" + target_os
cc = "$python_path $_coverage_wrapper ${cc}"
cxx = "$python_path $_coverage_wrapper ${cxx}"
}
linker_driver =
"TOOL_VERSION=${tool_versions.linker_driver} " +
rebase_path("//build/toolchain/apple/linker_driver.py", root_build_dir)
# Specify an explicit path for the strip binary.
_strippath = invoker.bin_path + "strip"
linker_driver += " -Wcrl,strippath," + _strippath
# This makes the linker set timestamps in Mach-O files to 0.
linker_driver += " --deterministic"
# On iOS, the final applications are assembled using lipo (to support fat
# builds). The correct flags are passed to the linker_driver.py script
# directly during the lipo call. The test is against the target_os because
# there is no need to create .dSYMs for targets compiled for the host.
if (defined(invoker.strip_with_lipo) && invoker.strip_with_lipo) {
_enable_dsyms = false
_save_unstripped_output = false
} else {
_enable_dsyms = enable_dsyms
_save_unstripped_output = save_unstripped_output
}
# Make these apply to all tools below.
lib_switch = "-l"
lib_dir_switch = "-L"
# Object files go in this directory. Use label_name instead of
# target_output_name since labels will generally have no spaces and will be
# unique in the directory.
object_subdir = "{{target_out_dir}}/{{label_name}}"
# If dSYMs are enabled, this flag will be added to the link tools.
if (_enable_dsyms) {
dsym_switch = " -Wcrl,dsym,{{root_out_dir}} "
dsym_switch += "-Wcrl,dsymutilpath," +
rebase_path("//tools/clang/dsymutil/bin/dsymutil",
root_build_dir) + " "
dsym_output_dir =
"{{root_out_dir}}/{{target_output_name}}{{output_extension}}.dSYM"
dsym_output = [
"$dsym_output_dir/Contents/Info.plist",
"$dsym_output_dir/Contents/Resources/DWARF/" +
"{{target_output_name}}{{output_extension}}",
]
} else {
dsym_switch = ""
}
if (_save_unstripped_output) {
_unstripped_output = "{{root_out_dir}}/{{target_output_name}}{{output_extension}}.unstripped"
}
if (toolchain_has_rust) {
if (!defined(rust_compiler_prefix)) {
rust_compiler_prefix = ""
}
rustc = "$rust_compiler_prefix${rust_prefix}rustc"
# Ideally, we'd add -Clink-args=\"{{ldflags}}\" to each of the Rust
# tools below which may link (i.e. rust_bin, rust_cdylib, rust_macro).
# However, it seems -fuse-ld=lld causes difficulties.
tool("rust_staticlib") {
rust_outfile = "{{target_out_dir}}/{{crate_name}}.a"
depfile = "{{output}}.d"
command = "$rustc $rustc_common_args --emit=dep-info=$depfile,link -o $rust_outfile"
description = "RUST $rust_outfile"
outputs = [ rust_outfile ]
}
tool("rust_rlib") {
rust_outfile = "{{target_out_dir}}/lib{{crate_name}}.rlib"
depfile = "{{output}}.d"
command = "$rustc $rustc_common_args --emit=dep-info=$depfile,link -o $rust_outfile"
description = "RUST $rust_outfile"
outputs = [ rust_outfile ]
}
if (rustc_can_link) {
tool("rust_bin") {
rust_outfile = "{{root_out_dir}}/{{crate_name}}"
depfile = "{{output}}.d"
command = "$rustc $rustc_common_args --emit=dep-info=$depfile,link -o $rust_outfile"
description = "RUST $rust_outfile"
outputs = [ rust_outfile ]
}
tool("rust_cdylib") {
rust_outfile = "{{target_out_dir}}/lib{{crate_name}}.dylib"
depfile = "{{output}}.d"
command = "$rustc $rustc_common_args --emit=dep-info=$depfile,link -o $rust_outfile"
description = "RUST $rust_outfile"
outputs = [ rust_outfile ]
}
tool("rust_macro") {
rust_outfile = "{{target_out_dir}}/lib{{crate_name}}.dylib"
depfile = "{{output}}.d"
command = "$rustc $rustc_common_args --emit=dep-info=$depfile,link -o $rust_outfile"
description = "RUST $rust_outfile"
outputs = [ rust_outfile ]
}
}
}
tool("cc") {
depfile = "{{output}}.d"
precompiled_header_type = "gcc"
command = "$cc -MMD -MF $depfile {{defines}} {{include_dirs}} {{cflags}} {{cflags_c}} -c {{source}} -o {{output}}"
depsformat = "gcc"
description = "CC {{output}}"
outputs = [ "$object_subdir/{{source_name_part}}.o" ]
}
tool("cxx") {
depfile = "{{output}}.d"
precompiled_header_type = "gcc"
command = "$cxx -MMD -MF $depfile {{defines}} {{include_dirs}} {{cflags}} {{cflags_cc}} -c {{source}} -o {{output}}"
depsformat = "gcc"
description = "CXX {{output}}"
outputs = [ "$object_subdir/{{source_name_part}}.o" ]
}
tool("asm") {
# For GCC we can just use the C compiler to compile assembly.
depfile = "{{output}}.d"
command = "$cc -MMD -MF $depfile {{defines}} {{include_dirs}} {{asmflags}} -c {{source}} -o {{output}}"
depsformat = "gcc"
description = "ASM {{output}}"
outputs = [ "$object_subdir/{{source_name_part}}.o" ]
}
tool("objc") {
depfile = "{{output}}.d"
precompiled_header_type = "gcc"
command = "$cc -MMD -MF $depfile {{defines}} {{include_dirs}} {{framework_dirs}} {{cflags}} {{cflags_objc}} -c {{source}} -o {{output}}"
depsformat = "gcc"
description = "OBJC {{output}}"
outputs = [ "$object_subdir/{{source_name_part}}.o" ]
}
tool("objcxx") {
depfile = "{{output}}.d"
precompiled_header_type = "gcc"
command = "$cxx -MMD -MF $depfile {{defines}} {{include_dirs}} {{framework_dirs}} {{cflags}} {{cflags_objcc}} -c {{source}} -o {{output}}"
depsformat = "gcc"
description = "OBJCXX {{output}}"
outputs = [ "$object_subdir/{{source_name_part}}.o" ]
}
tool("alink") {
rspfile = "{{output}}.rsp"
if (!toolchain_uses_lld) {
# Note about -filelist: Apple's linker reads the file list file and
# interprets each newline-separated chunk of text as a file name. It
# doesn't do the things one would expect from the shell like unescaping
# or handling quotes. In contrast, when Ninja finds a file name with
# spaces, it single-quotes them in $inputs_newline as it would normally
# do for command-line arguments. Thus any source names with spaces, or
# label names with spaces (which GN bases the output paths on) will be
# corrupted by this process. Don't use spaces for source files or
# labels.
rspfile_content = "{{inputs_newline}}"
script = rebase_path("//build/toolchain/apple/filter_libtool.py",
root_build_dir)
# Specify explicit path for libtool.
libtool = invoker.bin_path + "libtool"
command = "rm -f {{output}} && TOOL_VERSION=${tool_versions.filter_libtool} $python_path $script $libtool -static -D {{arflags}} -o {{output}} -filelist $rspfile"
description = "LIBTOOL-STATIC {{output}}"
} else {
rspfile_content = "{{inputs}}"
ar = "${prefix}llvm-ar"
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.
command = "rm -f {{output}} && $command"
description = "AR {{output}}"
}
outputs = [ "{{output_dir}}/{{target_output_name}}{{output_extension}}" ]
default_output_dir = "{{target_out_dir}}"
default_output_extension = ".a"
output_prefix = "lib"
}
tool("solink") {
# E.g. "./libfoo.dylib":
dylib = "{{output_dir}}/{{target_output_name}}{{output_extension}}"
rspfile = dylib + ".rsp"
pool = "//build/toolchain:link_pool($default_toolchain)"
# These variables are not built into GN but are helpers that implement
# (1) linking to produce a .dylib, (2) extracting the symbols from that
# file to a temporary file, (3) if the temporary file has differences from
# the existing .TOC file, overwrite it, otherwise, don't change it.
#
# As a special case, if the library reexports symbols from other dynamic
# libraries, we always update the .TOC and skip the temporary file and
# diffing steps, since that library always needs to be re-linked.
tocname = dylib + ".TOC"
temporary_tocname = dylib + ".tmp"
# Use explicit paths to binaries. The binaries present on the default
# search path in /usr/bin are thin wrappers around xcrun, which requires a
# full CommandLineTools or Xcode install, and still may not choose the
# appropriate binary if there are multiple installs.
if (host_os == "mac") {
nm = invoker.bin_path + "nm"
otool = invoker.bin_path + "otool"
} else {
nm = "${prefix}llvm-nm"
otool = "${prefix}llvm-otool"
}
does_reexport_command = "[ ! -e \"$dylib\" -o ! -e \"$tocname\" ] || $otool -l \"$dylib\" | grep -q LC_REEXPORT_DYLIB"
link_command = "$linker_driver $ld -shared "
if (is_component_build) {
link_command += " -Wl,-install_name,@rpath/\"{{target_output_name}}{{output_extension}}\" "
}
link_command += dsym_switch
link_command += "{{ldflags}} -o \"$dylib\" -Wl,-filelist,\"$rspfile\" {{frameworks}} {{swiftmodules}} {{solibs}} {{libs}} {{rlibs}}"
replace_command = "if ! cmp -s \"$temporary_tocname\" \"$tocname\"; then mv \"$temporary_tocname\" \"$tocname\""
extract_toc_command = "{ $otool -l \"$dylib\" | grep LC_ID_DYLIB -A 5; $nm -gPp \"$dylib\" | cut -f1-2 -d' ' | grep -v U\$\$; true; }"
command = "if $does_reexport_command ; then $link_command && $extract_toc_command > \"$tocname\"; else $link_command && $extract_toc_command > \"$temporary_tocname\" && $replace_command ; fi; fi"
rspfile_content = "{{inputs_newline}}"
description = "SOLINK {{output}}"
# Use this for {{output_extension}} expansions unless a target manually
# overrides it (in which case {{output_extension}} will be what the target
# specifies).
default_output_dir = "{{root_out_dir}}"
default_output_extension = ".dylib"
output_prefix = "lib"
# Since the above commands only updates the .TOC file when it changes, ask
# Ninja to check if the timestamp actually changed to know if downstream
# dependencies should be recompiled.
restat = true
# Tell GN about the output files. It will link to the dylib but use the
# tocname for dependency management.
outputs = [
dylib,
tocname,
]
link_output = dylib
depend_output = tocname
if (_enable_dsyms) {
outputs += dsym_output
}
if (_save_unstripped_output) {
outputs += [ _unstripped_output ]
}
}
tool("solink_module") {
# E.g. "./libfoo.so":
sofile = "{{output_dir}}/{{target_output_name}}{{output_extension}}"
rspfile = sofile + ".rsp"
pool = "//build/toolchain:link_pool($default_toolchain)"
link_command = "$linker_driver $ld -bundle {{ldflags}} -o \"$sofile\" -Wl,-filelist,\"$rspfile\""
link_command += dsym_switch
link_command +=
" {{frameworks}} {{swiftmodules}} {{solibs}} {{libs}} {{rlibs}}"
command = link_command
rspfile_content = "{{inputs_newline}}"
description = "SOLINK_MODULE {{output}}"
# Use this for {{output_extension}} expansions unless a target manually
# overrides it (in which case {{output_extension}} will be what the target
# specifies).
default_output_dir = "{{root_out_dir}}"
default_output_extension = ".so"
outputs = [ sofile ]
if (_enable_dsyms) {
outputs += dsym_output
}
if (_save_unstripped_output) {
outputs += [ _unstripped_output ]
}
}
tool("link") {
outfile = "{{output_dir}}/{{target_output_name}}{{output_extension}}"
rspfile = "$outfile.rsp"
pool = "//build/toolchain:link_pool($default_toolchain)"
# Note about -filelist: Apple's linker reads the file list file and
# interprets each newline-separated chunk of text as a file name. It
# doesn't do the things one would expect from the shell like unescaping
# or handling quotes. In contrast, when Ninja finds a file name with
# spaces, it single-quotes them in $inputs_newline as it would normally
# do for command-line arguments. Thus any source names with spaces, or
# label names with spaces (which GN bases the output paths on) will be
# corrupted by this process. Don't use spaces for source files or labels.
command = "$linker_driver $ld $dsym_switch {{ldflags}} -o \"$outfile\" -Wl,-filelist,\"$rspfile\" {{frameworks}} {{swiftmodules}} {{solibs}} {{libs}} {{rlibs}}"
description = "LINK $outfile"
rspfile_content = "{{inputs_newline}}"
outputs = [ outfile ]
if (_enable_dsyms) {
outputs += dsym_output
}
if (_save_unstripped_output) {
outputs += [ _unstripped_output ]
}
default_output_dir = "{{root_out_dir}}"
}
# These two are really entirely generic, but have to be repeated in
# each toolchain because GN doesn't allow a template to be used here.
# See //build/toolchain/toolchain.gni for details.
tool("stamp") {
command = stamp_command
description = stamp_description
}
tool("copy") {
command = copy_command
description = copy_description
}
tool("copy_bundle_data") {
# copy_command use hardlink if possible but this does not work with
# directories. Also when running EG2 tests from Xcode, Xcode tries to
# copy some files into the application bundle which fails if source
# and destination are hardlinked together.
#
# Instead use clonefile to copy the files which is as efficient as
# hardlink but ensure the file have distinct metadata (thus avoid the
# error with ditto, see https://crbug.com/1042182).
if (host_os == "mac") {
command = "rm -rf {{output}} && /bin/cp -Rc {{source}} {{output}}"
} else {
command = "rm -rf {{output}} && /bin/cp -Rl {{source}} {{output}}"
}
description = "COPY_BUNDLE_DATA {{source}} {{output}}"
pool = "//build/toolchain/apple:bundle_pool($default_toolchain)"
}
# Swift is only used on iOS, not macOS. We want to minimize the number
# of Xcode-based tools used by the macOS toolchain, so we intentionally
# disallow future uses of Swift on macOS. https://crbug.com/965663.
if (toolchain_args.current_os == "ios") {
tool("swift") {
_tool = rebase_path("//build/toolchain/ios/swiftc.py", root_build_dir)
depfile = "{{target_out_dir}}/{{module_name}}.d"
depsformat = "gcc"
outputs = [
# The module needs to be the first output listed. The blank line after
# the module is required to prevent `gn format` from changing the file
# order.
"{{target_gen_dir}}/{{module_name}}.swiftmodule",
"{{target_gen_dir}}/{{module_name}}.h",
"{{target_gen_dir}}/{{module_name}}.swiftdoc",
"{{target_gen_dir}}/{{module_name}}.swiftsourceinfo",
]
if (swift_whole_module_optimization) {
_extra_flags = "-whole-module-optimization"
_objects_dir = "{{target_out_dir}}"
outputs += [ "$_objects_dir/{{module_name}}.o" ]
} else {
_extra_flags = ""
_objects_dir = "{{target_out_dir}}/{{label_name}}"
partial_outputs = [ "$_objects_dir/{{source_name_part}}.o" ]
}
_env_vars = "TOOL_VERSION=${tool_versions.swiftc}"
if (invoker.sdk_developer_dir != "") {
_env_vars += " DEVELOPER_DIR=${toolchain_args.sdk_developer_dir}"
}
command =
"$_env_vars $python_path $_tool -module-name {{module_name}} " +
"-object-dir $_objects_dir " +
"-module-path {{target_gen_dir}}/{{module_name}}.swiftmodule " +
"-header-path {{target_gen_dir}}/{{module_name}}.h " +
"-depfile {{target_out_dir}}/{{module_name}}.d " +
"-depfile-filter {{target_gen_dir}}/{{module_name}}.swiftmodule " +
"-bridge-header {{bridge_header}} $_extra_flags " +
"{{swiftflags}} {{include_dirs}} {{module_dirs}} {{inputs}}"
}
}
# xcassets are only used on iOS, not macOS. We want to minimize the number
# of Xcode-based tools used by the macOS toolchain, so we intentionally
# disallow future uses of xcassets on macOS. https://crbug.com/965663.
if (toolchain_args.current_os == "ios") {
tool("compile_xcassets") {
_tool = rebase_path("//build/toolchain/ios/compile_xcassets.py",
root_build_dir)
_env_vars = "TOOL_VERSION=${tool_versions.compile_xcassets}"
if (invoker.sdk_developer_dir != "") {
_env_vars += " DEVELOPER_DIR=${toolchain_args.sdk_developer_dir}"
}
command =
"$_env_vars $python_path $_tool -p \"${invoker.sdk_name}\" " +
"-t \"${invoker.deployment_target}\" " +
"-T \"{{bundle_product_type}}\" " +
"-P \"{{bundle_partial_info_plist}}\" " + "-o {{output}} {{inputs}}"
description = "COMPILE_XCASSETS {{output}}"
pool = "//build/toolchain/apple:bundle_pool($default_toolchain)"
}
}
tool("action") {
pool = "//build/toolchain:action_pool($default_toolchain)"
}
}
}
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