src/build/toolchain/toolchain.gni - cobalt - Git at Google

 # Copyright 2015 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.

 # Toolchain-related configuration that may be needed outside the context of the
 # toolchain() rules themselves.

 import("//build/config/chrome_build.gni")
 import("//build/config/chromecast_build.gni")
 import("//build_overrides/build.gni")

 declare_args() {
   # If this is set to true, we use the revision in the llvm repo to determine
   # the CLANG_REVISION to use, instead of the version hard-coded into
   # //tools/clang/scripts/update.py. This should only be used in
   # conjunction with setting the llvm_force_head_revision DEPS variable when
   # `gclient runhooks` is run as well.
   llvm_force_head_revision = false

   # Compile with Xcode version of clang instead of hermetic version shipped
   # with the build. Used to be used iOS for official builds, but is now off by
   # default for all configurations.
   use_xcode_clang = false

   # Used for binary size analysis.
   generate_linker_map = is_android && is_official_build
 }

 if (generate_linker_map) {
   assert(is_official_build || is_chromecast,
          "Linker map files should only be generated when is_official_build = " +
              "true or is_chromecast = true")
   assert(current_os == "android" || current_os == "linux" ||
              target_os == "android" || target_os == "linux" ||
              target_os == "chromeos",
          "Linker map files should only be generated for Android, Linux, " +
              "or ChromeOS.")
 }

 declare_args() {
   clang_version = "13.0.0"
 }

 # Check target_os here instead of is_ios as this file is loaded for secondary
 # toolchain (host toolchain in particular) but the argument is the same for
 # all toolchains.
 assert(!use_xcode_clang || target_os == "ios",
        "Using Xcode's clang is only supported in iOS builds")

 # Extension for shared library files (including leading dot).
 if (is_apple) {
   shlib_extension = ".dylib"
 } else if (is_android && is_component_build) {
   # By appending .cr, we prevent name collisions with libraries already
   # loaded by the Android zygote.
   shlib_extension = ".cr.so"
 } else if (is_posix || is_fuchsia) {
   shlib_extension = ".so"
 } else if (is_win) {
   shlib_extension = ".dll"
 } else {
   assert(false, "Platform not supported")
 }

 # Prefix for shared library files.
 if (is_posix || is_fuchsia) {
   shlib_prefix = "lib"
 } else {
   shlib_prefix = ""
 }

 # Directory for shared library files.
 if (is_fuchsia) {
   shlib_subdir = "/lib"
 } else {
   shlib_subdir = ""
 }

 # While other "tool"s in a toolchain are specific to the target of that
 # toolchain, the "stamp" and "copy" tools are really generic to the host;
 # but each toolchain must define them separately.  GN doesn't allow a
 # template instantiation inside a toolchain definition, so some boilerplate
 # has to be repeated in each toolchain to define these two tools.  These
 # four variables reduce the duplication in that boilerplate.
 stamp_description = "STAMP {{output}}"
 copy_description = "COPY {{source}} {{output}}"
 if (host_os == "win") {
   _tool_wrapper_path =
       rebase_path("//build/toolchain/win/tool_wrapper.py", root_build_dir)

   stamp_command = "cmd /c type nul > \"{{output}}\""
   copy_command =
       "$python_path $_tool_wrapper_path recursive-mirror {{source}} {{output}}"
 } else {
   stamp_command = "touch {{output}}"
   copy_command = "ln -f {{source}} {{output}} 2>/dev/null || (rm -rf {{output}} && cp -af {{source}} {{output}})"
 }

 # This variable is true if the current toolchain is one of the target
 # toolchains, i.e. a toolchain which is being used to build the main Chrome
 # binary. This generally means "not the host toolchain", but in the case where
 # we're targeting the host it's true then as well. We do require current_os to
 # match target_os so that for example we avoid considering Android as a target
 # toolchain when targeting CrOS.
 is_a_target_toolchain =
     (current_toolchain != host_toolchain ||
      default_toolchain == host_toolchain) && current_os == target_os
	# Copyright 2015 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.

	# Toolchain-related configuration that may be needed outside the context of the
	# toolchain() rules themselves.

	import("//build/config/chrome_build.gni")
	import("//build/config/chromecast_build.gni")
	import("//build_overrides/build.gni")

	declare_args() {
	# If this is set to true, we use the revision in the llvm repo to determine
	# the CLANG_REVISION to use, instead of the version hard-coded into
	# //tools/clang/scripts/update.py. This should only be used in
	# conjunction with setting the llvm_force_head_revision DEPS variable when
	# `gclient runhooks` is run as well.
	llvm_force_head_revision = false

	# Compile with Xcode version of clang instead of hermetic version shipped
	# with the build. Used to be used iOS for official builds, but is now off by
	# default for all configurations.
	use_xcode_clang = false

	# Used for binary size analysis.
	generate_linker_map = is_android && is_official_build
	}

	if (generate_linker_map) {
	assert(is_official_build \|\| is_chromecast,
	"Linker map files should only be generated when is_official_build = " +
	"true or is_chromecast = true")
	assert(current_os == "android" \|\| current_os == "linux" \|\|
	target_os == "android" \|\| target_os == "linux" \|\|
	target_os == "chromeos",
	"Linker map files should only be generated for Android, Linux, " +
	"or ChromeOS.")
	}

	declare_args() {
	clang_version = "13.0.0"
	}

	# Check target_os here instead of is_ios as this file is loaded for secondary
	# toolchain (host toolchain in particular) but the argument is the same for
	# all toolchains.
	assert(!use_xcode_clang \|\| target_os == "ios",
	"Using Xcode's clang is only supported in iOS builds")

	# Extension for shared library files (including leading dot).
	if (is_apple) {
	shlib_extension = ".dylib"
	} else if (is_android && is_component_build) {
	# By appending .cr, we prevent name collisions with libraries already
	# loaded by the Android zygote.
	shlib_extension = ".cr.so"
	} else if (is_posix \|\| is_fuchsia) {
	shlib_extension = ".so"
	} else if (is_win) {
	shlib_extension = ".dll"
	} else {
	assert(false, "Platform not supported")
	}

	# Prefix for shared library files.
	if (is_posix \|\| is_fuchsia) {
	shlib_prefix = "lib"
	} else {
	shlib_prefix = ""
	}

	# Directory for shared library files.
	if (is_fuchsia) {
	shlib_subdir = "/lib"
	} else {
	shlib_subdir = ""
	}

	# While other "tool"s in a toolchain are specific to the target of that
	# toolchain, the "stamp" and "copy" tools are really generic to the host;
	# but each toolchain must define them separately. GN doesn't allow a
	# template instantiation inside a toolchain definition, so some boilerplate
	# has to be repeated in each toolchain to define these two tools. These
	# four variables reduce the duplication in that boilerplate.
	stamp_description = "STAMP {{output}}"
	copy_description = "COPY {{source}} {{output}}"
	if (host_os == "win") {
	_tool_wrapper_path =
	rebase_path("//build/toolchain/win/tool_wrapper.py", root_build_dir)

	stamp_command = "cmd /c type nul > \"{{output}}\""
	copy_command =
	"$python_path $_tool_wrapper_path recursive-mirror {{source}} {{output}}"
	} else {
	stamp_command = "touch {{output}}"
	copy_command = "ln -f {{source}} {{output}} 2>/dev/null \|\| (rm -rf {{output}} && cp -af {{source}} {{output}})"
	}

	# This variable is true if the current toolchain is one of the target
	# toolchains, i.e. a toolchain which is being used to build the main Chrome
	# binary. This generally means "not the host toolchain", but in the case where
	# we're targeting the host it's true then as well. We do require current_os to
	# match target_os so that for example we avoid considering Android as a target
	# toolchain when targeting CrOS.
	is_a_target_toolchain =
	(current_toolchain != host_toolchain \|\|
	default_toolchain == host_toolchain) && current_os == target_os