build/toolchain/win/BUILD.gn - platform/external/chromium_org - Git at Google

 # 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.

 import("//build/config/win/visual_studio_version.gni")
 import("//build/toolchain/goma.gni")

 # Should only be running on Windows.
 assert(is_win)

 # Setup the Visual Studio state.
 #
 # Its arguments are the VS path and the compiler wrapper tool. It will write
 # "environment.x86" and "environment.x64" to the build directory and return a
 # list to us.
 gyp_win_tool_path = rebase_path("//tools/gyp/pylib/gyp/win_tool.py",
                                 root_build_dir)
 exec_script("setup_toolchain.py",
             [ visual_studio_path, gyp_win_tool_path, windows_sdk_path ])

 # This value will be inherited in the toolchain below.
 concurrent_links = exec_script("../get_concurrent_links.py", [], "value")

 # Parameters:
 #  cpu_arch: cpu_arch to pass as a build arg
 #  environment: File name of environment file.
 #  force_win64 (optional): value for this build arg.
 template("msvc_toolchain") {
   if (defined(invoker.concurrent_links)) {
     concurrent_links = invoker.concurrent_links
   }

   env = invoker.environment

   toolchain(target_name) {
     # Make these apply to all tools below.
     lib_switch = ""
     lib_dir_switch="/LIBPATH:"

     tool("cc") {
       rspfile = "{{output}}.rsp"
       pdbname = "{{target_out_dir}}/{{target_output_name}}_c.pdb"
       command = "ninja -t msvc -e $env -- cl.exe /nologo /showIncludes /FC @$rspfile /c {{source}} /Fo{{output}} /Fd$pdbname"
       depsformat = "msvc"
       description = "CC {{output}}"
       outputs = [
         "{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.obj",
       ]
       rspfile_content = "{{defines}} {{include_dirs}} {{cflags}} {{cflags_c}}"
     }

     tool("cxx") {
       rspfile = "{{output}}.rsp"
       # The PDB name needs to be different between C and C++ compiled files.
       pdbname = "{{target_out_dir}}/{{target_output_name}}_cc.pdb"
       command = "ninja -t msvc -e $env -- cl.exe /nologo /showIncludes /FC @$rspfile /c {{source}} /Fo{{output}} /Fd$pdbname"
       depsformat = "msvc"
       description = "CXX {{output}}"
       outputs = [
         "{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.obj",
       ]
       rspfile_content = "{{defines}} {{include_dirs}} {{cflags}} {{cflags_c}}"
     }

     tool("rc") {
       command = "$python_path gyp-win-tool rc-wrapper $env rc.exe {{defines}} {{include_dirs}} /fo{{output}} {{source}}"
       outputs = [
         "{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.res",
       ]
       description = "RC {{output}}"
     }

     tool("asm") {
       # TODO(brettw): "/safeseh" assembler argument is hardcoded here. Extract
       # assembler flags to a variable like cflags. crbug.com/418613
       command = "$python_path gyp-win-tool asm-wrapper $env ml.exe {{defines}} {{include_dirs}} /safeseh /c /Fo {{output}} {{source}}"
       description = "ASM {{output}}"
       outputs = [
         "{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.obj",
       ]
     }

     tool("alink") {
       rspfile = "{{output}}.rsp"
       command = "$python_path gyp-win-tool link-wrapper $env False lib.exe /nologo /ignore:4221 /OUT:{{output}} @$rspfile"
       description = "LIB {{output}}"
       outputs = [
         # Ignore {{output_extension}} and always use .lib, there's no reason to
         # allow targets to override this extension on Windows.
         "{{target_out_dir}}/{{target_output_name}}.lib",
       ]
       default_output_extension = ".lib"
       # The use of inputs_newline is to work around a fixed per-line buffer
       # size in the linker.
       rspfile_content = "{{inputs_newline}}"
     }

     tool("solink") {
       dllname = "{{root_out_dir}}/{{target_output_name}}{{output_extension}}"  # e.g. foo.dll
       libname = "{{root_out_dir}}/{{target_output_name}}{{output_extension}}.lib"  # e.g. foo.dll.lib
       rspfile = "${dllname}.rsp"

       link_command = "$python_path gyp-win-tool link-wrapper $env False link.exe /nologo /IMPLIB:$libname /DLL /OUT:$dllname /PDB:${dllname}.pdb @$rspfile"

       # TODO(brettw) support manifests
       #manifest_command = "$python_path gyp-win-tool manifest-wrapper $env mt.exe -nologo -manifest $manifests -out:${dllname}.manifest"
       #command = "cmd /c $link_command && $manifest_command"
       command = link_command

       default_output_extension = ".dll"
       description = "LINK(DLL) {{output}}"
       outputs = [
         dllname,
         libname,
       ]
       link_output = libname
       depend_output = libname
       # The use of inputs_newline is to work around a fixed per-line buffer
       # size in the linker.
       rspfile_content = "{{libs}} {{solibs}} {{inputs_newline}} {{ldflags}}"
     }

     tool("link") {
       rspfile = "{{output}}.rsp"

       link_command = "$python_path gyp-win-tool link-wrapper $env False link.exe /nologo /OUT:{{output}} /PDB:{{output}}.pdb @$rspfile"

       # TODO(brettw) support manifests
       #manifest_command = "$python_path gyp-win-tool manifest-wrapper $env mt.exe -nologo -manifest $manifests -out:{{output}}.manifest"
       #command = "cmd /c $link_command && $manifest_command"
       command = link_command

       default_output_extension = ".exe"
       description = "LINK {{output}}"
       outputs = [
         "{{root_out_dir}}/{{target_output_name}}{{output_extension}}",
       ]
       # The use of inputs_newline is to work around a fixed per-line buffer
       # size in the linker.
       rspfile_content = "{{inputs_newline}} {{libs}} {{solibs}} {{ldflags}}"
     }

     tool("stamp") {
       command = "$python_path gyp-win-tool stamp {{output}}"
       description = "STAMP {{output}}"
     }

     tool("copy") {
       command =  "$python_path gyp-win-tool recursive-mirror {{source}} {{output}}"
       description = "COPY {{source}} {{output}}"
     }

     # 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() {
       cpu_arch = invoker.cpu_arch

       # Normally the build config resets the CPU architecture to 32-bits. Setting
       # this flag overrides that behavior.
       if (defined(invoker.force_win64)) {
         force_win64 = invoker.force_win64
       }
     }
   }
 }

 msvc_toolchain("32") {
   environment = "environment.x86"
   cpu_arch = "x64"
 }

 msvc_toolchain("64") {
   environment = "environment.x64"
   cpu_arch = "x64"
   force_win64 = true
 }
	# 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.

	import("//build/config/win/visual_studio_version.gni")
	import("//build/toolchain/goma.gni")

	# Should only be running on Windows.
	assert(is_win)

	# Setup the Visual Studio state.
	#
	# Its arguments are the VS path and the compiler wrapper tool. It will write
	# "environment.x86" and "environment.x64" to the build directory and return a
	# list to us.
	gyp_win_tool_path = rebase_path("//tools/gyp/pylib/gyp/win_tool.py",
	root_build_dir)
	exec_script("setup_toolchain.py",
	[ visual_studio_path, gyp_win_tool_path, windows_sdk_path ])

	# This value will be inherited in the toolchain below.
	concurrent_links = exec_script("../get_concurrent_links.py", [], "value")

	# Parameters:
	# cpu_arch: cpu_arch to pass as a build arg
	# environment: File name of environment file.
	# force_win64 (optional): value for this build arg.
	template("msvc_toolchain") {
	if (defined(invoker.concurrent_links)) {
	concurrent_links = invoker.concurrent_links
	}

	env = invoker.environment

	toolchain(target_name) {
	# Make these apply to all tools below.
	lib_switch = ""
	lib_dir_switch="/LIBPATH:"

	tool("cc") {
	rspfile = "{{output}}.rsp"
	pdbname = "{{target_out_dir}}/{{target_output_name}}_c.pdb"
	command = "ninja -t msvc -e $env -- cl.exe /nologo /showIncludes /FC @$rspfile /c {{source}} /Fo{{output}} /Fd$pdbname"
	depsformat = "msvc"
	description = "CC {{output}}"
	outputs = [
	"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.obj",
	]
	rspfile_content = "{{defines}} {{include_dirs}} {{cflags}} {{cflags_c}}"
	}

	tool("cxx") {
	rspfile = "{{output}}.rsp"
	# The PDB name needs to be different between C and C++ compiled files.
	pdbname = "{{target_out_dir}}/{{target_output_name}}_cc.pdb"
	command = "ninja -t msvc -e $env -- cl.exe /nologo /showIncludes /FC @$rspfile /c {{source}} /Fo{{output}} /Fd$pdbname"
	depsformat = "msvc"
	description = "CXX {{output}}"
	outputs = [
	"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.obj",
	]
	rspfile_content = "{{defines}} {{include_dirs}} {{cflags}} {{cflags_c}}"
	}

	tool("rc") {
	command = "$python_path gyp-win-tool rc-wrapper $env rc.exe {{defines}} {{include_dirs}} /fo{{output}} {{source}}"
	outputs = [
	"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.res",
	]
	description = "RC {{output}}"
	}

	tool("asm") {
	# TODO(brettw): "/safeseh" assembler argument is hardcoded here. Extract
	# assembler flags to a variable like cflags. crbug.com/418613
	command = "$python_path gyp-win-tool asm-wrapper $env ml.exe {{defines}} {{include_dirs}} /safeseh /c /Fo {{output}} {{source}}"
	description = "ASM {{output}}"
	outputs = [
	"{{source_out_dir}}/{{target_output_name}}.{{source_name_part}}.obj",
	]
	}

	tool("alink") {
	rspfile = "{{output}}.rsp"
	command = "$python_path gyp-win-tool link-wrapper $env False lib.exe /nologo /ignore:4221 /OUT:{{output}} @$rspfile"
	description = "LIB {{output}}"
	outputs = [
	# Ignore {{output_extension}} and always use .lib, there's no reason to
	# allow targets to override this extension on Windows.
	"{{target_out_dir}}/{{target_output_name}}.lib",
	]
	default_output_extension = ".lib"
	# The use of inputs_newline is to work around a fixed per-line buffer
	# size in the linker.
	rspfile_content = "{{inputs_newline}}"
	}

	tool("solink") {
	dllname = "{{root_out_dir}}/{{target_output_name}}{{output_extension}}" # e.g. foo.dll
	libname = "{{root_out_dir}}/{{target_output_name}}{{output_extension}}.lib" # e.g. foo.dll.lib
	rspfile = "${dllname}.rsp"

	link_command = "$python_path gyp-win-tool link-wrapper $env False link.exe /nologo /IMPLIB:$libname /DLL /OUT:$dllname /PDB:${dllname}.pdb @$rspfile"

	# TODO(brettw) support manifests
	#manifest_command = "$python_path gyp-win-tool manifest-wrapper $env mt.exe -nologo -manifest $manifests -out:${dllname}.manifest"
	#command = "cmd /c $link_command && $manifest_command"
	command = link_command

	default_output_extension = ".dll"
	description = "LINK(DLL) {{output}}"
	outputs = [
	dllname,
	libname,
	]
	link_output = libname
	depend_output = libname
	# The use of inputs_newline is to work around a fixed per-line buffer
	# size in the linker.
	rspfile_content = "{{libs}} {{solibs}} {{inputs_newline}} {{ldflags}}"
	}

	tool("link") {
	rspfile = "{{output}}.rsp"

	link_command = "$python_path gyp-win-tool link-wrapper $env False link.exe /nologo /OUT:{{output}} /PDB:{{output}}.pdb @$rspfile"

	# TODO(brettw) support manifests
	#manifest_command = "$python_path gyp-win-tool manifest-wrapper $env mt.exe -nologo -manifest $manifests -out:{{output}}.manifest"
	#command = "cmd /c $link_command && $manifest_command"
	command = link_command

	default_output_extension = ".exe"
	description = "LINK {{output}}"
	outputs = [
	"{{root_out_dir}}/{{target_output_name}}{{output_extension}}",
	]
	# The use of inputs_newline is to work around a fixed per-line buffer
	# size in the linker.
	rspfile_content = "{{inputs_newline}} {{libs}} {{solibs}} {{ldflags}}"
	}

	tool("stamp") {
	command = "$python_path gyp-win-tool stamp {{output}}"
	description = "STAMP {{output}}"
	}

	tool("copy") {
	command = "$python_path gyp-win-tool recursive-mirror {{source}} {{output}}"
	description = "COPY {{source}} {{output}}"
	}

	# 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() {
	cpu_arch = invoker.cpu_arch

	# Normally the build config resets the CPU architecture to 32-bits. Setting
	# this flag overrides that behavior.
	if (defined(invoker.force_win64)) {
	force_win64 = invoker.force_win64
	}
	}
	}
	}

	msvc_toolchain("32") {
	environment = "environment.x86"
	cpu_arch = "x64"
	}

	msvc_toolchain("64") {
	environment = "environment.x64"
	cpu_arch = "x64"
	force_win64 = true
	}