build/config/win/manifest.gni - chromium/src - 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.

 # HOW MANIFESTS WORK IN THE GN BUILD
 #
 # Use the windows_manifest template to declare a manifest generation step.
 # This will combine all listed .manifest files and generate a resource file
 # referencing the resulting manifest. To link this manifest, just depend on
 # the manifest target from your executable or shared library.
 #
 # This will define an empty placeholder target on non-Windows platforms so
 # the manifest declarations and dependencies do not need to be inside of OS
 # conditionals.
 #
 # Manifests uses different resource IDs for EXE and DLL targets. You will need
 # to specify this in the manifest target declaration and only use that manifest
 # target from the correct type of binary target.
 #
 # A binary can depend on only one manifest target, but the manifest target
 # can depend on many individual .manifest files which will be merged. As a
 # result, only executables and shared libraries should depend on manifest
 # targets. If you want to add a manifest to a component, put the dependency
 # behind a "if (is_component_build)" conditional.
 #
 # Generally you will just want the defaults for the Chrome build. In this case
 # the binary should just depend on one of the targets in //build/win/. There
 # are also individual manifest files in that directory you can reference via
 # the *_manifest variables defined below to pick and choose only some defaults.
 # You might combine these with a custom manifest file to get specific behavior.

 # Reference this manifest as a source from windows_manifest targets to get
 # the default Chrome OS compatibility list.
 default_compatibility_manifest = "//build/win/compatibility.manifest"

 # Reference this manifest as a source from windows_manifest targets to get
 # the default Chrome common constrols compatibility.
 common_controls_manifest = "//build/win/common_controls.manifest"

 # Reference this manifest to request that Windows not perform any elevation
 # when running your program. Otherwise, it might do some autodetection and
 # request elevated privileges from the user. This is normally what you want.
 as_invoker_manifest = "//build/win/as_invoker.manifest"

 # An alternative to as_invoker_manifest when you want the application to always
 # elevate.
 require_administrator_manifest = "//build/win/require_administrator.manifest"

 # Construct a target to combine the given manifest files into a .rc file.
 #
 # Variables for the windows_manifest template:
 #
 #   sources: (required)
 #     List of source .manifest files to add.
 #
 #   type: "dll" or "exe" (required)
 #     Indicates the type of target that this manifest will be used for.
 #     DLLs and EXEs have different manifest resource IDs.
 #
 #   deps: (optional)
 #   visibility: (optional)
 #     Normal meaning.
 #
 # Example:
 #
 #   windows_manifest("doom_melon_manifest") {
 #     sources = [
 #       "doom_melon.manifest",   # Custom values in here.
 #       default_compatibility_manifest,  # Want the normal OS compat list.
 #     ]
 #     type = "exe"
 #   }
 #
 #   executable("doom_melon") {
 #     deps = [ ":doom_melon_manifest" ]
 #     ...
 #   }

 if (is_win) {
   # This is the environment file that gyp-win-tool will use for the current
   # toolchain. It is placed in root_build_dir by the toolchain setup. This
   # variable is the path relative to the root_build_dir which is what
   # gyp-win-tool expects as an argument.
   _environment_file = "environment.$current_cpu"

   template("windows_manifest") {
     manifest_action_name = "${target_name}__gen_manifest"
     rc_action_name = "${target_name}__gen_rc"
     source_set_name = target_name

     output_manifest = "$target_gen_dir/$source_set_name.manifest"
     rcfile = "$output_manifest.rc"

     # Make the final .manifest file.
     action(manifest_action_name) {
       visibility = [ ":$source_set_name" ]

       script = "$root_build_dir/gyp-win-tool"

       assert(defined(invoker.sources),
              "\"sources\" must be defined for a windows_manifest target")
       inputs = invoker.sources

       outputs = [
         output_manifest,
       ]

       args = [
         "manifest-wrapper",
         _environment_file,
         "mt.exe",
         "-nologo",
         "-manifest",
       ]
       args += rebase_path(invoker.sources, root_build_dir)
       args += [ "-out:" + rebase_path(output_manifest, root_build_dir) ]

       # Apply any dependencies from the invoker to this target, since those
       # dependencies may have created the input manifest files.
       forward_variables_from(invoker, [ "deps" ])
     }

     # Make the .rc file that references the final manifest file. The manifest
     # generation doesn't need to be a dependency because it's not actually
     # needed until the .rc is compiled.
     #
     # This could easily be combined into one step, but this current separation
     # of .manifest and .rc matches GYP and allows us to re-use gyp-win-tool.
     action(rc_action_name) {
       visibility = [ ":$source_set_name" ]

       script = "$root_build_dir/gyp-win-tool"

       outputs = [
         rcfile,
       ]

       # EXEs have a resource ID of 1 for their manifest, DLLs use 2.
       assert(defined(invoker.type),
              "\"type\" must be defined for a windows_manifest")
       if (invoker.type == "exe") {
         manifest_resource_id = "1"
       } else if (invoker.type == "dll") {
         manifest_resource_id = "2"
       } else {
         assert(false, "Bad value of \"type\", Must be \"exe\" or \"dll\"")
       }

       args = [
         "manifest-to-rc",
         "$_environment_file",
         rebase_path(output_manifest),
         rebase_path(rcfile, root_build_dir),
         manifest_resource_id,
       ]
     }

     # This source set only exists to compile and link the resource file.
     source_set(source_set_name) {
       forward_variables_from(invoker, [ "visibility" ])
       sources = [
         rcfile,
       ]
       deps = [
         ":$manifest_action_name",
         ":$rc_action_name",
       ]
     }
   }
 } else {
   # Make a no-op group on non-Windows platforms so windows_manifest
   # instantiations don't need to be inside windows blocks.
   template("windows_manifest") {
     group(target_name) {
       # Prevent unused variable warnings on non-Windows platforms.
       assert(invoker.type == "exe" || invoker.type == "dll")
       assert(invoker.sources != "")
       assert(!defined(invoker.deps) || invoker.deps != "")
       assert(!defined(invoker.visibility) || invoker.visibility != "")
     }
   }
 }
	# 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.

	# HOW MANIFESTS WORK IN THE GN BUILD
	#
	# Use the windows_manifest template to declare a manifest generation step.
	# This will combine all listed .manifest files and generate a resource file
	# referencing the resulting manifest. To link this manifest, just depend on
	# the manifest target from your executable or shared library.
	#
	# This will define an empty placeholder target on non-Windows platforms so
	# the manifest declarations and dependencies do not need to be inside of OS
	# conditionals.
	#
	# Manifests uses different resource IDs for EXE and DLL targets. You will need
	# to specify this in the manifest target declaration and only use that manifest
	# target from the correct type of binary target.
	#
	# A binary can depend on only one manifest target, but the manifest target
	# can depend on many individual .manifest files which will be merged. As a
	# result, only executables and shared libraries should depend on manifest
	# targets. If you want to add a manifest to a component, put the dependency
	# behind a "if (is_component_build)" conditional.
	#
	# Generally you will just want the defaults for the Chrome build. In this case
	# the binary should just depend on one of the targets in //build/win/. There
	# are also individual manifest files in that directory you can reference via
	# the *_manifest variables defined below to pick and choose only some defaults.
	# You might combine these with a custom manifest file to get specific behavior.

	# Reference this manifest as a source from windows_manifest targets to get
	# the default Chrome OS compatibility list.
	default_compatibility_manifest = "//build/win/compatibility.manifest"

	# Reference this manifest as a source from windows_manifest targets to get
	# the default Chrome common constrols compatibility.
	common_controls_manifest = "//build/win/common_controls.manifest"

	# Reference this manifest to request that Windows not perform any elevation
	# when running your program. Otherwise, it might do some autodetection and
	# request elevated privileges from the user. This is normally what you want.
	as_invoker_manifest = "//build/win/as_invoker.manifest"

	# An alternative to as_invoker_manifest when you want the application to always
	# elevate.
	require_administrator_manifest = "//build/win/require_administrator.manifest"

	# Construct a target to combine the given manifest files into a .rc file.
	#
	# Variables for the windows_manifest template:
	#
	# sources: (required)
	# List of source .manifest files to add.
	#
	# type: "dll" or "exe" (required)
	# Indicates the type of target that this manifest will be used for.
	# DLLs and EXEs have different manifest resource IDs.
	#
	# deps: (optional)
	# visibility: (optional)
	# Normal meaning.
	#
	# Example:
	#
	# windows_manifest("doom_melon_manifest") {
	# sources = [
	# "doom_melon.manifest", # Custom values in here.
	# default_compatibility_manifest, # Want the normal OS compat list.
	# ]
	# type = "exe"
	# }
	#
	# executable("doom_melon") {
	# deps = [ ":doom_melon_manifest" ]
	# ...
	# }

	if (is_win) {
	# This is the environment file that gyp-win-tool will use for the current
	# toolchain. It is placed in root_build_dir by the toolchain setup. This
	# variable is the path relative to the root_build_dir which is what
	# gyp-win-tool expects as an argument.
	_environment_file = "environment.$current_cpu"

	template("windows_manifest") {
	manifest_action_name = "${target_name}__gen_manifest"
	rc_action_name = "${target_name}__gen_rc"
	source_set_name = target_name

	output_manifest = "$target_gen_dir/$source_set_name.manifest"
	rcfile = "$output_manifest.rc"

	# Make the final .manifest file.
	action(manifest_action_name) {
	visibility = [ ":$source_set_name" ]

	script = "$root_build_dir/gyp-win-tool"

	assert(defined(invoker.sources),
	"\"sources\" must be defined for a windows_manifest target")
	inputs = invoker.sources

	outputs = [
	output_manifest,
	]

	args = [
	"manifest-wrapper",
	_environment_file,
	"mt.exe",
	"-nologo",
	"-manifest",
	]
	args += rebase_path(invoker.sources, root_build_dir)
	args += [ "-out:" + rebase_path(output_manifest, root_build_dir) ]

	# Apply any dependencies from the invoker to this target, since those
	# dependencies may have created the input manifest files.
	forward_variables_from(invoker, [ "deps" ])
	}

	# Make the .rc file that references the final manifest file. The manifest
	# generation doesn't need to be a dependency because it's not actually
	# needed until the .rc is compiled.
	#
	# This could easily be combined into one step, but this current separation
	# of .manifest and .rc matches GYP and allows us to re-use gyp-win-tool.
	action(rc_action_name) {
	visibility = [ ":$source_set_name" ]

	script = "$root_build_dir/gyp-win-tool"

	outputs = [
	rcfile,
	]

	# EXEs have a resource ID of 1 for their manifest, DLLs use 2.
	assert(defined(invoker.type),
	"\"type\" must be defined for a windows_manifest")
	if (invoker.type == "exe") {
	manifest_resource_id = "1"
	} else if (invoker.type == "dll") {
	manifest_resource_id = "2"
	} else {
	assert(false, "Bad value of \"type\", Must be \"exe\" or \"dll\"")
	}

	args = [
	"manifest-to-rc",
	"$_environment_file",
	rebase_path(output_manifest),
	rebase_path(rcfile, root_build_dir),
	manifest_resource_id,
	]
	}

	# This source set only exists to compile and link the resource file.
	source_set(source_set_name) {
	forward_variables_from(invoker, [ "visibility" ])
	sources = [
	rcfile,
	]
	deps = [
	":$manifest_action_name",
	":$rc_action_name",
	]
	}
	}
	} else {
	# Make a no-op group on non-Windows platforms so windows_manifest
	# instantiations don't need to be inside windows blocks.
	template("windows_manifest") {
	group(target_name) {
	# Prevent unused variable warnings on non-Windows platforms.
	assert(invoker.type == "exe" \|\| invoker.type == "dll")
	assert(invoker.sources != "")
	assert(!defined(invoker.deps) \|\| invoker.deps != "")
	assert(!defined(invoker.visibility) \|\| invoker.visibility != "")
	}
	}
	}