pw_bloat/bloat.gni - platform/external/pigweed - Gitiles

 # Copyright 2019 The Pigweed Authors
 #
 # Licensed under the Apache License, Version 2.0 (the "License"); you may not
 # use this file except in compliance with the License. You may obtain a copy of
 # the License at
 #
 #     https://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 # License for the specific language governing permissions and limitations under
 # the License.

 # gn-format disable
 import("//build_overrides/pigweed.gni")

 import("$dir_pw_build/python_script.gni")
 declare_args() {
   # Path to the Bloaty configuration file that defines the memory layout and
   # capacities for the target binaries.
   pw_bloat_BLOATY_CONFIG = ""

   # List of toolchains to use in pw_toolchain_size_report templates.
   #
   # Each entry is a scope containing the following variables:
   #
   #   name: Human-readable toolchain name.
   #   target: GN target that defines the toolchain.
   #   linker_script: Optional path to a linker script file to build for the
   #     toolchain's target.
   #   bloaty_config: Optional Bloaty confirugation file defining the memory
   #     layout of the binaries as specified in the linker script.
   #
   # If this list is empty, pw_toolchain_size_report targets become no-ops.
   pw_bloat_TOOLCHAINS = []
 }

 # Creates a target which runs a size report diff on a set of executables.
 #
 # Args:
 #   base: The default base executable target to run the diff against. May be
 #     omitted if all binaries provide their own base.
 #   binaries: List of executables to compare in the diff.
 #     Each binary in the list is a scope containing up to three variables:
 #       label: Descriptive name for the executable. Required.
 #       target: Build target for the executable. Required.
 #       base: Optional base diff target. Overrides global base argument.
 #   source_filter: Optional regex to filter data source names in Bloaty.
 #   title: Optional title string to display with the size report.
 #   full_report: Optional boolean flag indicating whether to produce a full
 #     symbol size breakdown or a summary.
 #
 # Example:
 #   pw_size_report("foo_bloat") {
 #     base = ":foo_base"
 #     binaries = [
 #       {
 #         target = ":foo_static"
 #         label = "Static"
 #       },
 #       {
 #         target = ":foo_dynamic"
 #         label = "Dynamic"
 #       },
 #     ]
 #     title = "static vs. dynamic foo"
 #   }
 #
 template("pw_size_report") {
   if (pw_bloat_BLOATY_CONFIG != "") {
     if (defined(invoker.base)) {
       _global_base = invoker.base
       _all_target_dependencies = [ _global_base ]
     } else {
       _all_target_dependencies = []
     }

     if (defined(invoker.title)) {
       _title = invoker.title
     } else {
       _title = target_name
     }

     # This template creates an action which invokes a Python script to run a
     # size report on each of the provided targets. Each of the targets is listed
     # as a dependency of the action so that the report gets updated when
     # anything is changed. Most of the code below builds the command-line
     # arguments to pass each of the targets into the script.

     _binary_paths = []
     _binary_labels = []
     _bloaty_configs = []

     # Process each of the binaries, resolving their full output paths and
     # building them into a list of command-line arguments to the bloat script.
     foreach(binary, invoker.binaries) {
       assert(defined(binary.label) && defined(binary.target),
              "Size report binaries must define 'label' and 'target' variables")
       _all_target_dependencies += [ binary.target ]

       _target_dir = get_label_info(binary.target, "target_out_dir")
       _target_name = get_label_info(binary.target, "name")
       _binary_path = get_path_info(_target_dir, "abspath") + ":$_target_name"

       # If the binary defines its own base, use that instead of the global base.
       if (defined(binary.base)) {
         _binary_base = binary.base
         _all_target_dependencies += [ _binary_base ]
       } else if (defined(_global_base)) {
         _binary_base = _global_base
       } else {
         assert(false, "pw_size_report requires a 'base' file")
       }

       # Allow each binary to override the global bloaty config.
       if (defined(binary.bloaty_config)) {
         _bloaty_configs += [ get_path_info(binary.bloaty_config, "abspath") ]
       } else {
         _bloaty_configs += [ get_path_info(pw_bloat_BLOATY_CONFIG, "abspath") ]
       }

       _base_dir = get_label_info(_binary_base, "target_out_dir")
       _base_name = get_label_info(_binary_base, "name")
       _binary_path += ";" + get_path_info(_base_dir, "abspath") + ":$_base_name"

       _binary_paths += [ _binary_path ]
       _binary_labels += [ binary.label ]
     }

     _bloat_script_args = [
       "--bloaty-config",
       string_join(";", _bloaty_configs),
       "--out-dir",
       target_gen_dir,
       "--target",
       target_name,
       "--title",
       _title,
       "--labels",
       string_join(";", _binary_labels),
     ]

     if (defined(invoker.full_report) && invoker.full_report) {
       _bloat_script_args += [ "--full" ]
     }

     if (defined(invoker.source_filter)) {
       _bloat_script_args += [
         "--source-filter",
         invoker.source_filter,
       ]
     }

     _doc_rst_output = "$target_gen_dir/${target_name}"

     # TODO(frolv): Size reports are temporarily disabled pending the toolchain
     # refactor.
     if (true || host_os == "win") {
       # Bloaty is not yet packaged for Windows systems; display a message
       # indicating this.
       not_needed("*")
       not_needed(invoker, "*")

       pw_python_script(target_name) {
         metadata = {
           pw_doc_sources = rebase_path([ _doc_rst_output ], root_build_dir)
         }
         script = "$dir_pw_bloat/py/no_bloaty.py"
         args = [ _doc_rst_output ]
         outputs = [ _doc_rst_output ]
       }

       group(target_name + "_UNUSED_DEPS") {
         deps = _all_target_dependencies
       }
     } else {
       # Create an action which runs the size report script on the provided
       # targets.
       pw_python_script(target_name) {
         metadata = {
           pw_doc_sources = rebase_path([ _doc_rst_output ], root_build_dir)
         }
         script = "$dir_pw_bloat/py/bloat.py"
         inputs = [
                    "$dir_pw_bloat/py/binary_diff.py",
                    "$dir_pw_bloat/py/bloat_output.py",
                  ] + _bloaty_configs
         outputs = [
           "$target_gen_dir/${target_name}.txt",
           _doc_rst_output,
         ]
         deps = _all_target_dependencies
         args = _bloat_script_args + _binary_paths

         # Print size reports to stdout when they are generated.
         capture_output = false
       }
     }
   } else {
     not_needed(invoker, "*")
     group(target_name) {
     }
   }
 }

 # Creates a report card comparing the sizes of the same binary compiled with
 # different toolchains. The toolchains to use are listed in the build variable
 # pw_bloat_TOOLCHAINS.
 #
 # Args:
 #   base_executable: Scope containing a list of variables defining an executable
 #     target for the size report base.
 #   diff_executable: Scope containing a list of variables defining an executable
 #     target for the size report comparison.
 #
 # Outputs:
 #   $target_gen_dir/$target_name.txt
 #   $target_gen_dir/$target_name.rst
 #
 # Example:
 #
 #   pw_toolchain_size_report("my_size_report") {
 #     base_executable = {
 #       sources = [ "base.cc" ]
 #     }
 #
 #     diff_executable = {
 #       sources = [ "base_with_libfoo.cc" ]
 #       deps = [ ":libfoo" ]
 #     }
 #   }
 #
 template("pw_toolchain_size_report") {
   assert(defined(invoker.base_executable),
          "pw_toolchain_size_report requires a base_executable")
   assert(defined(invoker.diff_executable),
          "pw_toolchain_size_report requires a diff_executable")

   _size_report_binaries = []

   # Multiple build targets are created for each toolchain, which all need unique
   # target names, so throw a counter in there.
   i = 0

   # Create a base and diff executable for each toolchain, adding the toolchain's
   # linker script to the link flags for the executable, and add them all to a
   # list of binaries for the pw_size_report template.
   foreach(_toolchain, pw_bloat_TOOLCHAINS) {
     _prefix = "_${target_name}_${i}_pw_size"

     # Create a config which adds the toolchain's linker script as a linker flag
     # if the toolchain provides one.
     _linker_script_target_name = "${_prefix}_linker_script"
     config(_linker_script_target_name) {
       if (defined(_toolchain.linker_script)) {
         ldflags = [ "-T" + rebase_path(_toolchain.linker_script) ]
         inputs = [ _toolchain.linker_script ]
       } else {
         ldflags = []
       }
     }

     # Create a group which forces the linker script config its dependents.
     _linker_group_target_name = "${_prefix}_linker_group"
     group(_linker_group_target_name) {
       public_configs = [ ":$_linker_script_target_name" ]
     }

     # Define the size report base executable with the toolchain's linker script.
     _base_target_name = "${_prefix}_base"
     executable(_base_target_name) {
       forward_variables_from(invoker.base_executable, "*")
       if (!defined(deps)) {
         deps = []
       }
       deps += [ ":$_linker_group_target_name" ]
     }

     # Define the size report diff executable with the toolchain's linker script.
     _diff_target_name = "${_prefix}_diff"
     executable(_diff_target_name) {
       forward_variables_from(invoker.diff_executable, "*")
       if (!defined(deps)) {
         deps = []
       }
       deps += [ ":$_linker_group_target_name" ]
     }

     # Force compilation with the toolchain.
     _base_label = get_label_info(":$_base_target_name", "label_no_toolchain")
     _base_with_toolchain = "$_base_label(${_toolchain.target})"
     _diff_label = get_label_info(":$_diff_target_name", "label_no_toolchain")
     _diff_with_toolchain = "$_diff_label(${_toolchain.target})"

     # Append a pw_size_report binary scope to the list comparing the toolchain's
     # diff and base executables.
     _size_report_binaries += [
       {
         base = _base_with_toolchain
         target = _diff_with_toolchain
         label = _toolchain.name

         if (defined(_toolchain.bloaty_config)) {
           bloaty_config = _toolchain.bloaty_config
         }
       },
     ]

     i += 1
   }

   # TODO(frolv): Have a way of indicating that a toolchain should build docs.
   if (current_toolchain == default_toolchain && _size_report_binaries != []) {
     # Create the size report which runs on the binaries.
     pw_size_report(target_name) {
       forward_variables_from(invoker, [ "title" ])
       binaries = _size_report_binaries
     }
   } else {
     # If no toolchains are listed in pw_bloat_TOOLCHAINS, prevent GN from
     # complaining about unused variables and run a script that outputs a ReST
     # warning to the size report file.
     not_needed("*")
     not_needed(invoker, "*")

     _doc_rst_output = "$target_gen_dir/$target_name"
     pw_python_script(target_name) {
       metadata = {
         pw_doc_sources = rebase_path([ _doc_rst_output ], root_build_dir)
       }
       script = "$dir_pw_bloat/py/no_toolchains.py"
       args = [ _doc_rst_output ]
       outputs = [ _doc_rst_output ]
     }
   }
 }

 # A base_executable for the pw_toolchain_size_report template which contains a
 # main() function that loads the bloat_this_binary library and does nothing
 # else.
 pw_bloat_empty_base = {
   deps = [
     "$dir_pw_bloat:base_main",
     "$dir_pw_bloat:bloat_this_binary",
   ]
 }
	# Copyright 2019 The Pigweed Authors
	#
	# Licensed under the Apache License, Version 2.0 (the "License"); you may not
	# use this file except in compliance with the License. You may obtain a copy of
	# the License at
	#
	# https://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
	# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
	# License for the specific language governing permissions and limitations under
	# the License.

	# gn-format disable
	import("//build_overrides/pigweed.gni")

	import("$dir_pw_build/python_script.gni")
	declare_args() {
	# Path to the Bloaty configuration file that defines the memory layout and
	# capacities for the target binaries.
	pw_bloat_BLOATY_CONFIG = ""

	# List of toolchains to use in pw_toolchain_size_report templates.
	#
	# Each entry is a scope containing the following variables:
	#
	# name: Human-readable toolchain name.
	# target: GN target that defines the toolchain.
	# linker_script: Optional path to a linker script file to build for the
	# toolchain's target.
	# bloaty_config: Optional Bloaty confirugation file defining the memory
	# layout of the binaries as specified in the linker script.
	#
	# If this list is empty, pw_toolchain_size_report targets become no-ops.
	pw_bloat_TOOLCHAINS = []
	}

	# Creates a target which runs a size report diff on a set of executables.
	#
	# Args:
	# base: The default base executable target to run the diff against. May be
	# omitted if all binaries provide their own base.
	# binaries: List of executables to compare in the diff.
	# Each binary in the list is a scope containing up to three variables:
	# label: Descriptive name for the executable. Required.
	# target: Build target for the executable. Required.
	# base: Optional base diff target. Overrides global base argument.
	# source_filter: Optional regex to filter data source names in Bloaty.
	# title: Optional title string to display with the size report.
	# full_report: Optional boolean flag indicating whether to produce a full
	# symbol size breakdown or a summary.
	#
	# Example:
	# pw_size_report("foo_bloat") {
	# base = ":foo_base"
	# binaries = [
	# {
	# target = ":foo_static"
	# label = "Static"
	# },
	# {
	# target = ":foo_dynamic"
	# label = "Dynamic"
	# },
	# ]
	# title = "static vs. dynamic foo"
	# }
	#
	template("pw_size_report") {
	if (pw_bloat_BLOATY_CONFIG != "") {
	if (defined(invoker.base)) {
	_global_base = invoker.base
	_all_target_dependencies = [ _global_base ]
	} else {
	_all_target_dependencies = []
	}

	if (defined(invoker.title)) {
	_title = invoker.title
	} else {
	_title = target_name
	}

	# This template creates an action which invokes a Python script to run a
	# size report on each of the provided targets. Each of the targets is listed
	# as a dependency of the action so that the report gets updated when
	# anything is changed. Most of the code below builds the command-line
	# arguments to pass each of the targets into the script.

	_binary_paths = []
	_binary_labels = []
	_bloaty_configs = []

	# Process each of the binaries, resolving their full output paths and
	# building them into a list of command-line arguments to the bloat script.
	foreach(binary, invoker.binaries) {
	assert(defined(binary.label) && defined(binary.target),
	"Size report binaries must define 'label' and 'target' variables")
	_all_target_dependencies += [ binary.target ]

	_target_dir = get_label_info(binary.target, "target_out_dir")
	_target_name = get_label_info(binary.target, "name")
	_binary_path = get_path_info(_target_dir, "abspath") + ":$_target_name"

	# If the binary defines its own base, use that instead of the global base.
	if (defined(binary.base)) {
	_binary_base = binary.base
	_all_target_dependencies += [ _binary_base ]
	} else if (defined(_global_base)) {
	_binary_base = _global_base
	} else {
	assert(false, "pw_size_report requires a 'base' file")
	}

	# Allow each binary to override the global bloaty config.
	if (defined(binary.bloaty_config)) {
	_bloaty_configs += [ get_path_info(binary.bloaty_config, "abspath") ]
	} else {
	_bloaty_configs += [ get_path_info(pw_bloat_BLOATY_CONFIG, "abspath") ]
	}

	_base_dir = get_label_info(_binary_base, "target_out_dir")
	_base_name = get_label_info(_binary_base, "name")
	_binary_path += ";" + get_path_info(_base_dir, "abspath") + ":$_base_name"

	_binary_paths += [ _binary_path ]
	_binary_labels += [ binary.label ]
	}

	_bloat_script_args = [
	"--bloaty-config",
	string_join(";", _bloaty_configs),
	"--out-dir",
	target_gen_dir,
	"--target",
	target_name,
	"--title",
	_title,
	"--labels",
	string_join(";", _binary_labels),
	]

	if (defined(invoker.full_report) && invoker.full_report) {
	_bloat_script_args += [ "--full" ]
	}

	if (defined(invoker.source_filter)) {
	_bloat_script_args += [
	"--source-filter",
	invoker.source_filter,
	]
	}

	_doc_rst_output = "$target_gen_dir/${target_name}"

	# TODO(frolv): Size reports are temporarily disabled pending the toolchain
	# refactor.
	if (true \|\| host_os == "win") {
	# Bloaty is not yet packaged for Windows systems; display a message
	# indicating this.
	not_needed("*")
	not_needed(invoker, "*")

	pw_python_script(target_name) {
	metadata = {
	pw_doc_sources = rebase_path([ _doc_rst_output ], root_build_dir)
	}
	script = "$dir_pw_bloat/py/no_bloaty.py"
	args = [ _doc_rst_output ]
	outputs = [ _doc_rst_output ]
	}

	group(target_name + "_UNUSED_DEPS") {
	deps = _all_target_dependencies
	}
	} else {
	# Create an action which runs the size report script on the provided
	# targets.
	pw_python_script(target_name) {
	metadata = {
	pw_doc_sources = rebase_path([ _doc_rst_output ], root_build_dir)
	}
	script = "$dir_pw_bloat/py/bloat.py"
	inputs = [
	"$dir_pw_bloat/py/binary_diff.py",
	"$dir_pw_bloat/py/bloat_output.py",
	] + _bloaty_configs
	outputs = [
	"$target_gen_dir/${target_name}.txt",
	_doc_rst_output,
	]
	deps = _all_target_dependencies
	args = _bloat_script_args + _binary_paths

	# Print size reports to stdout when they are generated.
	capture_output = false
	}
	}
	} else {
	not_needed(invoker, "*")
	group(target_name) {
	}
	}
	}

	# Creates a report card comparing the sizes of the same binary compiled with
	# different toolchains. The toolchains to use are listed in the build variable
	# pw_bloat_TOOLCHAINS.
	#
	# Args:
	# base_executable: Scope containing a list of variables defining an executable
	# target for the size report base.
	# diff_executable: Scope containing a list of variables defining an executable
	# target for the size report comparison.
	#
	# Outputs:
	# $target_gen_dir/$target_name.txt
	# $target_gen_dir/$target_name.rst
	#
	# Example:
	#
	# pw_toolchain_size_report("my_size_report") {
	# base_executable = {
	# sources = [ "base.cc" ]
	# }
	#
	# diff_executable = {
	# sources = [ "base_with_libfoo.cc" ]
	# deps = [ ":libfoo" ]
	# }
	# }
	#
	template("pw_toolchain_size_report") {
	assert(defined(invoker.base_executable),
	"pw_toolchain_size_report requires a base_executable")
	assert(defined(invoker.diff_executable),
	"pw_toolchain_size_report requires a diff_executable")

	_size_report_binaries = []

	# Multiple build targets are created for each toolchain, which all need unique
	# target names, so throw a counter in there.
	i = 0

	# Create a base and diff executable for each toolchain, adding the toolchain's
	# linker script to the link flags for the executable, and add them all to a
	# list of binaries for the pw_size_report template.
	foreach(_toolchain, pw_bloat_TOOLCHAINS) {
	_prefix = "_${target_name}_${i}_pw_size"

	# Create a config which adds the toolchain's linker script as a linker flag
	# if the toolchain provides one.
	_linker_script_target_name = "${_prefix}_linker_script"
	config(_linker_script_target_name) {
	if (defined(_toolchain.linker_script)) {
	ldflags = [ "-T" + rebase_path(_toolchain.linker_script) ]
	inputs = [ _toolchain.linker_script ]
	} else {
	ldflags = []
	}
	}

	# Create a group which forces the linker script config its dependents.
	_linker_group_target_name = "${_prefix}_linker_group"
	group(_linker_group_target_name) {
	public_configs = [ ":$_linker_script_target_name" ]
	}

	# Define the size report base executable with the toolchain's linker script.
	_base_target_name = "${_prefix}_base"
	executable(_base_target_name) {
	forward_variables_from(invoker.base_executable, "*")
	if (!defined(deps)) {
	deps = []
	}
	deps += [ ":$_linker_group_target_name" ]
	}

	# Define the size report diff executable with the toolchain's linker script.
	_diff_target_name = "${_prefix}_diff"
	executable(_diff_target_name) {
	forward_variables_from(invoker.diff_executable, "*")
	if (!defined(deps)) {
	deps = []
	}
	deps += [ ":$_linker_group_target_name" ]
	}

	# Force compilation with the toolchain.
	_base_label = get_label_info(":$_base_target_name", "label_no_toolchain")
	_base_with_toolchain = "$_base_label(${_toolchain.target})"
	_diff_label = get_label_info(":$_diff_target_name", "label_no_toolchain")
	_diff_with_toolchain = "$_diff_label(${_toolchain.target})"

	# Append a pw_size_report binary scope to the list comparing the toolchain's
	# diff and base executables.
	_size_report_binaries += [
	{
	base = _base_with_toolchain
	target = _diff_with_toolchain
	label = _toolchain.name

	if (defined(_toolchain.bloaty_config)) {
	bloaty_config = _toolchain.bloaty_config
	}
	},
	]

	i += 1
	}

	# TODO(frolv): Have a way of indicating that a toolchain should build docs.
	if (current_toolchain == default_toolchain && _size_report_binaries != []) {
	# Create the size report which runs on the binaries.
	pw_size_report(target_name) {
	forward_variables_from(invoker, [ "title" ])
	binaries = _size_report_binaries
	}
	} else {
	# If no toolchains are listed in pw_bloat_TOOLCHAINS, prevent GN from
	# complaining about unused variables and run a script that outputs a ReST
	# warning to the size report file.
	not_needed("*")
	not_needed(invoker, "*")

	_doc_rst_output = "$target_gen_dir/$target_name"
	pw_python_script(target_name) {
	metadata = {
	pw_doc_sources = rebase_path([ _doc_rst_output ], root_build_dir)
	}
	script = "$dir_pw_bloat/py/no_toolchains.py"
	args = [ _doc_rst_output ]
	outputs = [ _doc_rst_output ]
	}
	}
	}

	# A base_executable for the pw_toolchain_size_report template which contains a
	# main() function that loads the bloat_this_binary library and does nothing
	# else.
	pw_bloat_empty_base = {
	deps = [
	"$dir_pw_bloat:base_main",
	"$dir_pw_bloat:bloat_this_binary",
	]
	}