tools/gn_utils.py - platform/external/perfetto - Gitiles

 # Copyright (C) 2019 The Android Open Source Project
 #
 # 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
 #
 #      http://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.

 # A collection of utilities for extracting build rule information from GN
 # projects.

 from __future__ import print_function
 import errno
 import filecmp
 import json
 import os
 import re
 import shutil
 import subprocess
 import sys
 from compat import iteritems

 BUILDFLAGS_TARGET = '//gn:gen_buildflags'
 TARGET_TOOLCHAIN = '//gn/standalone/toolchain:gcc_like_host'
 HOST_TOOLCHAIN = '//gn/standalone/toolchain:gcc_like_host'
 LINKER_UNIT_TYPES = ('executable', 'shared_library', 'static_library')


 def _check_command_output(cmd, cwd):
   try:
     output = subprocess.check_output(cmd, stderr=subprocess.STDOUT, cwd=cwd)
   except subprocess.CalledProcessError as e:
     print(
         'Command "{}" failed in {}:'.format(' '.join(cmd), cwd),
         file=sys.stderr)
     print(e.output, file=sys.stderr)
     sys.exit(1)
   else:
     return output


 def repo_root():
   """Returns an absolute path to the repository root."""
   return os.path.join(
       os.path.realpath(os.path.dirname(__file__)), os.path.pardir)


 def _tool_path(name):
   return os.path.join(repo_root(), 'tools', name)


 def prepare_out_directory(gn_args, name, root=repo_root()):
   """Creates the JSON build description by running GN.

     Returns (path, desc) where |path| is the location of the output directory
     and |desc| is the JSON build description.
     """
   out = os.path.join(root, 'out', name)
   try:
     os.makedirs(out)
   except OSError as e:
     if e.errno != errno.EEXIST:
       raise
   _check_command_output([_tool_path('gn'), 'gen', out,
                          '--args=%s' % gn_args],
                         cwd=repo_root())
   return out


 def load_build_description(out):
   """Creates the JSON build description by running GN."""
   desc = _check_command_output([
       _tool_path('gn'), 'desc', out, '--format=json', '--all-toolchains', '//*'
   ],
                                cwd=repo_root())
   return json.loads(desc)


 def create_build_description(gn_args, root=repo_root()):
   """Prepares a GN out directory and loads the build description from it.

     The temporary out directory is automatically deleted.
     """
   out = prepare_out_directory(gn_args, 'tmp.gn_utils', root=root)
   try:
     return load_build_description(out)
   finally:
     shutil.rmtree(out)


 def build_targets(out, targets, quiet=False):
   """Runs ninja to build a list of GN targets in the given out directory.

     Compiling these targets is required so that we can include any generated
     source files in the amalgamated result.
     """
   targets = [t.replace('//', '') for t in targets]
   with open(os.devnull, 'w') as devnull:
     stdout = devnull if quiet else None
     subprocess.check_call(
         [_tool_path('ninja')] + targets, cwd=out, stdout=stdout)


 def compute_source_dependencies(out):
   """For each source file, computes a set of headers it depends on."""
   ninja_deps = _check_command_output([_tool_path('ninja'), '-t', 'deps'],
                                      cwd=out)
   deps = {}
   current_source = None
   for line in ninja_deps.split('\n'):
     filename = os.path.relpath(os.path.join(out, line.strip()))
     if not line or line[0] != ' ':
       current_source = None
       continue
     elif not current_source:
       # We're assuming the source file is always listed before the
       # headers.
       assert os.path.splitext(line)[1] in ['.c', '.cc', '.cpp', '.S']
       current_source = filename
       deps[current_source] = []
     else:
       assert current_source
       deps[current_source].append(filename)
   return deps


 def label_to_path(label):
   """Turn a GN output label (e.g., //some_dir/file.cc) into a path."""
   assert label.startswith('//')
   return label[2:]


 def label_without_toolchain(label):
   """Strips the toolchain from a GN label.

     Return a GN label (e.g //buildtools:protobuf(//gn/standalone/toolchain:
     gcc_like_host) without the parenthesised toolchain part.
     """
   return label.split('(')[0]


 def label_to_target_name_with_path(label):
   """
   Turn a GN label into a target name involving the full path.
   e.g., //src/perfetto:tests -> src_perfetto_tests
   """
   name = re.sub(r'^//:?', '', label)
   name = re.sub(r'[^a-zA-Z0-9_]', '_', name)
   return name


 def gen_buildflags(gn_args, target_file):
   """Generates the perfetto_build_flags.h for the given config.

     target_file: the path, relative to the repo root, where the generated
         buildflag header will be copied into.
     """
   tmp_out = prepare_out_directory(gn_args, 'tmp.gen_buildflags')
   build_targets(tmp_out, [BUILDFLAGS_TARGET], quiet=True)
   src = os.path.join(tmp_out, 'gen', 'build_config', 'perfetto_build_flags.h')
   shutil.copy(src, os.path.join(repo_root(), target_file))
   shutil.rmtree(tmp_out)


 def check_or_commit_generated_files(tmp_files, check):
   """Checks that gen files are unchanged or renames them to the final location

     Takes in input a list of 'xxx.swp' files that have been written.
     If check == False, it renames xxx.swp -> xxx.
     If check == True, it just checks that the contents of 'xxx.swp' == 'xxx'.
     Returns 0 if no diff was detected, 1 otherwise (to be used as exit code).
     """
   res = 0
   for tmp_file in tmp_files:
     assert (tmp_file.endswith('.swp'))
     target_file = os.path.relpath(tmp_file[:-4])
     if check:
       if not filecmp.cmp(tmp_file, target_file):
         sys.stderr.write('%s needs to be regenerated\n' % target_file)
         res = 1
       os.unlink(tmp_file)
     else:
       os.rename(tmp_file, target_file)
   return res


 class GnParser(object):
   """A parser with some cleverness for GN json desc files

     The main goals of this parser are:
     1) Deal with the fact that other build systems don't have an equivalent
        notion to GN's source_set. Conversely to Bazel's and Soong's filegroups,
        GN source_sets expect that dependencies, cflags and other source_set
        properties propagate up to the linker unit (static_library, executable or
        shared_library). This parser simulates the same behavior: when a
        source_set is encountered, some of its variables (cflags and such) are
        copied up to the dependent targets. This is to allow gen_xxx to create
        one filegroup for each source_set and then squash all the other flags
        onto the linker unit.
     2) Detect and special-case protobuf targets, figuring out the protoc-plugin
        being used.
     """

   class Target(object):
     """Reperesents A GN target.

         Maked properties are propagated up the dependency chain when a
         source_set dependency is encountered.
         """

     def __init__(self, name, type):
       self.name = name  # e.g. //src/ipc:ipc

       VALID_TYPES = ('static_library', 'shared_library', 'executable', 'group',
                      'action', 'source_set', 'proto_library')
       assert (type in VALID_TYPES)
       self.type = type
       self.testonly = False
       self.toolchain = None

       # Only set when type == proto_library.
       # This is typically: 'proto', 'protozero', 'ipc'.
       self.proto_plugin = None

       self.sources = set()

       # These are valid only for type == 'action'
       self.inputs = set()
       self.outputs = set()
       self.script = None
       self.args = []

       # These variables are propagated up when encountering a dependency
       # on a source_set target.
       self.cflags = set()
       self.defines = set()
       self.deps = set()
       self.libs = set()
       self.include_dirs = set()
       self.ldflags = set()
       self.source_set_deps = set()  # Transitive set of source_set deps.
       self.proto_deps = set()  # Transitive set of protobuf deps.

       # Deps on //gn:xxx have this flag set to True. These dependencies
       # are special because they pull third_party code from buildtools/.
       # We don't want to keep recursing into //buildtools in generators,
       # this flag is used to stop the recursion and create an empty
       # placeholder target once we hit //gn:protoc or similar.
       self.is_third_party_dep_ = False

     def __lt__(self, other):
       if isinstance(other, self.__class__):
         return self.name < other.name
       raise TypeError(
           '\'<\' not supported between instances of \'%s\' and \'%s\'' %
           (type(self).__name__, type(other).__name__))

     def __repr__(self):
       return json.dumps({
           k: (list(sorted(v)) if isinstance(v, set) else v)
           for (k, v) in iteritems(self.__dict__)
       },
                         indent=4,
                         sort_keys=True)

     def update(self, other):
       for key in ('cflags', 'defines', 'deps', 'include_dirs', 'ldflags',
                   'source_set_deps', 'proto_deps', 'libs'):
         self.__dict__[key].update(other.__dict__.get(key, []))

   def __init__(self, gn_desc):
     self.gn_desc_ = gn_desc
     self.all_targets = {}
     self.linker_units = {}  # Executables, shared or static libraries.
     self.source_sets = {}
     self.actions = {}
     self.proto_libs = {}

   def get_target(self, gn_target_name):
     """Returns a Target object from the fully qualified GN target name.

         It bubbles up variables from source_set dependencies as described in the
         class-level comments.
         """
     target = self.all_targets.get(gn_target_name)
     if target is not None:
       return target  # Taraget already processed.

     desc = self.gn_desc_[gn_target_name]
     target = GnParser.Target(gn_target_name, desc['type'])
     target.testonly = desc.get('testonly', False)
     target.toolchain = desc.get('toolchain', None)
     self.all_targets[gn_target_name] = target

     # We should never have GN targets directly depend on buidtools. They
     # should hop via //gn:xxx, so we can give generators an opportunity to
     # override them.
     assert (not gn_target_name.startswith('//buildtools'))

     # Don't descend further into third_party targets. Genrators are supposed
     # to either ignore them or route to other externally-provided targets.
     if gn_target_name.startswith('//gn'):
       target.is_third_party_dep_ = True
       return target

     proto_target_type, proto_desc = self.get_proto_target_type_(target)
     if proto_target_type is not None:
       self.proto_libs[target.name] = target
       target.type = 'proto_library'
       target.proto_plugin = proto_target_type
       target.sources.update(proto_desc.get('sources', []))
       assert (all(x.endswith('.proto') for x in target.sources))
     elif target.type == 'source_set':
       self.source_sets[gn_target_name] = target
       target.sources.update(desc.get('sources', []))
     elif target.type in LINKER_UNIT_TYPES:
       self.linker_units[gn_target_name] = target
       target.sources.update(desc.get('sources', []))
     elif target.type == 'action':
       self.actions[gn_target_name] = target
       target.inputs.update(desc['inputs'])
       outs = [re.sub('^//out/.+?/gen/', '', x) for x in desc['outputs']]
       target.outputs.update(outs)
       target.script = desc['script']
       # Args are typically relative to the root build dir (../../xxx)
       # because root build dir is typically out/xxx/).
       target.args = [re.sub('^../../', '//', x) for x in desc['args']]

     target.cflags.update(desc.get('cflags', []) + desc.get('cflags_cc', []))
     target.libs.update(desc.get('libs', []))
     target.ldflags.update(desc.get('ldflags', []))
     target.defines.update(desc.get('defines', []))
     target.include_dirs.update(desc.get('include_dirs', []))

     # Recurse in dependencies.
     for dep_name in desc.get('deps', []):
       dep = self.get_target(dep_name)
       if dep.is_third_party_dep_:
         target.deps.add(dep_name)
       elif dep.type == 'proto_library':
         target.proto_deps.add(dep_name)
         target.proto_deps.update(dep.proto_deps)  # Bubble up deps.
       elif dep.type == 'source_set':
         target.source_set_deps.add(dep_name)
         target.update(dep)  # Bubble up source set's cflags/ldflags etc.
       elif dep.type == 'group':
         target.update(dep)  # Bubble up groups's cflags/ldflags etc.
       elif dep.type == 'action':
         if proto_target_type is None:
           target.deps.add(dep_name)
       elif dep.type in LINKER_UNIT_TYPES:
         target.deps.add(dep_name)

     return target

   def get_proto_target_type_(self, target):
     """ Checks if the target is a proto library and return the plugin.

         Returns:
             (None, None): if the target is not a proto library.
             (plugin, gen_desc) where |plugin| is 'proto' in the default (lite)
             case or 'protozero' or 'ipc'; |gen_desc| is the GN json descriptor
             of the _gen target (the one with .proto sources).
         """
     parts = target.name.split('(', 1)
     name = parts[0]
     toolchain = '(' + parts[1] if len(parts) > 1 else ''
     gen_desc = self.gn_desc_.get('%s_gen%s' % (name, toolchain))
     if gen_desc is None or gen_desc['type'] != 'action':
       return None, None
     args = gen_desc.get('args', [])
     if '/protoc' not in args[0]:
       return None, None
     plugin = 'proto'
     for arg in (arg for arg in args if arg.startswith('--plugin=')):
       # |arg| at this point looks like:
       #  --plugin=protoc-gen-plugin=gcc_like_host/protozero_plugin
       # or
       #  --plugin=protoc-gen-plugin=protozero_plugin
       plugin = arg.split('=')[-1].split('/')[-1].replace('_plugin', '')
     return plugin, gen_desc
	# Copyright (C) 2019 The Android Open Source Project
	#
	# 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
	#
	# http://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.

	# A collection of utilities for extracting build rule information from GN
	# projects.

	from __future__ import print_function
	import errno
	import filecmp
	import json
	import os
	import re
	import shutil
	import subprocess
	import sys
	from compat import iteritems

	BUILDFLAGS_TARGET = '//gn:gen_buildflags'
	TARGET_TOOLCHAIN = '//gn/standalone/toolchain:gcc_like_host'
	HOST_TOOLCHAIN = '//gn/standalone/toolchain:gcc_like_host'
	LINKER_UNIT_TYPES = ('executable', 'shared_library', 'static_library')


	def _check_command_output(cmd, cwd):
	try:
	output = subprocess.check_output(cmd, stderr=subprocess.STDOUT, cwd=cwd)
	except subprocess.CalledProcessError as e:
	print(
	'Command "{}" failed in {}:'.format(' '.join(cmd), cwd),
	file=sys.stderr)
	print(e.output, file=sys.stderr)
	sys.exit(1)
	else:
	return output


	def repo_root():
	"""Returns an absolute path to the repository root."""
	return os.path.join(
	os.path.realpath(os.path.dirname(__file__)), os.path.pardir)


	def _tool_path(name):
	return os.path.join(repo_root(), 'tools', name)


	def prepare_out_directory(gn_args, name, root=repo_root()):
	"""Creates the JSON build description by running GN.

	Returns (path, desc) where \|path\| is the location of the output directory
	and \|desc\| is the JSON build description.
	"""
	out = os.path.join(root, 'out', name)
	try:
	os.makedirs(out)
	except OSError as e:
	if e.errno != errno.EEXIST:
	raise
	_check_command_output([_tool_path('gn'), 'gen', out,
	'--args=%s' % gn_args],
	cwd=repo_root())
	return out


	def load_build_description(out):
	"""Creates the JSON build description by running GN."""
	desc = _check_command_output([
	_tool_path('gn'), 'desc', out, '--format=json', '--all-toolchains', '//*'
	],
	cwd=repo_root())
	return json.loads(desc)


	def create_build_description(gn_args, root=repo_root()):
	"""Prepares a GN out directory and loads the build description from it.

	The temporary out directory is automatically deleted.
	"""
	out = prepare_out_directory(gn_args, 'tmp.gn_utils', root=root)
	try:
	return load_build_description(out)
	finally:
	shutil.rmtree(out)


	def build_targets(out, targets, quiet=False):
	"""Runs ninja to build a list of GN targets in the given out directory.

	Compiling these targets is required so that we can include any generated
	source files in the amalgamated result.
	"""
	targets = [t.replace('//', '') for t in targets]
	with open(os.devnull, 'w') as devnull:
	stdout = devnull if quiet else None
	subprocess.check_call(
	[_tool_path('ninja')] + targets, cwd=out, stdout=stdout)


	def compute_source_dependencies(out):
	"""For each source file, computes a set of headers it depends on."""
	ninja_deps = _check_command_output([_tool_path('ninja'), '-t', 'deps'],
	cwd=out)
	deps = {}
	current_source = None
	for line in ninja_deps.split('\n'):
	filename = os.path.relpath(os.path.join(out, line.strip()))
	if not line or line[0] != ' ':
	current_source = None
	continue
	elif not current_source:
	# We're assuming the source file is always listed before the
	# headers.
	assert os.path.splitext(line)[1] in ['.c', '.cc', '.cpp', '.S']
	current_source = filename
	deps[current_source] = []
	else:
	assert current_source
	deps[current_source].append(filename)
	return deps


	def label_to_path(label):
	"""Turn a GN output label (e.g., //some_dir/file.cc) into a path."""
	assert label.startswith('//')
	return label[2:]


	def label_without_toolchain(label):
	"""Strips the toolchain from a GN label.

	Return a GN label (e.g //buildtools:protobuf(//gn/standalone/toolchain:
	gcc_like_host) without the parenthesised toolchain part.
	"""
	return label.split('(')[0]


	def label_to_target_name_with_path(label):
	"""
	Turn a GN label into a target name involving the full path.
	e.g., //src/perfetto:tests -> src_perfetto_tests
	"""
	name = re.sub(r'^//:?', '', label)
	name = re.sub(r'[^a-zA-Z0-9_]', '_', name)
	return name


	def gen_buildflags(gn_args, target_file):
	"""Generates the perfetto_build_flags.h for the given config.

	target_file: the path, relative to the repo root, where the generated
	buildflag header will be copied into.
	"""
	tmp_out = prepare_out_directory(gn_args, 'tmp.gen_buildflags')
	build_targets(tmp_out, [BUILDFLAGS_TARGET], quiet=True)
	src = os.path.join(tmp_out, 'gen', 'build_config', 'perfetto_build_flags.h')
	shutil.copy(src, os.path.join(repo_root(), target_file))
	shutil.rmtree(tmp_out)


	def check_or_commit_generated_files(tmp_files, check):
	"""Checks that gen files are unchanged or renames them to the final location

	Takes in input a list of 'xxx.swp' files that have been written.
	If check == False, it renames xxx.swp -> xxx.
	If check == True, it just checks that the contents of 'xxx.swp' == 'xxx'.
	Returns 0 if no diff was detected, 1 otherwise (to be used as exit code).
	"""
	res = 0
	for tmp_file in tmp_files:
	assert (tmp_file.endswith('.swp'))
	target_file = os.path.relpath(tmp_file[:-4])
	if check:
	if not filecmp.cmp(tmp_file, target_file):
	sys.stderr.write('%s needs to be regenerated\n' % target_file)
	res = 1
	os.unlink(tmp_file)
	else:
	os.rename(tmp_file, target_file)
	return res


	class GnParser(object):
	"""A parser with some cleverness for GN json desc files

	The main goals of this parser are:
	1) Deal with the fact that other build systems don't have an equivalent
	notion to GN's source_set. Conversely to Bazel's and Soong's filegroups,
	GN source_sets expect that dependencies, cflags and other source_set
	properties propagate up to the linker unit (static_library, executable or
	shared_library). This parser simulates the same behavior: when a
	source_set is encountered, some of its variables (cflags and such) are
	copied up to the dependent targets. This is to allow gen_xxx to create
	one filegroup for each source_set and then squash all the other flags
	onto the linker unit.
	2) Detect and special-case protobuf targets, figuring out the protoc-plugin
	being used.
	"""

	class Target(object):
	"""Reperesents A GN target.

	Maked properties are propagated up the dependency chain when a
	source_set dependency is encountered.
	"""

	def __init__(self, name, type):
	self.name = name # e.g. //src/ipc:ipc

	VALID_TYPES = ('static_library', 'shared_library', 'executable', 'group',
	'action', 'source_set', 'proto_library')
	assert (type in VALID_TYPES)
	self.type = type
	self.testonly = False
	self.toolchain = None

	# Only set when type == proto_library.
	# This is typically: 'proto', 'protozero', 'ipc'.
	self.proto_plugin = None

	self.sources = set()

	# These are valid only for type == 'action'
	self.inputs = set()
	self.outputs = set()
	self.script = None
	self.args = []

	# These variables are propagated up when encountering a dependency
	# on a source_set target.
	self.cflags = set()
	self.defines = set()
	self.deps = set()
	self.libs = set()
	self.include_dirs = set()
	self.ldflags = set()
	self.source_set_deps = set() # Transitive set of source_set deps.
	self.proto_deps = set() # Transitive set of protobuf deps.

	# Deps on //gn:xxx have this flag set to True. These dependencies
	# are special because they pull third_party code from buildtools/.
	# We don't want to keep recursing into //buildtools in generators,
	# this flag is used to stop the recursion and create an empty
	# placeholder target once we hit //gn:protoc or similar.
	self.is_third_party_dep_ = False

	def __lt__(self, other):
	if isinstance(other, self.__class__):
	return self.name < other.name
	raise TypeError(
	'\'<\' not supported between instances of \'%s\' and \'%s\'' %
	(type(self).__name__, type(other).__name__))

	def __repr__(self):
	return json.dumps({
	k: (list(sorted(v)) if isinstance(v, set) else v)
	for (k, v) in iteritems(self.__dict__)
	},
	indent=4,
	sort_keys=True)

	def update(self, other):
	for key in ('cflags', 'defines', 'deps', 'include_dirs', 'ldflags',
	'source_set_deps', 'proto_deps', 'libs'):
	self.__dict__[key].update(other.__dict__.get(key, []))

	def __init__(self, gn_desc):
	self.gn_desc_ = gn_desc
	self.all_targets = {}
	self.linker_units = {} # Executables, shared or static libraries.
	self.source_sets = {}
	self.actions = {}
	self.proto_libs = {}

	def get_target(self, gn_target_name):
	"""Returns a Target object from the fully qualified GN target name.

	It bubbles up variables from source_set dependencies as described in the
	class-level comments.
	"""
	target = self.all_targets.get(gn_target_name)
	if target is not None:
	return target # Taraget already processed.

	desc = self.gn_desc_[gn_target_name]
	target = GnParser.Target(gn_target_name, desc['type'])
	target.testonly = desc.get('testonly', False)
	target.toolchain = desc.get('toolchain', None)
	self.all_targets[gn_target_name] = target

	# We should never have GN targets directly depend on buidtools. They
	# should hop via //gn:xxx, so we can give generators an opportunity to
	# override them.
	assert (not gn_target_name.startswith('//buildtools'))

	# Don't descend further into third_party targets. Genrators are supposed
	# to either ignore them or route to other externally-provided targets.
	if gn_target_name.startswith('//gn'):
	target.is_third_party_dep_ = True
	return target

	proto_target_type, proto_desc = self.get_proto_target_type_(target)
	if proto_target_type is not None:
	self.proto_libs[target.name] = target
	target.type = 'proto_library'
	target.proto_plugin = proto_target_type
	target.sources.update(proto_desc.get('sources', []))
	assert (all(x.endswith('.proto') for x in target.sources))
	elif target.type == 'source_set':
	self.source_sets[gn_target_name] = target
	target.sources.update(desc.get('sources', []))
	elif target.type in LINKER_UNIT_TYPES:
	self.linker_units[gn_target_name] = target
	target.sources.update(desc.get('sources', []))
	elif target.type == 'action':
	self.actions[gn_target_name] = target
	target.inputs.update(desc['inputs'])
	outs = [re.sub('^//out/.+?/gen/', '', x) for x in desc['outputs']]
	target.outputs.update(outs)
	target.script = desc['script']
	# Args are typically relative to the root build dir (../../xxx)
	# because root build dir is typically out/xxx/).
	target.args = [re.sub('^../../', '//', x) for x in desc['args']]

	target.cflags.update(desc.get('cflags', []) + desc.get('cflags_cc', []))
	target.libs.update(desc.get('libs', []))
	target.ldflags.update(desc.get('ldflags', []))
	target.defines.update(desc.get('defines', []))
	target.include_dirs.update(desc.get('include_dirs', []))

	# Recurse in dependencies.
	for dep_name in desc.get('deps', []):
	dep = self.get_target(dep_name)
	if dep.is_third_party_dep_:
	target.deps.add(dep_name)
	elif dep.type == 'proto_library':
	target.proto_deps.add(dep_name)
	target.proto_deps.update(dep.proto_deps) # Bubble up deps.
	elif dep.type == 'source_set':
	target.source_set_deps.add(dep_name)
	target.update(dep) # Bubble up source set's cflags/ldflags etc.
	elif dep.type == 'group':
	target.update(dep) # Bubble up groups's cflags/ldflags etc.
	elif dep.type == 'action':
	if proto_target_type is None:
	target.deps.add(dep_name)
	elif dep.type in LINKER_UNIT_TYPES:
	target.deps.add(dep_name)

	return target

	def get_proto_target_type_(self, target):
	""" Checks if the target is a proto library and return the plugin.

	Returns:
	(None, None): if the target is not a proto library.
	(plugin, gen_desc) where \|plugin\| is 'proto' in the default (lite)
	case or 'protozero' or 'ipc'; \|gen_desc\| is the GN json descriptor
	of the _gen target (the one with .proto sources).
	"""
	parts = target.name.split('(', 1)
	name = parts[0]
	toolchain = '(' + parts[1] if len(parts) > 1 else ''
	gen_desc = self.gn_desc_.get('%s_gen%s' % (name, toolchain))
	if gen_desc is None or gen_desc['type'] != 'action':
	return None, None
	args = gen_desc.get('args', [])
	if '/protoc' not in args[0]:
	return None, None
	plugin = 'proto'
	for arg in (arg for arg in args if arg.startswith('--plugin=')):
	# \|arg\| at this point looks like:
	# --plugin=protoc-gen-plugin=gcc_like_host/protozero_plugin
	# or
	# --plugin=protoc-gen-plugin=protozero_plugin
	plugin = arg.split('=')[-1].split('/')[-1].replace('_plugin', '')
	return plugin, gen_desc