third_party/perfetto/tools/gn_utils.py - cobalt - Git at Google

 # 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 collections
 from compat import iteritems
 import errno
 import filecmp
 import json
 import os
 import re
 import shutil
 import subprocess
 import sys
 from typing import Dict
 from typing import Optional
 from typing import Set
 from typing import Tuple

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

 # TODO(primiano): investigate these, they require further componentization.
 ODR_VIOLATION_IGNORE_TARGETS = {
     '//test/cts:perfetto_cts_deps',
     '//:perfetto_integrationtests',
 }


 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.decode(), file=sys.stderr)
     sys.exit(1)
   else:
     return output.decode()


 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, system_buildtools=False):
   # Pass-through to use name if the caller requests to use the system
   # toolchain.
   if system_buildtools:
     return [name]
   wrapper = os.path.abspath(
       os.path.join(repo_root(), 'tools', 'run_buildtools_binary.py'))
   return ['python3', wrapper, name]


 def prepare_out_directory(gn_args,
                           name,
                           root=repo_root(),
                           system_buildtools=False):
   """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', system_buildtools) +
       ['gen', out, '--args=%s' % gn_args],
       cwd=repo_root())
   return out


 def load_build_description(out, system_buildtools=False):
   """Creates the JSON build description by running GN."""
   desc = _check_command_output(
       _tool_path('gn', system_buildtools) +
       ['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, system_buildtools=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
     cmd = _tool_path('ninja', system_buildtools) + targets
     subprocess.check_call(cmd, cwd=os.path.abspath(out), stdout=stdout)


 def compute_source_dependencies(out, system_buildtools=False):
   """For each source file, computes a set of headers it depends on."""
   ninja_deps = _check_command_output(
       _tool_path('ninja', system_buildtools) + ['-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()), repo_root())
     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 ODRChecker(object):
   """Detects ODR violations in linker units

   When we turn GN source sets into Soong & Bazel file groups, there is the risk
   to create ODR violations by including the same file group into different
   linker unit (this is because other build systems don't have a concept
   equivalent to GN's source_set). This class navigates the transitive
   dependencies (mostly static libraries) of a target and detects if multiple
   paths end up including the same file group. This is to avoid situations like:

   traced.exe -> base(file group)
   traced.exe -> libperfetto(static lib) -> base(file group)
   """

   def __init__(self, gn: 'GnParser', target_name: str):
     self.gn = gn
     self.root = gn.get_target(target_name)
     self.source_sets: Dict[str, Set[str]] = collections.defaultdict(set)
     self.deps_visited = set()
     self.source_set_hdr_only = {}

     self._visit(target_name)
     num_violations = 0
     if target_name in ODR_VIOLATION_IGNORE_TARGETS:
       return
     for sset, paths in self.source_sets.items():
       if self.is_header_only(sset):
         continue
       if len(paths) != 1:
         num_violations += 1
         print(
             'ODR violation in target %s, multiple paths include %s:\n  %s' %
             (target_name, sset, '\n  '.join(paths)),
             file=sys.stderr)
     if num_violations > 0:
       raise Exception('%d ODR violations detected. Build generation aborted' %
                       num_violations)

   def _visit(self, target_name: str, parent_path=''):
     target = self.gn.get_target(target_name)
     path = ((parent_path + ' > ') if parent_path else '') + target_name
     if not target:
       raise Exception('Cannot find target %s' % target_name)
     for ssdep in target.transitive_source_set_deps():
       name_and_path = '%s (via %s)' % (target_name, path)
       self.source_sets[ssdep.name].add(name_and_path)
     deps = set(target.non_proto_or_source_set_deps()).union(
         target.transitive_proto_deps()) - self.deps_visited
     for dep in deps:
       if dep.type == 'executable':
         continue  # Execs are strong boundaries and don't cause ODR violations.
       # static_library dependencies should reset the path. It doesn't matter if
       # we get to a source file via:
       # source_set1 > static_lib > source.cc OR
       # source_set1 > source_set2 > static_lib > source.cc
       # This is NOT an ODR violation because source.cc is linked from the same
       # static library
       next_parent_path = path if dep.type != 'static_library' else ''
       self.deps_visited.add(dep.name)
       self._visit(dep.name, next_parent_path)

   def is_header_only(self, source_set_name: str):
     cached = self.source_set_hdr_only.get(source_set_name)
     if cached is not None:
       return cached
     target = self.gn.get_target(source_set_name)
     if target.type != 'source_set':
       raise TypeError('%s is not a source_set' % source_set_name)
     res = all(src.endswith('.h') for src in target.sources)
     self.source_set_hdr_only[source_set_name] = res
     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', 'generated_file')
       assert (type in VALID_TYPES)
       self.type = type
       self.testonly = False
       self.toolchain = None

       # These are valid only for type == proto_library.
       # This is typically: 'proto', 'protozero', 'ipc'.
       self.proto_plugin: Optional[str] = None
       self.proto_paths = set()
       self.proto_exports = set()

       self.sources = set()
       # TODO(primiano): consider whether the public section should be part of
       # bubbled-up sources.
       self.public_headers = set()  # 'public'

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

       # These variables are propagated up when encountering a dependency
       # on a source_set target.
       self.cflags = set()
       self.defines = set()
       self.deps: Set[GnParser.Target] = set()
       self.transitive_deps: Set[GnParser.Target] = set()
       self.libs = set()
       self.include_dirs = set()
       self.ldflags = set()

       # 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 non_proto_or_source_set_deps(self):
       return set(d for d in self.deps
                  if d.type != 'proto_library' and d.type != 'source_set')

     def proto_deps(self):
       return set(d for d in self.deps if d.type == 'proto_library')

     def transitive_proto_deps(self):
       return set(d for d in self.transitive_deps if d.type == 'proto_library')

     def transitive_cpp_proto_deps(self):
       return set(
           d for d in self.transitive_deps if d.type == 'proto_library' and
           d.proto_plugin != 'descriptor' and d.proto_plugin != 'source_set')

     def transitive_source_set_deps(self):
       return set(d for d in self.transitive_deps if d.type == 'source_set')

     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', 'data', 'defines', 'deps', 'include_dirs',
                   'ldflags', 'transitive_deps', 'libs', 'proto_paths'):
         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: str) -> Target:
     """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  # Target 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:
       assert proto_desc
       self.proto_libs[target.name] = target
       target.type = 'proto_library'
       target.proto_plugin = proto_target_type
       target.proto_paths.update(self.get_proto_paths(proto_desc))
       target.proto_exports.update(self.get_proto_exports(proto_desc))
       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', []))
       target.inputs.update(desc.get('inputs', []))
     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.data.update(desc.get('metadata', {}).get('perfetto_data', []))
       target.inputs.update(desc.get('inputs', []))
       target.sources.update(desc.get('sources', []))
       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']]
       action_types = desc.get('metadata',
                               {}).get('perfetto_action_type_for_generator', [])
       target.custom_action_type = action_types[0] if len(
           action_types) > 0 else None
       python_main = desc.get('metadata', {}).get('perfetto_python_main', [])
       target.python_main = python_main[0] if python_main else None

     # Default for 'public' is //* - all headers in 'sources' are public.
     # TODO(primiano): if a 'public' section is specified (even if empty), then
     # the rest of 'sources' is considered inaccessible by gn. Consider
     # emulating that, so that generated build files don't end up with overly
     # accessible headers.
     public_headers = [x for x in desc.get('public', []) if x != '*']
     target.public_headers.update(public_headers)

     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)

       # generated_file targets only exist for GN builds: we can safely ignore
       # them.
       if dep.type == 'generated_file':
         continue

       # When a proto_library depends on an action, that is always the "_gen"
       # rule of the action which is "private" to the proto_library rule.
       # therefore, just ignore it for dep tracking purposes.
       if dep.type == 'action' and proto_target_type is not None:
         target_no_toolchain = label_without_toolchain(target.name)
         dep_no_toolchain = label_without_toolchain(dep.name)
         assert (dep_no_toolchain == f'{target_no_toolchain}_gen')
         continue

       # Non-third party groups are only used for bubbling cflags etc so don't
       # add a dep.
       if dep.type == 'group' and not dep.is_third_party_dep_:
         target.update(dep)  # Bubble up groups's cflags/ldflags etc.
         continue

       # Linker units act as a hard boundary making all their internal deps
       # opaque to the outside world. For this reason, do not propogate deps
       # transitively across them.
       if dep.type in LINKER_UNIT_TYPES:
         target.deps.add(dep)
         continue

       if dep.type == 'source_set':
         target.update(dep)  # Bubble up source set's cflags/ldflags etc.
       elif dep.type == 'proto_library':
         target.proto_paths.update(dep.proto_paths)

       target.deps.add(dep)
       target.transitive_deps.add(dep)
       target.transitive_deps.update(dep.transitive_deps)

     return target

   def get_proto_exports(self, proto_desc):
     # exports in metadata will be available for source_set targets.
     metadata = proto_desc.get('metadata', {})
     return metadata.get('exports', [])

   def get_proto_paths(self, proto_desc):
     # import_dirs in metadata will be available for source_set targets.
     metadata = proto_desc.get('metadata', {})
     return metadata.get('import_dirs', [])

   def get_proto_target_type(self, target: Target
                            ) -> Tuple[Optional[str], Optional[Dict]]:
     """ Checks if the target is a proto library and return the plugin.

         Returns:
             (None, None): if the target is not a proto library.
             (plugin, proto_desc) where |plugin| is 'proto' in the default (lite)
             case or 'protozero' or 'ipc' or 'descriptor'; |proto_desc| is the GN
             json desc of the target with the .proto sources (_gen target for
             non-descriptor types or the target itself for descriptor type).
         """
     parts = target.name.split('(', 1)
     name = parts[0]
     toolchain = '(' + parts[1] if len(parts) > 1 else ''

     # Descriptor targets don't have a _gen target; instead we look for the
     # characteristic flag in the args of the target itself.
     desc = self.gn_desc_.get(target.name)
     if '--descriptor_set_out' in desc.get('args', []):
       return 'descriptor', desc

     # Source set proto targets have a non-empty proto_library_sources in the
     # metadata of the description.
     metadata = desc.get('metadata', {})
     if 'proto_library_sources' in metadata:
       return 'source_set', desc

     # In all other cases, we want to look at the _gen target as that has the
     # important information.
     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 collections
	from compat import iteritems
	import errno
	import filecmp
	import json
	import os
	import re
	import shutil
	import subprocess
	import sys
	from typing import Dict
	from typing import Optional
	from typing import Set
	from typing import Tuple

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

	# TODO(primiano): investigate these, they require further componentization.
	ODR_VIOLATION_IGNORE_TARGETS = {
	'//test/cts:perfetto_cts_deps',
	'//:perfetto_integrationtests',
	}


	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.decode(), file=sys.stderr)
	sys.exit(1)
	else:
	return output.decode()


	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, system_buildtools=False):
	# Pass-through to use name if the caller requests to use the system
	# toolchain.
	if system_buildtools:
	return [name]
	wrapper = os.path.abspath(
	os.path.join(repo_root(), 'tools', 'run_buildtools_binary.py'))
	return ['python3', wrapper, name]


	def prepare_out_directory(gn_args,
	name,
	root=repo_root(),
	system_buildtools=False):
	"""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', system_buildtools) +
	['gen', out, '--args=%s' % gn_args],
	cwd=repo_root())
	return out


	def load_build_description(out, system_buildtools=False):
	"""Creates the JSON build description by running GN."""
	desc = _check_command_output(
	_tool_path('gn', system_buildtools) +
	['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, system_buildtools=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
	cmd = _tool_path('ninja', system_buildtools) + targets
	subprocess.check_call(cmd, cwd=os.path.abspath(out), stdout=stdout)


	def compute_source_dependencies(out, system_buildtools=False):
	"""For each source file, computes a set of headers it depends on."""
	ninja_deps = _check_command_output(
	_tool_path('ninja', system_buildtools) + ['-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()), repo_root())
	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 ODRChecker(object):
	"""Detects ODR violations in linker units

	When we turn GN source sets into Soong & Bazel file groups, there is the risk
	to create ODR violations by including the same file group into different
	linker unit (this is because other build systems don't have a concept
	equivalent to GN's source_set). This class navigates the transitive
	dependencies (mostly static libraries) of a target and detects if multiple
	paths end up including the same file group. This is to avoid situations like:

	traced.exe -> base(file group)
	traced.exe -> libperfetto(static lib) -> base(file group)
	"""

	def __init__(self, gn: 'GnParser', target_name: str):
	self.gn = gn
	self.root = gn.get_target(target_name)
	self.source_sets: Dict[str, Set[str]] = collections.defaultdict(set)
	self.deps_visited = set()
	self.source_set_hdr_only = {}

	self._visit(target_name)
	num_violations = 0
	if target_name in ODR_VIOLATION_IGNORE_TARGETS:
	return
	for sset, paths in self.source_sets.items():
	if self.is_header_only(sset):
	continue
	if len(paths) != 1:
	num_violations += 1
	print(
	'ODR violation in target %s, multiple paths include %s:\n %s' %
	(target_name, sset, '\n '.join(paths)),
	file=sys.stderr)
	if num_violations > 0:
	raise Exception('%d ODR violations detected. Build generation aborted' %
	num_violations)

	def _visit(self, target_name: str, parent_path=''):
	target = self.gn.get_target(target_name)
	path = ((parent_path + ' > ') if parent_path else '') + target_name
	if not target:
	raise Exception('Cannot find target %s' % target_name)
	for ssdep in target.transitive_source_set_deps():
	name_and_path = '%s (via %s)' % (target_name, path)
	self.source_sets[ssdep.name].add(name_and_path)
	deps = set(target.non_proto_or_source_set_deps()).union(
	target.transitive_proto_deps()) - self.deps_visited
	for dep in deps:
	if dep.type == 'executable':
	continue # Execs are strong boundaries and don't cause ODR violations.
	# static_library dependencies should reset the path. It doesn't matter if
	# we get to a source file via:
	# source_set1 > static_lib > source.cc OR
	# source_set1 > source_set2 > static_lib > source.cc
	# This is NOT an ODR violation because source.cc is linked from the same
	# static library
	next_parent_path = path if dep.type != 'static_library' else ''
	self.deps_visited.add(dep.name)
	self._visit(dep.name, next_parent_path)

	def is_header_only(self, source_set_name: str):
	cached = self.source_set_hdr_only.get(source_set_name)
	if cached is not None:
	return cached
	target = self.gn.get_target(source_set_name)
	if target.type != 'source_set':
	raise TypeError('%s is not a source_set' % source_set_name)
	res = all(src.endswith('.h') for src in target.sources)
	self.source_set_hdr_only[source_set_name] = res
	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', 'generated_file')
	assert (type in VALID_TYPES)
	self.type = type
	self.testonly = False
	self.toolchain = None

	# These are valid only for type == proto_library.
	# This is typically: 'proto', 'protozero', 'ipc'.
	self.proto_plugin: Optional[str] = None
	self.proto_paths = set()
	self.proto_exports = set()

	self.sources = set()
	# TODO(primiano): consider whether the public section should be part of
	# bubbled-up sources.
	self.public_headers = set() # 'public'

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

	# These variables are propagated up when encountering a dependency
	# on a source_set target.
	self.cflags = set()
	self.defines = set()
	self.deps: Set[GnParser.Target] = set()
	self.transitive_deps: Set[GnParser.Target] = set()
	self.libs = set()
	self.include_dirs = set()
	self.ldflags = set()

	# 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 non_proto_or_source_set_deps(self):
	return set(d for d in self.deps
	if d.type != 'proto_library' and d.type != 'source_set')

	def proto_deps(self):
	return set(d for d in self.deps if d.type == 'proto_library')

	def transitive_proto_deps(self):
	return set(d for d in self.transitive_deps if d.type == 'proto_library')

	def transitive_cpp_proto_deps(self):
	return set(
	d for d in self.transitive_deps if d.type == 'proto_library' and
	d.proto_plugin != 'descriptor' and d.proto_plugin != 'source_set')

	def transitive_source_set_deps(self):
	return set(d for d in self.transitive_deps if d.type == 'source_set')

	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', 'data', 'defines', 'deps', 'include_dirs',
	'ldflags', 'transitive_deps', 'libs', 'proto_paths'):
	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: str) -> Target:
	"""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 # Target 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:
	assert proto_desc
	self.proto_libs[target.name] = target
	target.type = 'proto_library'
	target.proto_plugin = proto_target_type
	target.proto_paths.update(self.get_proto_paths(proto_desc))
	target.proto_exports.update(self.get_proto_exports(proto_desc))
	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', []))
	target.inputs.update(desc.get('inputs', []))
	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.data.update(desc.get('metadata', {}).get('perfetto_data', []))
	target.inputs.update(desc.get('inputs', []))
	target.sources.update(desc.get('sources', []))
	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']]
	action_types = desc.get('metadata',
	{}).get('perfetto_action_type_for_generator', [])
	target.custom_action_type = action_types[0] if len(
	action_types) > 0 else None
	python_main = desc.get('metadata', {}).get('perfetto_python_main', [])
	target.python_main = python_main[0] if python_main else None

	# Default for 'public' is //* - all headers in 'sources' are public.
	# TODO(primiano): if a 'public' section is specified (even if empty), then
	# the rest of 'sources' is considered inaccessible by gn. Consider
	# emulating that, so that generated build files don't end up with overly
	# accessible headers.
	public_headers = [x for x in desc.get('public', []) if x != '*']
	target.public_headers.update(public_headers)

	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)

	# generated_file targets only exist for GN builds: we can safely ignore
	# them.
	if dep.type == 'generated_file':
	continue

	# When a proto_library depends on an action, that is always the "_gen"
	# rule of the action which is "private" to the proto_library rule.
	# therefore, just ignore it for dep tracking purposes.
	if dep.type == 'action' and proto_target_type is not None:
	target_no_toolchain = label_without_toolchain(target.name)
	dep_no_toolchain = label_without_toolchain(dep.name)
	assert (dep_no_toolchain == f'{target_no_toolchain}_gen')
	continue

	# Non-third party groups are only used for bubbling cflags etc so don't
	# add a dep.
	if dep.type == 'group' and not dep.is_third_party_dep_:
	target.update(dep) # Bubble up groups's cflags/ldflags etc.
	continue

	# Linker units act as a hard boundary making all their internal deps
	# opaque to the outside world. For this reason, do not propogate deps
	# transitively across them.
	if dep.type in LINKER_UNIT_TYPES:
	target.deps.add(dep)
	continue

	if dep.type == 'source_set':
	target.update(dep) # Bubble up source set's cflags/ldflags etc.
	elif dep.type == 'proto_library':
	target.proto_paths.update(dep.proto_paths)

	target.deps.add(dep)
	target.transitive_deps.add(dep)
	target.transitive_deps.update(dep.transitive_deps)

	return target

	def get_proto_exports(self, proto_desc):
	# exports in metadata will be available for source_set targets.
	metadata = proto_desc.get('metadata', {})
	return metadata.get('exports', [])

	def get_proto_paths(self, proto_desc):
	# import_dirs in metadata will be available for source_set targets.
	metadata = proto_desc.get('metadata', {})
	return metadata.get('import_dirs', [])

	def get_proto_target_type(self, target: Target
	) -> Tuple[Optional[str], Optional[Dict]]:
	""" Checks if the target is a proto library and return the plugin.

	Returns:
	(None, None): if the target is not a proto library.
	(plugin, proto_desc) where \|plugin\| is 'proto' in the default (lite)
	case or 'protozero' or 'ipc' or 'descriptor'; \|proto_desc\| is the GN
	json desc of the target with the .proto sources (_gen target for
	non-descriptor types or the target itself for descriptor type).
	"""
	parts = target.name.split('(', 1)
	name = parts[0]
	toolchain = '(' + parts[1] if len(parts) > 1 else ''

	# Descriptor targets don't have a _gen target; instead we look for the
	# characteristic flag in the args of the target itself.
	desc = self.gn_desc_.get(target.name)
	if '--descriptor_set_out' in desc.get('args', []):
	return 'descriptor', desc

	# Source set proto targets have a non-empty proto_library_sources in the
	# metadata of the description.
	metadata = desc.get('metadata', {})
	if 'proto_library_sources' in metadata:
	return 'source_set', desc

	# In all other cases, we want to look at the _gen target as that has the
	# important information.
	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