# Copyright 2016 The Chromium Embedded Framework Authors. Portions copyright # 2012 Google Inc. All rights reserved. Use of this source code is governed by # a BSD-style license that can be found in the LICENSE file. # This script determines the contents of the per-configuration `args.gn` files # that are used to build CEF/Chromium with GN. See comments in CEF's top-level # BUILD.gn file for general GN usage instructions. # # This script performs the following tasks: # # - Defines CEF's default and required arg values in cases where they differ # from Chromium's. # - Accepts user-defined arg values via the GN_DEFINES environment variable. # - Verifies that user-defined arg values do not conflict with CEF's # requirements. # - Generates multiple configurations by combining user-defined arg values with # CEF's default and required values. # # Before adding a new arg value in this script determine the following: # # - Chromium's default value. Default values are defined in the declare_args() # sections of *.gni files. # - Chromium's value requirements. Check for assert()s related to the value in # Chromium code. # - Whether a particular value is optional or required for CEF. # - Under what conditions a particular value is required for CEF (platform, # build type, CPU architecture, etc). # # If CEF can use Chromium's default value and has no additional validation # requirements then do nothing. # # If CEF can use Chromium's default value but would like to enforce additional # validation requirements then go to 3B. # # If CEF cannot or should not use Chromium's default value then choose one of # the following: # # 1. If CEF requires a different value either globally or based on the platform: # - Add an assert() for the value in CEF's top-level BUILD.gn file. # - Add the required value in GetRequiredArgs(). # - Result: CEF's required value will be used. The user cannot override the # value via GN_DEFINES. # # 2. If CEF requires a different value based on the build type or CPU # architecture: # - Add an assert() for the value in CEF's top-level BUILD.gn file. # - Add the required value in GetConfigArgs(). # - Result: CEF's required value will be used. The user cannot override the # value via GN_DEFINES. # # 3. If CEF recommends (but does not require) a different value either globally # or based on the platform: # A. Set the default value: # - Add the recommended value in GetRecommendedDefaultArgs(). # - Result: CEF's recommended value will be used by default. The user can # override the value via GN_DEFINES. # # B. If CEF has additional validation requirements: # - Add the default Chromium value in GetChromiumDefaultArgs(). # - Perform validation in ValidateArgs(). # - Result: An AssertionError will be thrown if validation fails. from __future__ import absolute_import from __future__ import print_function import os import shlex import sys # The CEF directory is the parent directory of _this_ script. cef_dir = os.path.abspath(os.path.join(os.path.dirname(__file__), os.pardir)) # The src directory is the parent directory of the CEF directory. src_dir = os.path.abspath(os.path.join(cef_dir, os.pardir)) # Determine the platform. if sys.platform == 'win32': platform = 'windows' elif sys.platform == 'darwin': platform = 'mac' elif sys.platform.startswith('linux'): platform = 'linux' else: print('Unknown operating system platform') sys.exit() def msg(msg): print('NOTE: ' + msg) def NameValueListToDict(name_value_list): """ Takes an array of strings of the form 'NAME=VALUE' and creates a dictionary of the pairs. If a string is simply NAME, then the value in the dictionary is set to True. If VALUE can be converted to a boolean or integer, it is. """ result = {} for item in name_value_list: tokens = item.split('=', 1) if len(tokens) == 2: token_value = tokens[1] if token_value.lower() == 'true': token_value = True elif token_value.lower() == 'false': token_value = False else: # If we can make it an int, use that, otherwise, use the string. try: token_value = int(token_value) except ValueError: pass # Set the variable to the supplied value. result[tokens[0]] = token_value else: # No value supplied, treat it as a boolean and set it. result[tokens[0]] = True return result def ShlexEnv(env_name): """ Split an environment variable using shell-like syntax. """ flags = os.environ.get(env_name, []) if flags: flags = shlex.split(flags) return flags def MergeDicts(*dict_args): """ Given any number of dicts, shallow copy and merge into a new dict. Precedence goes to key value pairs in latter dicts. """ result = {} for dictionary in dict_args: result.update(dictionary) return result def GetValueString(val): """ Return the string representation of |val| expected by GN. """ if isinstance(val, bool): if val: return 'true' else: return 'false' elif isinstance(val, int): return val else: return '"%s"' % val return val def GetChromiumDefaultArgs(): """ Return default GN args. These must match the Chromium defaults. Only args that may be retrieved via GetArgValue() need to be specified here. """ # Search for these values in declare_args() sections of *.gni files to find # the defaults. defaults = { 'dcheck_always_on': False, 'is_asan': False, 'is_debug': True, 'is_official_build': False, 'target_cpu': 'x64', } if platform == 'linux': defaults['use_sysroot'] = True if platform == 'windows': defaults['is_win_fastlink'] = False defaults['visual_studio_path'] = '' defaults['visual_studio_version'] = '' defaults['visual_studio_runtime_dirs'] = '' defaults['windows_sdk_path'] = '' return defaults def GetArgValue(args, key): """ Return an existing GN arg value or the Chromium default. """ defaults = GetChromiumDefaultArgs() assert key in defaults, "No default Chromium value specified for %s" % key return args.get(key, defaults[key]) def GetRecommendedDefaultArgs(): """ Return recommended default GN args that differ from Chromium defaults. """ # Search for these values in declare_args() sections of *.gni files to find # the defaults. result = { # Enable NaCL. Default is true. False is recommended for faster builds. 'enable_nacl': False, # Disable component builds. Default depends on the platform. True results # in faster local builds but False is required to create a CEF binary # distribution. 'is_component_build': False, # Specify the current PGO phase. Default is 0 (turned off) for normal # builds and 2 (used during the optimization phase) for official Windows # and macOS builds. Currently turned off for CEF because it requires # additional setup and is not yet tested. See issue #2956. 'chrome_pgo_phase': 0, # Disable support for background apps, which don't make sense with CEF. # Default is enabled on desktop platforms. This feature was also causing # strange shutdown crashes when using the Chrome runtime with a Debug # component build on Windows. 'enable_background_mode': False, # Disable support for resource allowlist generation. When enabled this # introduces a Windows official build dependency on the # "//chrome:chrome_dll" target, which will fail to build with CEF. 'enable_resource_allowlist_generation': False, } if platform != 'windows': # Only allow non-component Debug builds on non-Windows platforms. These # builds will fail on Windows due to linker issues (running out of memory, # etc). See https://bitbucket.org/chromiumembedded/cef/issues/2679. result['forbid_non_component_debug_builds'] = False if platform == 'linux': # Use a sysroot environment. Default is true. False is recommended for local # builds. # Run the following commands to download the sysroot environment: # x86 build only: $ export GYP_DEFINES='target_arch=ia32' # x86 or x64 build: $ gclient runhooks result['use_sysroot'] = False # Don't add the `-Wl,--fatal-warnings` linker flag when building on Ubuntu # 14 (Trusty) host systems. It results in errors like the following: # ld.lld: error: found local symbol '__bss_start' in global part of symbol # table in file /usr/lib/x86_64-linux-gnu/libGL.so # TODO(cef): Remove this flag once we require a newer host system. result['fatal_linker_warnings'] = False return result def GetGNEnvArgs(): """ Return GN args specified via the GN_DEFINES env variable. """ return NameValueListToDict(ShlexEnv('GN_DEFINES')) def GetRequiredArgs(): """ Return required GN args. Also enforced by assert() in //cef/BUILD.gn. """ result = { # Set ENABLE_PRINTING=1 ENABLE_BASIC_PRINTING=1. 'enable_basic_printing': True, # ENABLE_SERVICE_DISCOVERY=0 for print preview support 'enable_print_preview': True, 'optimize_webui': True, # Enable support for Widevine CDM. 'enable_widevine': True, # Don't use the chrome style plugin. 'clang_use_chrome_plugins': False, } if platform == 'linux': # Don't generate Chromium installer packages. This avoids GN dependency # errors with CEF (see issue #2301). # Due to the way this variable is declared in chrome/installer/BUILD.gn it # can't be enforced by assert(). result['enable_linux_installer'] = False return result def GetMergedArgs(build_args): """ Return merged GN args. """ dict = MergeDicts(GetRecommendedDefaultArgs(), GetGNEnvArgs(), build_args) # Verify that the user is not trying to override required args. required = GetRequiredArgs() for key in required.keys(): if key in dict: assert dict[key] == required[key], \ "%s=%s is required" % (key, GetValueString(required[key])) return MergeDicts(dict, required) def ValidateArgs(args): """ Validate GN arg combinations that we know about. Also provide suggestions where appropriate. """ dcheck_always_on = GetArgValue(args, 'dcheck_always_on') is_asan = GetArgValue(args, 'is_asan') is_debug = GetArgValue(args, 'is_debug') is_official_build = GetArgValue(args, 'is_official_build') target_cpu = GetArgValue(args, 'target_cpu') if platform == 'linux': use_sysroot = GetArgValue(args, 'use_sysroot') if platform == 'windows': is_win_fastlink = GetArgValue(args, 'is_win_fastlink') visual_studio_path = GetArgValue(args, 'visual_studio_path') visual_studio_version = GetArgValue(args, 'visual_studio_version') visual_studio_runtime_dirs = GetArgValue(args, 'visual_studio_runtime_dirs') windows_sdk_path = GetArgValue(args, 'windows_sdk_path') # Target CPU architecture. # - Windows supports "x86", "x64" and "arm64". # - Mac supports "x64" and "arm64". # - Linux supports only "x64" unless using a sysroot environment. if platform == 'mac': assert target_cpu in ('x64', 'arm64'), 'target_cpu must be "x64" or "arm64"' elif platform == 'windows': assert target_cpu in ('x86', 'x64', 'arm64'), 'target_cpu must be "x86", "x64" or "arm64"' elif platform == 'linux': assert target_cpu in ( 'x86', 'x64', 'arm', 'arm64'), 'target_cpu must be "x86", "x64", "arm" or "arm64"' if platform == 'linux': if target_cpu == 'x86': assert use_sysroot, 'target_cpu="x86" requires use_sysroot=true' elif target_cpu == 'arm': assert use_sysroot, 'target_cpu="arm" requires use_sysroot=true' elif target_cpu == 'arm64': assert use_sysroot, 'target_cpu="arm64" requires use_sysroot=true' # ASAN requires Release builds. if is_asan: assert not is_debug, "is_asan=true requires is_debug=false" if not dcheck_always_on: msg('is_asan=true recommends dcheck_always_on=true') # Official build requires Release builds. if is_official_build: assert not is_debug, "is_official_build=true requires is_debug=false" if platform == 'windows': # Official builds should not use /DEBUG:FASTLINK. if is_official_build: assert not is_win_fastlink, "is_official_build=true precludes is_win_fastlink=true" # Windows custom toolchain requirements. # # Required GN arguments: # visual_studio_path="" # The directory that contains Visual Studio. For example, a subset of # "C:\Program Files (x86)\Microsoft Visual Studio 14.0". # visual_studio_version="" # The VS version. For example, "2015". # visual_studio_runtime_dirs="" # The directory that contains the VS CRT. For example, the contents of # "C:\Program Files (x86)\Windows Kits\10\Redist\ucrt\DLLs\x64" plus # "C:\Windows\System32\ucrtbased.dll" # windows_sdk_path="" # The directory that contains the Win SDK. For example, a subset of # "C:\Program Files (x86)\Windows Kits\10". # # Required environment variables: # DEPOT_TOOLS_WIN_TOOLCHAIN=0 # GYP_MSVS_OVERRIDE_PATH= # GYP_MSVS_VERSION= # CEF_VCVARS=none # # Optional environment variables (required if vcvarsall.bat does not exist): # INCLUDE= # LIB= # PATH= # # See comments in gclient_hook.py for environment variable usage. # if visual_studio_path != '': assert visual_studio_version != '', 'visual_studio_path requires visual_studio_version' assert visual_studio_runtime_dirs != '', 'visual_studio_path requires visual_studio_runtime_dirs' assert windows_sdk_path != '', 'visual_studio_path requires windows_sdk_path' assert os.environ.get('DEPOT_TOOLS_WIN_TOOLCHAIN', '') == '0', \ "visual_studio_path requires DEPOT_TOOLS_WIN_TOOLCHAIN=0 env variable" msvs_path = os.environ.get('GYP_MSVS_OVERRIDE_PATH', '') assert msvs_path == visual_studio_path and os.path.exists(msvs_path), \ "visual_studio_path requires matching GYP_MSVS_OVERRIDE_PATH env variable" msvs_version = os.environ.get('GYP_MSVS_VERSION', '') assert msvs_version == visual_studio_version, \ "visual_studio_version requires matching GYP_MSVS_VERSION env variable" assert os.environ.get('CEF_VCVARS', '') == 'none', \ "visual_studio_path requires CEF_VCVARS=none env variable" # If vcvarsall.bat exists then environment variables will be derived from # there and any specified INCLUDE/LIB values will be ignored by Chromium # (PATH is retained because it might contain required VS runtime # libraries). If this file does not exist then the INCLUDE/LIB/PATH values # are also required by Chromium. vcvars_path = os.path.join(msvs_path, 'VC', 'vcvarsall.bat') if not os.path.exists(vcvars_path): vcvars_path = os.path.join(msvs_path, 'VC', 'Auxiliary', 'Build', 'vcvarsall.bat') if os.path.exists(vcvars_path): if 'INCLUDE' in os.environ: del os.environ['INCLUDE'] if 'LIB' in os.environ: del os.environ['LIB'] if 'LIBPATH' in os.environ: del os.environ['LIBPATH'] else: assert 'INCLUDE' in os.environ \ and 'LIB' in os.environ \ and 'PATH' in os.environ, \ "visual_studio_path requires INCLUDE, LIB and PATH env variables" def GetConfigArgs(args, is_debug, cpu): """ Return merged GN args for the configuration and validate. """ add_args = {} # Cannot create is_official_build=true is_debug=true builds. # This restriction is enforced in //build/config/BUILDCONFIG.gn. # Instead, our "official Debug" build is a Release build with dchecks and # symbols. Symbols will be generated by default for official builds; see the # definition of 'symbol_level' in //build/config/compiler/compiler.gni. if is_debug and GetArgValue(args, 'is_official_build'): is_debug = False add_args['dcheck_always_on'] = True result = MergeDicts(args, add_args, { 'is_debug': is_debug, 'target_cpu': cpu, }) if platform == 'linux' and not cpu.startswith('arm'): # Remove any arm-related values from non-arm configs. for key in result.keys(): if key.startswith('arm_'): del result[key] ValidateArgs(result) return result def GetConfigArgsSandbox(platform, args, is_debug, cpu): """ Return merged GN args for the cef_sandbox configuration and validate. """ add_args = { # Avoid libucrt.lib linker errors. 'use_allocator_shim': False, # PartitionAlloc is selected as the default allocator in some cases. # We can't use it because it requires use_allocator_shim=true. 'use_allocator': "none", # Avoid /LTCG linker warnings and generate smaller lib files. 'is_official_build': False, # Enable base target customizations necessary for distribution of the # cef_sandbox static library. 'is_cef_sandbox_build': True, } if platform == 'windows': # Avoid Debug build linker errors caused by custom libc++. add_args['use_custom_libcxx'] = False # Avoid dependency on //third_party/perfetto:libperfetto which fails to # build with MSVC libc++. add_args['enable_base_tracing'] = False # Don't enable -Wmax-tokens in combination with MSVC libc++. add_args['enable_wmax_tokens'] = False # Allow non-component Debug builds for the sandbox. add_args['forbid_non_component_debug_builds'] = False result = MergeDicts(args, add_args, { 'is_debug': is_debug, 'target_cpu': cpu, }) ValidateArgs(result) return result def LinuxSysrootExists(cpu): """ Returns true if the sysroot for the specified |cpu| architecture exists. """ # Directory that contains sysroots. sysroot_root = os.path.join(src_dir, 'build', 'linux') # CPU-specific sysroot directory names. # Should match the values in build/config/sysroot.gni. if cpu == 'x86': sysroot_name = 'debian_sid_i386-sysroot' elif cpu == 'x64': sysroot_name = 'debian_sid_amd64-sysroot' elif cpu == 'arm': sysroot_name = 'debian_sid_arm-sysroot' elif cpu == 'arm64': sysroot_name = 'debian_sid_arm64-sysroot' else: raise Exception('Unrecognized sysroot CPU: %s' % cpu) return os.path.isdir(os.path.join(sysroot_root, sysroot_name)) def GetAllPlatformConfigs(build_args): """ Return a map of directory name to GN args for the current platform. """ result = {} # Merged args without validation. args = GetMergedArgs(build_args) create_debug = True # Don't create debug directories for asan builds. if GetArgValue(args, 'is_asan'): create_debug = False msg('Not generating Debug configuration due to is_asan=true') supported_cpus = [] if platform == 'linux': use_sysroot = GetArgValue(args, 'use_sysroot') if use_sysroot: # Only generate configurations for sysroots that have been installed. for cpu in ('x86', 'x64', 'arm', 'arm64'): if LinuxSysrootExists(cpu): supported_cpus.append(cpu) else: msg('Not generating %s configuration due to missing sysroot directory' % cpu) else: supported_cpus = ['x64'] elif platform == 'windows': supported_cpus = ['x86', 'x64'] if os.environ.get('CEF_ENABLE_ARM64', '') == '1': supported_cpus.append('arm64') elif platform == 'mac': supported_cpus = ['x64'] if os.environ.get('CEF_ENABLE_ARM64', '') == '1': supported_cpus.append('arm64') else: raise Exception('Unsupported platform') for cpu in supported_cpus: if create_debug: result['Debug_GN_' + cpu] = GetConfigArgs(args, True, cpu) result['Release_GN_' + cpu] = GetConfigArgs(args, False, cpu) if platform in ('windows', 'mac') and GetArgValue(args, 'is_official_build'): # Build cef_sandbox.lib with a different configuration. if create_debug: result['Debug_GN_' + cpu + '_sandbox'] = GetConfigArgsSandbox( platform, args, True, cpu) result['Release_GN_' + cpu + '_sandbox'] = GetConfigArgsSandbox( platform, args, False, cpu) return result def GetConfigFileContents(args): """ Generate config file contents for the arguments. """ pairs = [] for k in sorted(args.keys()): pairs.append("%s=%s" % (k, GetValueString(args[k]))) return "\n".join(pairs) # Program entry point. if __name__ == '__main__': import sys # Allow override of the platform via the command-line for testing. if len(sys.argv) > 1: platform = sys.argv[1] if not platform in ('linux', 'mac', 'windows'): sys.stderr.write('Usage: %s \n' % sys.argv[0]) sys.exit() print('Platform: %s' % platform) # Dump the configuration based on platform and environment. configs = GetAllPlatformConfigs({}) for dir, config in configs.items(): print('\n\nout/%s:\n' % dir) print(GetConfigFileContents(config))