gecko-dev/build/moz.configure/toolchain.configure

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Python
Executable File

# -*- Mode: python; indent-tabs-mode: nil; tab-width: 40 -*-
# vim: set filetype=python:
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
imply_option('--enable-release', mozilla_official)
imply_option('--enable-release', depends_if('MOZ_AUTOMATION')(lambda x: True))
js_option('--enable-release',
default=milestone.is_release_or_beta,
help='{Build|Do not build} with more conservative, release '
'engineering-oriented options.{ This may slow down builds.|}')
@depends('--enable-release')
def developer_options(value):
if not value:
return True
add_old_configure_assignment('DEVELOPER_OPTIONS', developer_options)
set_config('DEVELOPER_OPTIONS', developer_options)
# PGO
# ==============================================================
js_option(env='MOZ_PGO', help='Build with profile guided optimizations')
set_config('MOZ_PGO', depends('MOZ_PGO')(lambda x: bool(x)))
add_old_configure_assignment('MOZ_PGO', depends('MOZ_PGO')(lambda x: bool(x)))
# Code optimization
# ==============================================================
js_option('--disable-optimize',
nargs='?',
help='Disable optimizations via compiler flags')
@depends('--enable-optimize')
def moz_optimize(option):
flags = None
if len(option):
val = '2'
flags = option[0]
elif option:
val = '1'
else:
val = None
return namespace(
optimize=val,
flags=flags,
)
set_config('MOZ_OPTIMIZE', moz_optimize.optimize)
add_old_configure_assignment('MOZ_OPTIMIZE', moz_optimize.optimize)
add_old_configure_assignment('MOZ_CONFIGURE_OPTIMIZE_FLAGS', moz_optimize.flags)
# yasm detection
# ==============================================================
yasm = check_prog('YASM', ['yasm'], allow_missing=True)
@depends_if(yasm)
@checking('yasm version')
def yasm_version(yasm):
version = check_cmd_output(
yasm, '--version',
onerror=lambda: die('Failed to get yasm version.')
).splitlines()[0].split()[1]
return Version(version)
@depends_if(yasm_version)
def yasm_major_version(yasm_version):
return str(yasm_version.major)
@depends_if(yasm_version)
def yasm_minor_version(yasm_version):
return str(yasm_version.minor)
set_config('YASM_MAJOR_VERSION', yasm_major_version)
set_config('YASM_MINOR_VERSION', yasm_minor_version)
# Until we move all the yasm consumers out of old-configure.
# bug 1257904
add_old_configure_assignment('_YASM_MAJOR_VERSION',
yasm_version.major)
add_old_configure_assignment('_YASM_MINOR_VERSION',
yasm_version.minor)
@depends(yasm, target)
def yasm_asflags(yasm, target):
if yasm:
asflags = {
('OSX', 'x86'): ['-f', 'macho32'],
('OSX', 'x86_64'): ['-f', 'macho64'],
('WINNT', 'x86'): ['-f', 'win32'],
('WINNT', 'x86_64'): ['-f', 'x64'],
}.get((target.os, target.cpu), None)
if asflags is None:
# We're assuming every x86 platform we support that's
# not Windows or Mac is ELF.
if target.cpu == 'x86':
asflags = ['-f', 'elf32']
elif target.cpu == 'x86_64':
asflags = ['-f', 'elf64']
if asflags:
asflags += ['-rnasm', '-pnasm']
return asflags
set_config('YASM_ASFLAGS', yasm_asflags)
# nasm detection
# ==============================================================
nasm = check_prog('NASM', ['nasm'], allow_missing=True)
@depends_if(nasm)
@checking('nasm version')
def nasm_version(nasm):
(retcode, stdout, _) = get_cmd_output(nasm, '-v')
if retcode:
# mac stub binary
return None
version = stdout.splitlines()[0].split()[2]
return Version(version)
@depends_if(nasm_version)
def nasm_major_version(nasm_version):
return str(nasm_version.major)
@depends_if(nasm_version)
def nasm_minor_version(nasm_version):
return str(nasm_version.minor)
set_config('NASM_MAJOR_VERSION', nasm_major_version)
set_config('NASM_MINOR_VERSION', nasm_minor_version)
@depends(nasm, target)
def nasm_asflags(nasm, target):
if nasm:
asflags = {
('OSX', 'x86'): ['-f', 'macho32'],
('OSX', 'x86_64'): ['-f', 'macho64'],
('WINNT', 'x86'): ['-f', 'win32'],
('WINNT', 'x86_64'): ['-f', 'win64'],
}.get((target.os, target.cpu), None)
if asflags is None:
# We're assuming every x86 platform we support that's
# not Windows or Mac is ELF.
if target.cpu == 'x86':
asflags = ['-f', 'elf32']
elif target.cpu == 'x86_64':
asflags = ['-f', 'elf64']
return asflags
set_config('NASM_ASFLAGS', nasm_asflags)
@depends(nasm_asflags)
def have_nasm(value):
if value:
return True
@depends(yasm_asflags)
def have_yasm(yasm_asflags):
if yasm_asflags:
return True
set_config('HAVE_NASM', have_nasm)
set_config('HAVE_YASM', have_yasm)
# Until the YASM variable is not necessary in old-configure.
add_old_configure_assignment('YASM', have_yasm)
# Android NDK
# ==============================================================
@depends('--disable-compile-environment', build_project)
def compiling_android(compile_env, build_project):
return compile_env and build_project in ('mobile/android', 'js')
include('android-ndk.configure', when=compiling_android)
with only_when(target_is_osx):
# MacOS deployment target version
# ==============================================================
# This needs to happen before any compilation test is done.
option('--enable-macos-target', env='MACOSX_DEPLOYMENT_TARGET', nargs=1,
default='10.9', help='Set the minimum MacOS version needed at runtime')
@depends('--enable-macos-target')
@imports(_from='os', _import='environ')
def macos_target(value):
if value:
# Ensure every compiler process we spawn uses this value.
environ['MACOSX_DEPLOYMENT_TARGET'] = value[0]
return value[0]
set_config('MACOSX_DEPLOYMENT_TARGET', macos_target)
add_old_configure_assignment('MACOSX_DEPLOYMENT_TARGET', macos_target)
# MacOS SDK
# =========
option('--with-macos-sdk', env='MACOS_SDK_DIR', nargs=1,
help='Location of platform SDK to use')
@depends_if('--with-macos-sdk')
@imports(_from='os.path', _import='isdir')
def macos_sdk(value):
if not isdir(value[0]):
die('SDK not found in %s. When using --with-macos-sdk, you must specify a '
'valid SDK. SDKs are installed when the optional cross-development '
'tools are selected during the Xcode/Developer Tools installation.'
% value[0])
return value[0]
set_config('MACOS_SDK_DIR', macos_sdk)
with only_when(cross_compiling):
option('--with-macos-private-frameworks',
env="MACOS_PRIVATE_FRAMEWORKS_DIR", nargs=1,
help='Location of private frameworks to use')
@depends_if('--with-macos-private-frameworks')
@imports(_from='os.path', _import='isdir')
def macos_private_frameworks(value):
if value and not isdir(value[0]):
die('PrivateFrameworks not found not found in %s. When using '
'--with-macos-private-frameworks, you must specify a valid '
'directory', value[0])
return value[0]
@depends(macos_private_frameworks)
def macos_private_frameworks(value):
if value:
return value
return '/System/Library/PrivateFrameworks'
set_config('MACOS_PRIVATE_FRAMEWORKS_DIR', macos_private_frameworks)
# Xcode state
# ===========
js_option('--disable-xcode-checks',
help='Do not check that Xcode is installed and properly configured')
@depends(host, '--disable-xcode-checks')
def xcode_path(host, xcode_checks):
if host.kernel != 'Darwin' or not xcode_checks:
return
# xcode-select -p prints the path to the installed Xcode. It
# should exit 0 and return non-empty result if Xcode is installed.
def bad_xcode_select():
die('Could not find installed Xcode; install Xcode from the App '
'Store, run it once to perform initial configuration, and then '
'try again; in the rare case you wish to build without Xcode '
'installed, add the --disable-xcode-checks configure flag')
xcode_path = check_cmd_output('xcode-select', '--print-path',
onerror=bad_xcode_select).strip()
if not xcode_path:
bad_xcode_select()
# Now look for the Command Line Tools.
def no_cltools():
die('Could not find installed Xcode Command Line Tools; '
'run `xcode-select --install` and follow the instructions '
'to install them then try again; if you wish to build without '
'Xcode Command Line Tools installed, '
'add the --disable-xcode-checks configure flag')
check_cmd_output('pkgutil', '--pkg-info',
'com.apple.pkg.CLTools_Executables',
onerror=no_cltools)
return xcode_path
set_config('XCODE_PATH', xcode_path)
# Compiler wrappers
# ==============================================================
# Normally, we'd use js_option and automatically have those variables
# propagated to js/src, but things are complicated by possible additional
# wrappers in CC/CXX, and by other subconfigures that do not handle those
# options and do need CC/CXX altered.
option('--with-compiler-wrapper', env='COMPILER_WRAPPER', nargs=1,
help='Enable compiling with wrappers such as distcc and ccache')
js_option('--with-ccache', env='CCACHE', nargs='?',
help='Enable compiling with ccache')
@depends_if('--with-ccache')
def ccache(value):
if len(value):
return value
# If --with-ccache was given without an explicit value, we default to
# 'ccache'.
return 'ccache'
ccache = check_prog('CCACHE', progs=(), input=ccache)
# Distinguish ccache from sccache.
@depends_if(ccache)
def ccache_is_sccache(ccache):
return check_cmd_output(ccache, '--version').startswith('sccache')
@depends(ccache, ccache_is_sccache)
def using_ccache(ccache, ccache_is_sccache):
return ccache and not ccache_is_sccache
@depends_if(ccache, ccache_is_sccache)
def using_sccache(ccache, ccache_is_sccache):
return ccache and ccache_is_sccache
set_config('MOZ_USING_CCACHE', using_ccache)
set_config('MOZ_USING_SCCACHE', using_sccache)
option(env='SCCACHE_VERBOSE_STATS',
help='Print verbose sccache stats after build')
@depends(using_sccache, 'SCCACHE_VERBOSE_STATS')
def sccache_verbose_stats(using_sccache, verbose_stats):
return using_sccache and bool(verbose_stats)
set_config('SCCACHE_VERBOSE_STATS', sccache_verbose_stats)
@depends('--with-compiler-wrapper', ccache)
@imports(_from='mozbuild.shellutil', _import='split', _as='shell_split')
def compiler_wrapper(wrapper, ccache):
if wrapper:
raw_wrapper = wrapper[0]
wrapper = shell_split(raw_wrapper)
wrapper_program = find_program(wrapper[0])
if not wrapper_program:
die('Cannot find `%s` from the given compiler wrapper `%s`',
wrapper[0], raw_wrapper)
wrapper[0] = wrapper_program
if ccache:
if wrapper:
return tuple([ccache] + wrapper)
else:
return (ccache,)
elif wrapper:
return tuple(wrapper)
add_old_configure_assignment('COMPILER_WRAPPER', compiler_wrapper)
@depends_if(compiler_wrapper)
def using_compiler_wrapper(compiler_wrapper):
return True
set_config('MOZ_USING_COMPILER_WRAPPER', using_compiler_wrapper)
# GC rooting and hazard analysis.
# ==============================================================
option(env='MOZ_HAZARD', help='Build for the GC rooting hazard analysis')
@depends('MOZ_HAZARD')
def hazard_analysis(value):
if value:
return True
set_config('MOZ_HAZARD', hazard_analysis)
# Cross-compilation related things.
# ==============================================================
js_option('--with-toolchain-prefix', env='TOOLCHAIN_PREFIX', nargs=1,
help='Prefix for the target toolchain')
@depends('--with-toolchain-prefix', target, cross_compiling)
def toolchain_prefix(value, target, cross_compiling):
if value:
return tuple(value)
if cross_compiling:
return ('%s-' % target.toolchain, '%s-' % target.alias)
@depends(toolchain_prefix, target)
def first_toolchain_prefix(toolchain_prefix, target):
# Pass TOOLCHAIN_PREFIX down to the build system if it was given from the
# command line/environment (in which case there's only one value in the tuple),
# or when cross-compiling for Android or OSX.
if toolchain_prefix and (target.os in ('Android', 'OSX') or len(toolchain_prefix) == 1):
return toolchain_prefix[0]
set_config('TOOLCHAIN_PREFIX', first_toolchain_prefix)
add_old_configure_assignment('TOOLCHAIN_PREFIX', first_toolchain_prefix)
# Compilers
# ==============================================================
include('compilers-util.configure')
def try_preprocess(compiler, language, source):
return try_invoke_compiler(compiler, language, source, ['-E'])
@imports(_from='mozbuild.configure.constants', _import='CompilerType')
@imports(_from='mozbuild.configure.constants',
_import='CPU_preprocessor_checks')
@imports(_from='mozbuild.configure.constants',
_import='kernel_preprocessor_checks')
@imports(_from='mozbuild.configure.constants',
_import='OS_preprocessor_checks')
@imports(_from='textwrap', _import='dedent')
def get_compiler_info(compiler, language):
'''Returns information about the given `compiler` (command line in the
form of a list or tuple), in the given `language`.
The returned information includes:
- the compiler type (msvc, clang-cl, clang or gcc)
- the compiler version
- the compiler supported language
- the compiler supported language version
'''
# Note: MSVC doesn't expose __STDC_VERSION__. It does expose __STDC__,
# but only when given the -Za option, which disables compiler
# extensions.
# Note: We'd normally do a version check for clang, but versions of clang
# in Xcode have a completely different versioning scheme despite exposing
# the version with the same defines.
# So instead, we make things such that the version is missing when the
# clang used is below the minimum supported version (currently clang 3.9).
# We then only include the version information when the C++ compiler
# matches the feature check, so that an unsupported version of clang would
# have no version number.
check = dedent('''\
#if defined(_MSC_VER)
#if defined(__clang__)
%COMPILER "clang-cl"
%VERSION _MSC_FULL_VER
#else
%COMPILER "msvc"
%VERSION _MSC_FULL_VER
#endif
#elif defined(__clang__)
%COMPILER "clang"
# if !__cplusplus || __has_builtin(__builtin_bitreverse8)
%VERSION __clang_major__.__clang_minor__.__clang_patchlevel__
# endif
#elif defined(__GNUC__)
%COMPILER "gcc"
%VERSION __GNUC__.__GNUC_MINOR__.__GNUC_PATCHLEVEL__
#endif
#if __cplusplus
%cplusplus __cplusplus
#elif __STDC_VERSION__
%STDC_VERSION __STDC_VERSION__
#elif __STDC__
%STDC_VERSION 198900L
#endif
''')
# While we're doing some preprocessing, we might as well do some more
# preprocessor-based tests at the same time, to check the toolchain
# matches what we want.
for name, preprocessor_checks in (
('CPU', CPU_preprocessor_checks),
('KERNEL', kernel_preprocessor_checks),
('OS', OS_preprocessor_checks),
):
for n, (value, condition) in enumerate(preprocessor_checks.iteritems()):
check += dedent('''\
#%(if)s %(condition)s
%%%(name)s "%(value)s"
''' % {
'if': 'elif' if n else 'if',
'condition': condition,
'name': name,
'value': value,
})
check += '#endif\n'
# Also check for endianness. The advantage of living in modern times is
# that all the modern compilers we support now have __BYTE_ORDER__ defined
# by the preprocessor, except MSVC, which only supports little endian.
check += dedent('''\
#if _MSC_VER || __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__
%ENDIANNESS "little"
#elif __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
%ENDIANNESS "big"
#endif
''')
result = try_preprocess(compiler, language, check)
if not result:
raise FatalCheckError(
'Unknown compiler or compiler not supported.')
# Metadata emitted by preprocessors such as GCC with LANG=ja_JP.utf-8 may
# have non-ASCII characters. Treat the output as bytearray.
data = {}
for line in result.splitlines():
if line.startswith(b'%'):
k, _, v = line.partition(' ')
k = k.lstrip('%')
data[k] = v.replace(' ', '').lstrip('"').rstrip('"')
log.debug('%s = %s', k, data[k])
try:
type = CompilerType(data['COMPILER'])
except Exception:
raise FatalCheckError(
'Unknown compiler or compiler not supported.')
cplusplus = int(data.get('cplusplus', '0L').rstrip('L'))
stdc_version = int(data.get('STDC_VERSION', '0L').rstrip('L'))
version = data.get('VERSION')
if version and type in ('msvc', 'clang-cl'):
msc_ver = version
version = msc_ver[0:2]
if len(msc_ver) > 2:
version += '.' + msc_ver[2:4]
if len(msc_ver) > 4:
version += '.' + msc_ver[4:]
if version:
version = Version(version)
return namespace(
type=type,
version=version,
cpu=data.get('CPU'),
kernel=data.get('KERNEL'),
endianness=data.get('ENDIANNESS'),
os=data.get('OS'),
language='C++' if cplusplus else 'C',
language_version=cplusplus if cplusplus else stdc_version,
)
def same_arch_different_bits():
return (
('x86', 'x86_64'),
('ppc', 'ppc64'),
('sparc', 'sparc64'),
)
@imports(_from='mozbuild.shellutil', _import='quote')
@imports(_from='mozbuild.configure.constants',
_import='OS_preprocessor_checks')
def check_compiler(compiler, language, target):
info = get_compiler_info(compiler, language)
flags = []
def append_flag(flag):
if flag not in flags:
if info.type == 'clang-cl':
flags.append('-Xclang')
flags.append(flag)
# Check language standards
# --------------------------------------------------------------------
if language != info.language:
raise FatalCheckError(
'`%s` is not a %s compiler.' % (quote(*compiler), language))
# Note: We do a strict version check because there sometimes are backwards
# incompatible changes in the standard, and not all code that compiles as
# C99 compiles as e.g. C11 (as of writing, this is true of libnestegg, for
# example)
if info.language == 'C' and info.language_version != 199901:
if info.type in ('clang-cl', 'clang', 'gcc'):
append_flag('-std=gnu99')
# Note: MSVC, while supporting C++14, still reports 199711L for __cplusplus.
# Note: this is a strict version check because we used to always add
# -std=gnu++14.
cxx14_version = 201402
if info.language == 'C++':
if info.type == 'clang' and info.language_version != cxx14_version:
append_flag('-std=gnu++14')
# MSVC headers include C++14 features, but don't guard them
# with appropriate checks.
elif info.type == 'clang-cl' and info.language_version != cxx14_version:
append_flag('-std=c++14')
# We force clang-cl to emulate Visual C++ 2017 version 15.8.4
msvc_version = '19.15.26726'
if info.type == 'clang-cl' and info.version != msvc_version:
# This flag is a direct clang-cl flag that doesn't need -Xclang,
# add it directly.
flags.append('-fms-compatibility-version=%s' % msvc_version)
# Check compiler target
# --------------------------------------------------------------------
if not info.cpu or info.cpu != target.cpu:
if info.type == 'clang':
append_flag('--target=%s' % target.toolchain)
elif info.type == 'clang-cl':
# Ideally this would share the 'clang' branch above, but on Windows
# the --target needs additional data like ms-compatibility-version.
if (info.cpu, target.cpu) == ('x86_64', 'x86'):
# -m32 does not use -Xclang, so add it directly.
flags.append('-m32')
elif target.toolchain == 'aarch64-mingw32':
# clang-cl uses a different name for this target
flags.append('--target=aarch64-windows-msvc')
elif info.type == 'gcc':
same_arch = same_arch_different_bits()
if (target.cpu, info.cpu) in same_arch:
append_flag('-m32')
elif (info.cpu, target.cpu) in same_arch:
append_flag('-m64')
if not info.kernel or info.kernel != target.kernel:
if info.type == 'clang':
append_flag('--target=%s' % target.toolchain)
if not info.endianness or info.endianness != target.endianness:
if info.type == 'clang':
append_flag('--target=%s' % target.toolchain)
# Add target flag when there is an OS mismatch (e.g. building for Android on
# Linux). However, only do this if the target OS is in our whitelist, to
# keep things the same on other platforms.
if target.os in OS_preprocessor_checks and (
not info.os or info.os != target.os):
if info.type == 'clang':
append_flag('--target=%s' % target.toolchain)
return namespace(
type=info.type,
version=info.version,
target_cpu=info.cpu,
target_kernel=info.kernel,
target_endianness=info.endianness,
target_os=info.os,
flags=flags,
)
@imports(_from='__builtin__', _import='open')
@imports('json')
@imports('subprocess')
@imports('sys')
def get_vc_paths(topsrcdir):
def vswhere(args):
encoding = 'mbcs' if sys.platform == 'win32' else 'utf-8'
return json.loads(
subprocess.check_output([
os.path.join(topsrcdir, 'build/win32/vswhere.exe'),
'-format',
'json'
] + args).decode(encoding, 'replace'))
for install in vswhere(['-products', '*', '-requires', 'Microsoft.VisualStudio.Component.VC.Tools.x86.x64']):
path = install['installationPath']
tools_version = open(os.path.join(
path, r'VC\Auxiliary\Build\Microsoft.VCToolsVersion.default.txt'), 'rb').read().strip()
tools_path = os.path.join(
path, r'VC\Tools\MSVC', tools_version, r'bin\HostX64')
yield (Version(install['installationVersion']), {
'x64': [os.path.join(tools_path, 'x64')],
# The x64->x86 cross toolchain requires DLLs from the native x64 toolchain.
'x86': [os.path.join(tools_path, 'x86'), os.path.join(tools_path, 'x64')],
'arm64': [os.path.join(tools_path, 'x64')],
})
js_option('--with-visual-studio-version', nargs=1,
choices=('2017',),
help='Select a specific Visual Studio version to use')
@depends('--with-visual-studio-version')
def vs_major_version(value):
if value:
return {'2017': 15}[value[0]]
@depends(host, target, vs_major_version, check_build_environment, '--with-visual-studio-version')
@imports(_from='__builtin__', _import='sorted')
@imports(_from='operator', _import='itemgetter')
@imports('platform')
def vc_compiler_path(host, target, vs_major_version, env, vs_release_name):
if host.kernel != 'WINNT':
return
vc_target = {
'x86': 'x86',
'x86_64': 'x64',
'arm': 'arm',
'aarch64': 'arm64'
}.get(target.cpu)
if vc_target is None:
return
all_versions = sorted(get_vc_paths(env.topsrcdir), key=itemgetter(0))
if not all_versions:
return
if vs_major_version:
versions = [d for (v, d) in all_versions if v.major ==
vs_major_version]
if not versions:
die('Visual Studio %s could not be found!' % vs_release_name)
data = versions[0]
else:
# Choose the newest version.
data = all_versions[-1][1]
paths = data.get(vc_target)
if not paths:
return
return paths
@depends(vc_compiler_path)
@imports('os')
@imports(_from='os', _import='environ')
def toolchain_search_path(vc_compiler_path):
result = [environ.get('PATH')]
if vc_compiler_path:
result.extend(vc_compiler_path)
# Also add in the location to which `mach bootstrap` or
# `mach artifact toolchain` installs clang.
mozbuild_state_dir = environ.get('MOZBUILD_STATE_PATH',
os.path.expanduser(os.path.join('~', '.mozbuild')))
bootstrap_clang_path = os.path.join(mozbuild_state_dir, 'clang', 'bin')
result.append(bootstrap_clang_path)
bootstrap_cbindgen_path = os.path.join(mozbuild_state_dir, 'cbindgen')
result.append(bootstrap_cbindgen_path)
if vc_compiler_path:
# We're going to alter PATH for good in windows.configure, but we also
# need to do it for the valid_compiler() check below. This is only needed
# on Windows, where MSVC needs PATH set to find dlls.
environ['PATH'] = os.pathsep.join(result)
return result
@template
def default_c_compilers(host_or_target, other_c_compiler=None):
'''Template defining the set of default C compilers for the host and
target platforms.
`host_or_target` is either `host` or `target` (the @depends functions
from init.configure.
`other_c_compiler` is the `target` C compiler when `host_or_target` is `host`.
'''
assert host_or_target in {host, target}
other_c_compiler = () if other_c_compiler is None else (other_c_compiler,)
@depends(host_or_target, target, toolchain_prefix, android_clang_compiler,
*other_c_compiler)
def default_c_compilers(host_or_target, target, toolchain_prefix,
android_clang_compiler, *other_c_compiler):
if host_or_target.kernel == 'WINNT':
supported = types = ('clang-cl', 'msvc', 'gcc', 'clang')
elif host_or_target.kernel == 'Darwin':
types = ('clang',)
supported = ('clang', 'gcc')
else:
supported = types = ('clang', 'gcc')
info = other_c_compiler[0] if other_c_compiler else None
if info and info.type in supported:
# When getting default C compilers for the host, we prioritize the
# same compiler as the target C compiler.
prioritized = info.compiler
if info.type == 'gcc':
same_arch = same_arch_different_bits()
if (target.cpu != host_or_target.cpu and
(target.cpu, host_or_target.cpu) not in same_arch and
(host_or_target.cpu, target.cpu) not in same_arch):
# If the target C compiler is GCC, and it can't be used with
# -m32/-m64 for the host, it's probably toolchain-prefixed,
# so we prioritize a raw 'gcc' instead.
prioritized = info.type
elif info.type == 'clang' and android_clang_compiler:
# Android NDK clangs do not function as host compiler, so
# prioritize a raw 'clang' instead.
prioritized = info.type
types = [prioritized] + [t for t in types if t != info.type]
gcc = ('gcc',)
if toolchain_prefix and host_or_target is target:
gcc = tuple('%sgcc' % p for p in toolchain_prefix) + gcc
result = []
for type in types:
# Android sets toolchain_prefix and android_clang_compiler, but
# we want the latter to take precedence, because the latter can
# point at clang, which is what we want to use.
if type == 'clang' and android_clang_compiler and host_or_target is target:
result.append(android_clang_compiler)
elif type == 'gcc':
result.extend(gcc)
elif type == 'msvc':
result.append('cl')
else:
result.append(type)
return tuple(result)
return default_c_compilers
@template
def default_cxx_compilers(c_compiler, other_c_compiler=None, other_cxx_compiler=None):
'''Template defining the set of default C++ compilers for the host and
target platforms.
`c_compiler` is the @depends function returning a Compiler instance for
the desired platform.
Because the build system expects the C and C++ compilers to be from the
same compiler suite, we derive the default C++ compilers from the C
compiler that was found if none was provided.
We also factor in the target C++ compiler when getting the default host
C++ compiler, using the target C++ compiler if the host and target C
compilers are the same.
'''
assert (other_c_compiler is None) == (other_cxx_compiler is None)
if other_c_compiler is not None:
other_compilers = (other_c_compiler, other_cxx_compiler)
else:
other_compilers = ()
@depends(c_compiler, *other_compilers)
def default_cxx_compilers(c_compiler, *other_compilers):
if other_compilers:
other_c_compiler, other_cxx_compiler = other_compilers
if other_c_compiler.compiler == c_compiler.compiler:
return (other_cxx_compiler.compiler,)
dir = os.path.dirname(c_compiler.compiler)
file = os.path.basename(c_compiler.compiler)
if c_compiler.type == 'gcc':
return (os.path.join(dir, file.replace('gcc', 'g++')),)
if c_compiler.type == 'clang':
return (os.path.join(dir, file.replace('clang', 'clang++')),)
return (c_compiler.compiler,)
return default_cxx_compilers
@template
def provided_program(env_var):
'''Template handling cases where a program can be specified either as a
path or as a path with applicable arguments.
'''
@depends_if(env_var)
@imports(_from='itertools', _import='takewhile')
@imports(_from='mozbuild.shellutil', _import='split', _as='shell_split')
def provided(cmd):
# Assume the first dash-prefixed item (and any subsequent items) are
# command-line options, the item before the dash-prefixed item is
# the program we're looking for, and anything before that is a wrapper
# of some kind (e.g. sccache).
cmd = shell_split(cmd[0])
without_flags = list(takewhile(lambda x: not x.startswith('-'), cmd))
return namespace(
wrapper=without_flags[:-1],
program=without_flags[-1],
flags=cmd[len(without_flags):],
)
return provided
@template
def compiler(language, host_or_target, c_compiler=None, other_compiler=None,
other_c_compiler=None):
'''Template handling the generic base checks for the compiler for the
given `language` on the given platform (`host_or_target`).
`host_or_target` is either `host` or `target` (the @depends functions
from init.configure.
When the language is 'C++', `c_compiler` is the result of the `compiler`
template for the language 'C' for the same `host_or_target`.
When `host_or_target` is `host`, `other_compiler` is the result of the
`compiler` template for the same `language` for `target`.
When `host_or_target` is `host` and the language is 'C++',
`other_c_compiler` is the result of the `compiler` template for the
language 'C' for `target`.
'''
assert host_or_target in {host, target}
assert language in ('C', 'C++')
assert language == 'C' or c_compiler is not None
assert host_or_target is target or other_compiler is not None
assert language == 'C' or host_or_target is target or \
other_c_compiler is not None
host_or_target_str = {
host: 'host',
target: 'target',
}[host_or_target]
var = {
('C', target): 'CC',
('C++', target): 'CXX',
('C', host): 'HOST_CC',
('C++', host): 'HOST_CXX',
}[language, host_or_target]
default_compilers = {
'C': lambda: default_c_compilers(host_or_target, other_compiler),
'C++': lambda: default_cxx_compilers(c_compiler, other_c_compiler, other_compiler),
}[language]()
what = 'the %s %s compiler' % (host_or_target_str, language)
option(env=var, nargs=1, help='Path to %s' % what)
# Handle the compiler given by the user through one of the CC/CXX/HOST_CC/
# HOST_CXX variables.
provided_compiler = provided_program(var)
# Normally, we'd use `var` instead of `_var`, but the interaction with
# old-configure complicates things, and for now, we a) can't take the plain
# result from check_prog as CC/CXX/HOST_CC/HOST_CXX and b) have to let
# old-configure AC_SUBST it (because it's autoconf doing it, not us)
compiler = check_prog('_%s' % var, what=what, progs=default_compilers,
input=provided_compiler.program,
paths=toolchain_search_path)
@depends(compiler, provided_compiler, compiler_wrapper, host_or_target, macos_sdk)
@checking('whether %s can be used' % what, lambda x: bool(x))
@imports(_from='mozbuild.shellutil', _import='quote')
def valid_compiler(compiler, provided_compiler, compiler_wrapper,
host_or_target, macos_sdk):
wrapper = list(compiler_wrapper or ())
if provided_compiler:
provided_wrapper = list(provided_compiler.wrapper)
# When doing a subconfigure, the compiler is set by old-configure
# and it contains the wrappers from --with-compiler-wrapper and
# --with-ccache.
if provided_wrapper[:len(wrapper)] == wrapper:
provided_wrapper = provided_wrapper[len(wrapper):]
wrapper.extend(provided_wrapper)
flags = provided_compiler.flags
else:
flags = []
if not flags and macos_sdk and host_or_target.os == 'OSX':
flags = ['-isysroot', macos_sdk]
# Ideally, we'd always use the absolute path, but unfortunately, on
# Windows, the compiler is very often in a directory containing spaces.
# Unfortunately, due to the way autoconf does its compiler tests with
# eval, that doesn't work out. So in that case, check that the
# compiler can still be found in $PATH, and use the file name instead
# of the full path.
if quote(compiler) != compiler:
full_path = os.path.abspath(compiler)
compiler = os.path.basename(compiler)
found_compiler = find_program(compiler)
if not found_compiler:
die('%s is not in your $PATH'
% quote(os.path.dirname(full_path)))
if os.path.normcase(find_program(compiler)) != os.path.normcase(
full_path):
die('Found `%s` before `%s` in your $PATH. '
'Please reorder your $PATH.',
quote(os.path.dirname(found_compiler)),
quote(os.path.dirname(full_path)))
info = check_compiler(wrapper + [compiler] + flags, language,
host_or_target)
# Check that the additional flags we got are enough to not require any
# more flags. If we get an exception, just ignore it; it's liable to be
# invalid command-line flags, which means the compiler we're checking
# doesn't support those command-line flags and will fail one or more of
# the checks below.
try:
if info.flags:
flags += info.flags
info = check_compiler(wrapper + [compiler] + flags, language,
host_or_target)
except FatalCheckError:
pass
if not info.target_cpu or info.target_cpu != host_or_target.cpu:
raise FatalCheckError(
'%s %s compiler target CPU (%s) does not match --%s CPU (%s)'
% (host_or_target_str.capitalize(), language,
info.target_cpu or 'unknown', host_or_target_str,
host_or_target.raw_cpu))
if not info.target_kernel or (info.target_kernel !=
host_or_target.kernel):
raise FatalCheckError(
'%s %s compiler target kernel (%s) does not match --%s kernel (%s)'
% (host_or_target_str.capitalize(), language,
info.target_kernel or 'unknown', host_or_target_str,
host_or_target.kernel))
if not info.target_endianness or (info.target_endianness !=
host_or_target.endianness):
raise FatalCheckError(
'%s %s compiler target endianness (%s) does not match --%s '
'endianness (%s)'
% (host_or_target_str.capitalize(), language,
info.target_endianness or 'unknown', host_or_target_str,
host_or_target.endianness))
# Compiler version checks
# ===================================================
# Check the compiler version here instead of in `compiler_version` so
# that the `checking` message doesn't pretend the compiler can be used
# to then bail out one line later.
if info.type == 'gcc':
if host_or_target.os == 'Android':
raise FatalCheckError('GCC is not supported on Android.\n'
'Please use clang from the Android NDK instead.')
if info.version < '6.1.0':
raise FatalCheckError(
'Only GCC 6.1 or newer is supported (found version %s).'
% info.version)
# If you want to bump the version check here search for
# builtin_bitreverse8 above, and see the associated comment.
if info.type == 'clang' and not info.version:
raise FatalCheckError(
'Only clang/llvm 3.9 or newer is supported.')
if info.type == 'msvc':
if info.version < '19.15.26726':
raise FatalCheckError(
'This version (%s) of the MSVC compiler is not '
'supported.\n'
'You must install Visual C++ 2017 Update 8 or '
'later in order to build.\n'
'See https://developer.mozilla.org/en/'
'Windows_Build_Prerequisites' % info.version)
if info.flags:
raise FatalCheckError(
'Unknown compiler or compiler not supported.')
return namespace(
wrapper=wrapper,
compiler=compiler,
flags=flags,
type=info.type,
version=info.version,
language=language,
)
@depends(valid_compiler)
@checking('%s version' % what)
def compiler_version(compiler):
return compiler.version
if language == 'C++':
@depends(valid_compiler, c_compiler)
def valid_compiler(compiler, c_compiler):
if compiler.type != c_compiler.type:
die('The %s C compiler is %s, while the %s C++ compiler is '
'%s. Need to use the same compiler suite.',
host_or_target_str, c_compiler.type,
host_or_target_str, compiler.type)
if compiler.version != c_compiler.version:
die('The %s C compiler is version %s, while the %s C++ '
'compiler is version %s. Need to use the same compiler '
'version.',
host_or_target_str, c_compiler.version,
host_or_target_str, compiler.version)
return compiler
# Set CC/CXX/HOST_CC/HOST_CXX for old-configure, which needs the wrapper
# and the flags that were part of the user input for those variables to
# be provided.
add_old_configure_assignment(var, depends_if(valid_compiler)(
lambda x: list(x.wrapper) + [x.compiler] + list(x.flags)))
# Set CC_TYPE/CC_VERSION/HOST_CC_TYPE/HOST_CC_VERSION to allow
# old-configure to do some of its still existing checks.
if language == 'C':
set_config(
'%s_TYPE' % var, valid_compiler.type)
add_old_configure_assignment(
'%s_TYPE' % var, valid_compiler.type)
add_old_configure_assignment(
'%s_VERSION' % var, valid_compiler.version)
valid_compiler = compiler_class(valid_compiler, host_or_target)
def compiler_error():
raise FatalCheckError('Failed compiling a simple %s source with %s'
% (language, what))
valid_compiler.try_compile(check_msg='%s works' % what,
onerror=compiler_error)
# Set CPP/CXXCPP for both the build system and old-configure. We don't
# need to check this works for preprocessing, because we already relied
# on $CC -E/$CXX -E doing preprocessing work to validate the compiler
# in the first place.
if host_or_target is target:
pp_var = {
'C': 'CPP',
'C++': 'CXXCPP',
}[language]
preprocessor = depends_if(valid_compiler)(
lambda x: list(x.wrapper) + [x.compiler, '-E'] + list(x.flags))
set_config(pp_var, preprocessor)
add_old_configure_assignment(pp_var, preprocessor)
if language == 'C':
linker_var = {
target: 'LD',
host: 'HOST_LD',
}[host_or_target]
@deprecated_option(env=linker_var, nargs=1)
def linker(value):
if value:
return value[0]
@depends(valid_compiler, linker)
def unused_linker(compiler, linker):
if linker and compiler.type != 'msvc':
log.warning('The value of %s is not used by this build system.'
% linker_var)
if host_or_target is target:
@depends(valid_compiler)
def is_msvc(compiler):
return compiler.type == 'msvc'
imply_option('LINKER', linker, reason='LD', when=is_msvc)
return valid_compiler
c_compiler = compiler('C', target)
cxx_compiler = compiler('C++', target, c_compiler=c_compiler)
host_c_compiler = compiler('C', host, other_compiler=c_compiler)
host_cxx_compiler = compiler('C++', host, c_compiler=host_c_compiler,
other_compiler=cxx_compiler,
other_c_compiler=c_compiler)
# Generic compiler-based conditions.
non_msvc_compiler = depends(c_compiler)(lambda info: info.type != 'msvc')
building_with_gcc = depends(c_compiler)(lambda info: info.type == 'gcc')
@depends(c_compiler)
def msvs_version(info):
# clang-cl emulates the same version scheme as cl. And MSVS_VERSION needs to
# be set for GYP on Windows.
if info.type in ('clang-cl', 'msvc'):
if info.version >= '19.10':
return '2017'
return ''
set_config('MSVS_VERSION', msvs_version)
include('compile-checks.configure')
@depends(have_64_bit,
try_compile(body='static_assert(sizeof(void *) == 8, "")',
check_msg='for 64-bit OS'))
def check_have_64_bit(have_64_bit, compiler_have_64_bit):
if have_64_bit != compiler_have_64_bit:
configure_error('The target compiler does not agree with configure '
'about the target bitness.')
@depends(c_compiler, target)
def default_debug_flags(compiler_info, target):
# Debug info is ON by default.
if compiler_info.type in ('msvc', 'clang-cl'):
return '-Zi'
elif target.kernel == 'WINNT' and compiler_info.type == 'clang':
return '-g -gcodeview'
return '-g'
option(env='MOZ_DEBUG_FLAGS',
nargs=1,
help='Debug compiler flags')
imply_option('--enable-debug-symbols',
depends_if('--enable-debug')(lambda v: v))
js_option('--disable-debug-symbols',
nargs='?',
help='Disable debug symbols using the given compiler flags')
set_config('MOZ_DEBUG_SYMBOLS',
depends_if('--enable-debug-symbols')(lambda _: True))
@depends('MOZ_DEBUG_FLAGS', '--enable-debug-symbols', default_debug_flags)
def debug_flags(env_debug_flags, enable_debug_flags, default_debug_flags):
# If MOZ_DEBUG_FLAGS is set, and --enable-debug-symbols is set to a value,
# --enable-debug-symbols takes precedence. Note, the value of
# --enable-debug-symbols may be implied by --enable-debug.
if len(enable_debug_flags):
return enable_debug_flags[0]
if env_debug_flags:
return env_debug_flags[0]
return default_debug_flags
set_config('MOZ_DEBUG_FLAGS', debug_flags)
add_old_configure_assignment('MOZ_DEBUG_FLAGS', debug_flags)
@depends(c_compiler)
def color_cflags(info):
# We could test compiling with flags. By why incur the overhead when
# color support should always be present in a specific toolchain
# version?
# Code for auto-adding this flag to compiler invocations needs to
# determine if an existing flag isn't already present. That is likely
# using exact string matching on the returned value. So if the return
# value changes to e.g. "<x>=always", exact string match may fail and
# multiple color flags could be added. So examine downstream consumers
# before adding flags to return values.
if info.type == 'gcc':
return '-fdiagnostics-color'
elif info.type == 'clang':
return '-fcolor-diagnostics'
else:
return ''
set_config('COLOR_CFLAGS', color_cflags)
# Some standard library headers (notably bionic on Android) declare standard
# functions (e.g. getchar()) and also #define macros for those standard
# functions. libc++ deals with this by doing something like the following
# (explanatory comments added):
#
# #ifdef FUNC
# // Capture the definition of FUNC.
# inline _LIBCPP_INLINE_VISIBILITY int __libcpp_FUNC(...) { return FUNC(...); }
# #undef FUNC
# // Use a real inline definition.
# inline _LIBCPP_INLINE_VISIBILITY int FUNC(...) { return _libcpp_FUNC(...); }
# #endif
#
# _LIBCPP_INLINE_VISIBILITY is typically defined as:
#
# __attribute__((__visibility__("hidden"), __always_inline__))
#
# Unfortunately, this interacts badly with our system header wrappers, as the:
#
# #pragma GCC visibility push(default)
#
# that they do prior to including the actual system header is treated by the
# compiler as an explicit declaration of visibility on every function declared
# in the header. Therefore, when the libc++ code above is encountered, it is
# as though the compiler has effectively seen:
#
# int FUNC(...) __attribute__((__visibility__("default")));
# int FUNC(...) __attribute__((__visibility__("hidden")));
#
# and the compiler complains about the mismatched visibility declarations.
#
# However, libc++ will only define _LIBCPP_INLINE_VISIBILITY if there is no
# existing definition. We can therefore define it to the empty string (since
# we are properly managing visibility ourselves) and avoid this whole mess.
# Note that we don't need to do this with gcc, as libc++ detects gcc and
# effectively does the same thing we are doing here.
#
# _LIBCPP_ALWAYS_INLINE needs similar workarounds, since it too declares
# hidden visibility.
@depends(c_compiler, target)
def libcxx_override_visibility(c_compiler, target):
if c_compiler.type == 'clang' and target.os == 'Android':
return ''
set_define('_LIBCPP_INLINE_VISIBILITY', libcxx_override_visibility)
set_define('_LIBCPP_INLINE_VISIBILITY_EXCEPT_GCC49',
libcxx_override_visibility)
set_define('_LIBCPP_ALWAYS_INLINE', libcxx_override_visibility)
set_define('_LIBCPP_ALWAYS_INLINE_EXCEPT_GCC49', libcxx_override_visibility)
@depends(target, check_build_environment)
def visibility_flags(target, env):
if target.os != 'WINNT':
if target.kernel == 'Darwin':
return ('-fvisibility=hidden', '-fvisibility-inlines-hidden')
return ('-I%s/system_wrappers' % os.path.join(env.dist),
'-include',
'%s/config/gcc_hidden.h' % env.topsrcdir)
@depends(target, visibility_flags)
def wrap_system_includes(target, visibility_flags):
if visibility_flags and target.kernel != 'Darwin':
return True
set_define('HAVE_VISIBILITY_HIDDEN_ATTRIBUTE',
depends(visibility_flags)(lambda v: bool(v) or None))
set_define('HAVE_VISIBILITY_ATTRIBUTE',
depends(visibility_flags)(lambda v: bool(v) or None))
set_config('WRAP_SYSTEM_INCLUDES', wrap_system_includes)
set_config('VISIBILITY_FLAGS', visibility_flags)
@depends(c_compiler, using_sccache)
def depend_cflags(info, using_sccache):
if info.type not in ('clang-cl', 'msvc'):
return ['-MD', '-MP', '-MF $(MDDEPDIR)/$(@F).pp']
elif info.type == 'clang-cl':
# clang-cl doesn't accept the normal -MD -MP -MF options that clang
# does, but the underlying cc1 binary understands how to generate
# dependency files. These options are based on analyzing what the
# normal clang driver sends to cc1 when given the "correct"
# dependency options.
return [
'-Xclang', '-MP',
'-Xclang', '-dependency-file',
'-Xclang', '$(MDDEPDIR)/$(@F).pp',
'-Xclang', '-MT',
'-Xclang', '$@'
]
elif using_sccache:
# sccache supports a special flag to create depfiles
# by parsing MSVC's -showIncludes output.
return ['-deps$(MDDEPDIR)/$(@F).pp']
set_config('_DEPEND_CFLAGS', depend_cflags)
@depends(c_compiler, check_build_environment, target)
@imports('multiprocessing')
@imports(_from='__builtin__', _import='min')
def pgo_flags(compiler, build_env, target):
topobjdir = build_env.topobjdir
if topobjdir.endswith('/js/src'):
topobjdir = topobjdir[:-7]
if compiler.type == 'gcc':
return namespace(
gen_cflags=['-fprofile-generate'],
gen_ldflags=['-fprofile-generate'],
use_cflags=['-fprofile-use', '-fprofile-correction',
'-Wcoverage-mismatch'],
use_ldflags=['-fprofile-use'],
)
if compiler.type in ('clang-cl', 'clang'):
profdata = os.path.join(topobjdir, 'merged.profdata')
if compiler.type == 'clang-cl':
if target.cpu == 'x86_64':
gen_ldflags = ['clang_rt.profile-x86_64.lib']
elif target.cpu == 'x86':
gen_ldflags = ['clang_rt.profile-i386.lib']
else:
gen_ldflags = None
else:
gen_ldflags = ['-fprofile-instr-generate']
if gen_ldflags:
return namespace(
gen_cflags=['-fprofile-instr-generate'],
gen_ldflags=gen_ldflags,
use_cflags=['-fprofile-instr-use=%s' % profdata,
'-Wno-error=profile-instr-out-of-date',
'-Wno-error=profile-instr-unprofiled'],
use_ldflags=[],
)
if compiler.type == 'msvc':
num_cores = min(8, multiprocessing.cpu_count())
cgthreads = '-CGTHREADS:%s' % num_cores
return namespace(
gen_cflags=['-GL'],
gen_ldflags=['-LTCG:PGINSTRUMENT', '-PogoSafeMode', cgthreads],
# XXX: PGO builds can fail with warnings treated as errors,
# specifically "no profile data available" appears to be
# treated as an error sometimes. This might be a consequence
# of using WARNINGS_AS_ERRORS in some modules, combined
# with the linker doing most of the work in the whole-program
# optimization/PGO case. I think it's probably a compiler bug,
# but we work around it here.
use_cflags=['-GL', '-wd4624', '-wd4952'],
# XXX: should be -LTCG:PGOPTIMIZE, but that fails on libxul.
# Probably also a compiler bug, but what can you do?
# /d2:-cgsummary prints a summary of what is happening during
# code generation. How long individual functions are optimized,
# which functions are optimized, etc.
use_ldflags=['-LTCG:PGUPDATE', cgthreads, '-d2:-cgsummary'],
)
set_config('PROFILE_GEN_CFLAGS', pgo_flags.gen_cflags)
set_config('PROFILE_GEN_LDFLAGS', pgo_flags.gen_ldflags)
set_config('PROFILE_USE_CFLAGS', pgo_flags.use_cflags)
set_config('PROFILE_USE_LDFLAGS', pgo_flags.use_ldflags)
llvm_profdata = check_prog('LLVM_PROFDATA', ['llvm-profdata'],
allow_missing=True)
add_old_configure_assignment('LLVM_PROFDATA', llvm_profdata)
@depends(c_compiler)
def preprocess_option(compiler):
# The uses of PREPROCESS_OPTION depend on the spacing for -o/-Fi.
if compiler.type in ('gcc', 'clang'):
return '-E -o '
else:
return '-P -Fi'
set_config('PREPROCESS_OPTION', preprocess_option)
# We only want to include windows.configure when we are compiling on
# Windows, for Windows.
@depends(target, host)
def is_windows(target, host):
return host.kernel == 'WINNT' and target.kernel == 'WINNT'
include('windows.configure', when=is_windows)
# LTO
# ==============================================================
js_option('--enable-lto',
nargs='?',
choices=('full', 'thin'),
help='Enable LTO')
@depends('--enable-lto', 'MOZ_PGO', c_compiler)
@imports('multiprocessing')
def lto(value, pgo, c_compiler):
cflags = []
ldflags = []
enabled = None
# MSVC's implementation of PGO implies LTO. Make clang-cl match this.
if c_compiler.type == 'clang-cl' and pgo and value.origin == 'default':
value = ['thin']
if value:
enabled = True
if c_compiler.type == 'clang':
if len(value) and value[0].lower() == 'full':
cflags.append("-flto")
ldflags.append("-flto")
else:
cflags.append("-flto=thin")
ldflags.append("-flto=thin")
elif c_compiler.type == 'clang-cl':
if len(value) and value[0].lower() == 'full':
cflags.append("-flto")
else:
cflags.append("-flto=thin")
# With clang-cl, -flto can only be used with -c or -fuse-ld=lld.
# AC_TRY_LINKs during configure don't have -c, so pass -fuse-ld=lld.
cflags.append("-fuse-ld=lld");
else:
num_cores = multiprocessing.cpu_count()
cflags.append("-flto")
cflags.append("-flifetime-dse=1")
ldflags.append("-flto=%s" % num_cores)
ldflags.append("-flifetime-dse=1")
return namespace(
enabled=enabled,
cflags=cflags,
ldflags=ldflags
)
add_old_configure_assignment('MOZ_LTO', lto.enabled)
set_config('MOZ_LTO', lto.enabled)
set_define('MOZ_LTO', lto.enabled)
set_config('MOZ_LTO_CFLAGS', lto.cflags)
set_config('MOZ_LTO_LDFLAGS', lto.ldflags)
add_old_configure_assignment('MOZ_LTO_CFLAGS', lto.cflags)
add_old_configure_assignment('MOZ_LTO_LDFLAGS', lto.ldflags)
# ASAN
# ==============================================================
js_option('--enable-address-sanitizer', help='Enable Address Sanitizer')
@depends_if('--enable-address-sanitizer', '--help')
def asan(value, _):
return True
add_old_configure_assignment('MOZ_ASAN', asan)
# UBSAN
# ==============================================================
js_option('--enable-undefined-sanitizer',
nargs='*',
help='Enable UndefinedBehavior Sanitizer')
@depends_if('--enable-undefined-sanitizer')
def ubsan(options):
default_checks = [
'bool',
'bounds',
'vla-bound',
]
checks = options if len(options) else default_checks
return ','.join(checks)
add_old_configure_assignment('MOZ_UBSAN_CHECKS', ubsan)
# Security Hardening
# ==============================================================
option('--enable-hardening', env='MOZ_SECURITY_HARDENING',
help='Enables security hardening compiler options')
@depends('--enable-hardening', '--enable-address-sanitizer',
'--enable-optimize', c_compiler, target)
def security_hardening_cflags(hardening_flag, asan, optimize, c_compiler, target):
compiler_is_gccish = c_compiler.type in ('gcc', 'clang')
flags = []
js_flags = []
# FORTIFY_SOURCE ------------------------------------
# If hardening is explicitly enabled, or not explicitly disabled
if hardening_flag.origin == "default" or hardening_flag:
# Require optimization for FORTIFY_SOURCE. See Bug 1417452
# Also, undefine it before defining it just in case a distro adds it, see Bug 1418398
if compiler_is_gccish and optimize and not asan:
# Don't enable FORTIFY_SOURCE on Android on the top-level, but do enable in js/
if target.os != 'Android':
flags.append("-U_FORTIFY_SOURCE")
flags.append("-D_FORTIFY_SOURCE=2")
js_flags.append("-U_FORTIFY_SOURCE")
js_flags.append("-D_FORTIFY_SOURCE=2")
# fstack-protector ------------------------------------
# Enable only if hardening is not disabled and ASAN is
# not on as ASAN will catch the crashes for us
if compiler_is_gccish and not asan:
# mingw-clang cross-compile toolchain has bugs with stack protector
if target.os != 'WINNT' or c_compiler == 'gcc':
flags.append("-fstack-protector-strong")
# If ASAN _is_ on, undefine FOTIFY_SOURCE just to be safe
if asan:
flags.append("-U_FORTIFY_SOURCE")
js_flags.append("-U_FORTIFY_SOURCE")
# fno-common -----------------------------------------
# Do not merge variables for ASAN; can detect some subtle bugs
if asan:
# clang-cl does not recognize the flag, it must be passed down to clang
if c_compiler.type == 'clang-cl':
flags.append("-Xclang")
flags.append("-fno-common")
return namespace(
flags=flags,
js_flags=js_flags,
)
add_old_configure_assignment('MOZ_HARDENING_CFLAGS', security_hardening_cflags.flags)
add_old_configure_assignment('MOZ_HARDENING_CFLAGS_JS', security_hardening_cflags.js_flags)
# Code Coverage
# ==============================================================
js_option('--enable-coverage', env='MOZ_CODE_COVERAGE',
help='Enable code coverage')
@depends('--enable-coverage')
def code_coverage(value):
if value:
return True
set_config('MOZ_CODE_COVERAGE', code_coverage)
set_define('MOZ_CODE_COVERAGE', code_coverage)
# ==============================================================
option(env='RUSTFLAGS',
nargs=1,
help='Rust compiler flags')
set_config('RUSTFLAGS', depends('RUSTFLAGS')(lambda flags: flags))
# Rust compiler flags
# ==============================================================
js_option(env='RUSTC_OPT_LEVEL',
nargs=1,
help='Rust compiler optimization level (-C opt-level=%s)')
# --enable-release kicks in full optimizations.
imply_option('RUSTC_OPT_LEVEL', '2', when='--enable-release')
@depends('RUSTC_OPT_LEVEL', moz_optimize)
def rustc_opt_level(opt_level_option, moz_optimize):
if opt_level_option:
return opt_level_option[0]
else:
return '1' if moz_optimize.optimize else '0'
@depends(rustc_opt_level, debug_rust, '--enable-debug-symbols')
def rust_compile_flags(opt_level, debug_rust, debug_symbols):
# Cargo currently supports only two interesting profiles for building:
# development and release. Those map (roughly) to --enable-debug and
# --disable-debug in Gecko, respectively.
#
# But we'd also like to support an additional axis of control for
# optimization level. Since Cargo only supports 2 profiles, we're in
# a bit of a bind.
#
# Code here derives various compiler options given other configure options.
# The options defined here effectively override defaults specified in
# Cargo.toml files.
debug_assertions = None
debug_info = None
# opt-level=0 implies -C debug-assertions, which may not be desired
# unless Rust debugging is enabled.
if opt_level == '0' and not debug_rust:
debug_assertions = False
if debug_symbols:
debug_info = '2'
opts = []
if opt_level is not None:
opts.append('opt-level=%s' % opt_level)
if debug_assertions is not None:
opts.append('debug-assertions=%s' %
('yes' if debug_assertions else 'no'))
if debug_info is not None:
opts.append('debuginfo=%s' % debug_info)
flags = []
for opt in opts:
flags.extend(['-C', opt])
return flags
# Rust incremental compilation
# ==============================================================
@depends(rustc_opt_level, debug_rust, 'MOZ_AUTOMATION', code_coverage)
def cargo_incremental(opt_level, debug_rust, automation, code_coverage):
"""Return a value for the CARGO_INCREMENTAL environment variable."""
# We never want to use incremental compilation in automation. sccache
# handles our automation use case much better than incremental compilation
# would.
if automation:
return '0'
# Coverage instrumentation doesn't play well with incremental compilation
# https://github.com/rust-lang/rust/issues/50203.
if code_coverage:
return '0'
# Incremental compilation is automatically turned on for debug builds, so
# we don't need to do anything special here.
if debug_rust:
return
# --enable-release automatically sets -O2 for Rust code, and people can
# set RUSTC_OPT_LEVEL to 2 or even 3 if they want to profile Rust code.
# Let's assume that if Rust code is using -O2 or higher, we shouldn't
# be using incremental compilation, because we'd be imposing a
# significant runtime cost.
if opt_level not in ('0', '1'):
return
# We're clear to use incremental compilation!
return '1'
set_config('CARGO_INCREMENTAL', cargo_incremental)
# Linker detection
# ==============================================================
@depends(target)
def is_linker_option_enabled(target):
if target.kernel not in ('WINNT', 'SunOS'):
return True
option('--enable-gold',
env='MOZ_FORCE_GOLD',
help='Enable GNU Gold Linker when it is not already the default',
when=is_linker_option_enabled)
imply_option('--enable-linker', 'gold', when='--enable-gold')
js_option('--enable-linker', nargs=1,
help='Select the linker {bfd, gold, ld64, lld, lld-*}',
when=is_linker_option_enabled)
@depends('--enable-linker', c_compiler, developer_options, '--enable-gold',
extra_toolchain_flags, target, when=is_linker_option_enabled)
@checking('for linker', lambda x: x.KIND)
@imports('os')
@imports('shutil')
def select_linker(linker, c_compiler, developer_options, enable_gold,
toolchain_flags, target):
if linker:
linker = linker[0]
else:
linker = None
def is_valid_linker(linker):
if target.kernel == 'Darwin':
valid_linkers = ('ld64', 'lld')
else:
valid_linkers = ('bfd', 'gold', 'lld')
if linker in valid_linkers:
return True
if 'lld' in valid_linkers and linker.startswith('lld-'):
return True
return False
if linker and not is_valid_linker(linker):
# Check that we are trying to use a supported linker
die('Unsupported linker ' + linker)
# Check the kind of linker
version_check = ['-Wl,--version']
cmd_base = c_compiler.wrapper + [c_compiler.compiler] + c_compiler.flags
def try_linker(linker):
# Generate the compiler flag
if linker == 'ld64':
linker_flag = ['-fuse-ld=ld']
elif linker:
linker_flag = ["-fuse-ld=" + linker]
else:
linker_flag = []
cmd = cmd_base + linker_flag + version_check
if toolchain_flags:
cmd += toolchain_flags
# ld64 doesn't have anything to print out a version. It does print out
# "ld64: For information on command line options please use 'man ld'."
# but that would require doing two attempts, one with --version, that
# would fail, and another with --help.
# Instead, abuse its LD_PRINT_OPTIONS feature to detect a message
# specific to it on stderr when it fails to process --version.
env = dict(os.environ)
env['LD_PRINT_OPTIONS'] = '1'
retcode, stdout, stderr = get_cmd_output(*cmd, env=env)
cmd_output = stdout.decode('utf-8')
stderr = stderr.decode('utf-8')
if retcode == 1 and 'Logging ld64 options' in stderr:
kind = 'ld64'
elif retcode != 0:
return None
elif 'GNU ld' in cmd_output:
# We are using the normal linker
kind = 'bfd'
elif 'GNU gold' in cmd_output:
kind = 'gold'
elif 'LLD' in cmd_output:
kind = 'lld'
else:
kind = 'unknown'
return namespace(
KIND=kind,
LINKER_FLAG=linker_flag,
)
result = try_linker(linker)
if result is None:
if linker:
die("Could not use {} as linker".format(linker))
die("Failed to find a linker")
if (linker is None and enable_gold.origin == 'default' and
developer_options and result.KIND == 'bfd'):
# try and use lld if available.
tried = try_linker('lld')
if tried is None or tried.KIND != 'lld':
tried = try_linker('gold')
if tried is None or tried.KIND != 'gold':
tried = None
if tried:
result = tried
# If an explicit linker was given, error out if what we found is different.
if linker and not linker.startswith(result.KIND):
die("Could not use {} as linker".format(linker))
return result
set_config('LINKER_KIND', select_linker.KIND)
@depends_if(select_linker, macos_sdk)
def linker_ldflags(linker, macos_sdk):
flags = list(linker.LINKER_FLAG or [])
if macos_sdk:
if linker.KIND == 'ld64':
flags.append('-Wl,-syslibroot,%s' % macos_sdk)
else:
flags.append('-Wl,--sysroot=%s' % macos_sdk)
return flags
add_old_configure_assignment('LINKER_LDFLAGS', linker_ldflags)
# There's a wrinkle with MinGW: linker configuration is not enabled, so
# `select_linker` is never invoked. Hard-code around it.
@depends(select_linker, target, c_compiler)
def gcc_use_gnu_ld(select_linker, target, c_compiler):
if select_linker is not None:
return select_linker.KIND in ('bfd', 'gold', 'lld')
if target.kernel == 'WINNT' and c_compiler.type == 'clang':
return True
return None
# GCC_USE_GNU_LD=1 means the linker is command line compatible with GNU ld.
set_config('GCC_USE_GNU_LD', gcc_use_gnu_ld)
add_old_configure_assignment('GCC_USE_GNU_LD', gcc_use_gnu_ld)
# Assembler detection
# ==============================================================
js_option(env='AS', nargs=1, help='Path to the assembler')
@depends(target, c_compiler)
def as_info(target, c_compiler):
if c_compiler.type in ('msvc', 'clang-cl'):
ml = {
'x86': 'ml',
'x86_64': 'ml64',
'aarch64': 'armasm64.exe',
}.get(target.cpu)
return namespace(
type='masm',
names=(ml, )
)
# When building with anything but MSVC, we just use the C compiler as the assembler.
return namespace(
type='gcc',
names=(c_compiler.compiler, )
)
# One would expect the assembler to be specified merely as a program. But in
# cases where the assembler is passed down into js/, it can be specified in
# the same way as CC: a program + a list of argument flags. We might as well
# permit the same behavior in general, even though it seems somewhat unusual.
# So we have to do the same sort of dance as we did above with
# `provided_compiler`.
provided_assembler = provided_program('AS')
assembler = check_prog('_AS', input=provided_assembler.program,
what='the assembler', progs=as_info.names)
@depends(as_info, assembler, provided_assembler, c_compiler)
def as_with_flags(as_info, assembler, provided_assembler, c_compiler):
if provided_assembler:
return provided_assembler.wrapper + \
[provided_assembler.program] + \
provided_assembler.flags
if as_info.type == 'masm':
return assembler
assert as_info.type == 'gcc'
# Need to add compiler wrappers and flags as appropriate.
return c_compiler.wrapper + [assembler] + c_compiler.flags
add_old_configure_assignment('AS', as_with_flags)
@depends(assembler, c_compiler, extra_toolchain_flags)
@imports('subprocess')
@imports(_from='os', _import='devnull')
def gnu_as(assembler, c_compiler, toolchain_flags):
# clang uses a compatible GNU assembler.
if c_compiler.type == 'clang':
return True
if c_compiler.type == 'gcc':
cmd = [assembler] + c_compiler.flags
if toolchain_flags:
cmd += toolchain_flags
cmd += ['-Wa,--version', '-c', '-o', devnull, '-x', 'assembler', '-']
# We don't actually have to provide any input on stdin, `Popen.communicate` will
# close the stdin pipe.
# clang will error if it uses its integrated assembler for this target,
# so handle failures gracefully.
if 'GNU' in check_cmd_output(*cmd, stdin=subprocess.PIPE, onerror=lambda: '').decode('utf-8'):
return True
set_config('GNU_AS', gnu_as)
add_old_configure_assignment('GNU_AS', gnu_as)
@depends(as_info, target)
def as_dash_c_flag(as_info, target):
# armasm64 doesn't understand -c.
if as_info.type == 'masm' and target.cpu == 'aarch64':
return ''
else:
return '-c'
set_config('AS_DASH_C_FLAG', as_dash_c_flag)
@depends(as_info, target)
def as_outoption(as_info, target):
# The uses of ASOUTOPTION depend on the spacing for -o/-Fo.
if as_info.type == 'masm' and target.cpu != 'aarch64':
return '-Fo'
return '-o '
set_config('ASOUTOPTION', as_outoption)
# clang plugin handling
# ==============================================================
js_option('--enable-clang-plugin', env='ENABLE_CLANG_PLUGIN',
help="Enable building with the mozilla clang plugin")
add_old_configure_assignment('ENABLE_CLANG_PLUGIN',
depends_if('--enable-clang-plugin')(lambda _: True))
js_option('--enable-mozsearch-plugin', env='ENABLE_MOZSEARCH_PLUGIN',
help="Enable building with the mozsearch indexer plugin")
add_old_configure_assignment('ENABLE_MOZSEARCH_PLUGIN',
depends_if('--enable-mozsearch-plugin')(lambda _: True))
# Libstdc++ compatibility hacks
# ==============================================================
#
js_option('--enable-stdcxx-compat', env='MOZ_STDCXX_COMPAT',
help='Enable compatibility with older libstdc++')
@template
def libstdcxx_version(var, compiler, host_or_target):
@depends(compiler, host_or_target, when='--enable-stdcxx-compat')
@imports(_from='mozbuild.configure.libstdcxx', _import='find_version')
def version(compiler, host_or_target):
if host_or_target.os == 'Android':
return None
result = find_version(
compiler.wrapper + [compiler.compiler] + compiler.flags)
if result:
return str(result)
set_config(var, version)
return version
add_gcc_flag(
'-D_GLIBCXX_USE_CXX11_ABI=0', cxx_compiler,
when=libstdcxx_version(
'MOZ_LIBSTDCXX_TARGET_VERSION', cxx_compiler, target))
add_gcc_flag(
'-D_GLIBCXX_USE_CXX11_ABI=0', host_cxx_compiler,
when=libstdcxx_version(
'MOZ_LIBSTDCXX_HOST_VERSION', host_cxx_compiler, host))
@depends(c_compiler.try_compile(flags=['-fsanitize=fuzzer-no-link'],
check_msg='whether the C compiler supports -fsanitize=fuzzer-no-link'))
def libfuzzer_flags(value):
if value:
no_link_flag_supported = True
# recommended for (and only supported by) clang >= 6
use_flags = ['-fsanitize=fuzzer-no-link']
else:
no_link_flag_supported = False
use_flags = ['-fsanitize-coverage=trace-pc-guard,trace-cmp']
return namespace(
no_link_flag_supported=no_link_flag_supported,
use_flags=use_flags,
)
set_config('HAVE_LIBFUZZER_FLAG_FUZZER_NO_LINK', libfuzzer_flags.no_link_flag_supported)
set_config('LIBFUZZER_FLAGS', libfuzzer_flags.use_flags)
add_old_configure_assignment('LIBFUZZER_FLAGS', libfuzzer_flags.use_flags)
# Shared library building
# ==============================================================
# XXX: The use of makefile constructs in these variables is awful.
@depends(target, c_compiler)
def make_shared_library(target, compiler):
if target.os == 'WINNT':
if compiler.type == 'gcc':
return namespace(
mkshlib=['$(CXX)', '$(DSO_LDOPTS)', '-o', '$@'],
mkcshlib=['$(CC)', '$(DSO_LDOPTS)', '-o', '$@'],
)
elif compiler.type == 'clang':
return namespace(
mkshlib=['$(CXX)', '$(DSO_LDOPTS)', '-Wl,-pdb,$(LINK_PDBFILE)', '-o', '$@'],
mkcshlib=['$(CC)', '$(DSO_LDOPTS)', '-Wl,-pdb,$(LINK_PDBFILE)', '-o', '$@'],
)
else:
linker = [
'$(LINKER)',
'-NOLOGO', '-DLL',
'-OUT:$@',
'-PDB:$(LINK_PDBFILE)',
'$(DSO_LDOPTS)'
]
return namespace(
mkshlib=linker,
mkcshlib=linker,
)
cc = ['$(CC)', '$(COMPUTED_C_LDFLAGS)']
cxx = ['$(CXX)', '$(COMPUTED_CXX_LDFLAGS)']
flags = ['$(PGO_CFLAGS)', '$(DSO_PIC_CFLAGS)', '$(DSO_LDOPTS)']
output = ['-o', '$@']
if target.kernel == 'Darwin':
soname = []
elif target.os == 'NetBSD':
soname = ['-Wl,-soname,$(DSO_SONAME)']
else:
assert compiler.type in ('gcc', 'clang')
soname = ['-Wl,-h,$(DSO_SONAME)']
return namespace(
mkshlib=cxx + flags + soname + output,
mkcshlib=cc + flags + soname + output,
)
set_config('MKSHLIB', make_shared_library.mkshlib)
set_config('MKCSHLIB', make_shared_library.mkcshlib)
@depends(c_compiler, toolchain_prefix, when=target_is_windows)
def rc_names(c_compiler, toolchain_prefix):
if c_compiler.type in ('gcc', 'clang'):
return tuple('%s%s' % (p, 'windres')
for p in ('',) + (toolchain_prefix or ()))
return ('rc',)
check_prog('RC', rc_names, paths=sdk_bin_path)
@depends(link, toolchain_prefix)
def ar_config(link, toolchain_prefix):
if link: # if LINKER is set, it's either for lld-link or link
if 'lld-link' in link:
return namespace(
names=('llvm-lib',),
flags=('-llvmlibthin', '-out:$@'),
)
else:
return namespace(
names=('lib',),
flags=('-NOLOGO', '-OUT:$@'),
)
return namespace(
names=tuple('%s%s' % (p, 'ar')
for p in (toolchain_prefix or ()) + ('',)),
flags=('crs', '$@'),
)
check_prog('AR', ar_config.names, paths=toolchain_search_path)
set_config('AR_FLAGS', ar_config.flags)