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

663 lines
22 KiB
Python

# -*- Mode: python; c-basic-offset: 4; 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/.
# We support C++14, but we don't want to enable the sized deallocation
# facilities in C++14 yet.
check_and_add_flag("-fno-sized-deallocation", compiler=cxx_compiler)
# Likewise for C++17 and aligned allocation. It's not immediately obvious
# from the clang and GCC documentation, but they both support this.
check_and_add_flag("-fno-aligned-new", compiler=cxx_compiler)
# Detect static linkage of libstdc++
# ==============================================================
@depends(
cxx_compiler,
extra_toolchain_flags,
linker_ldflags,
llvm_objdump,
when=target_has_linux_kernel,
)
@checking("whether we're trying to statically link with libstdc++")
@imports("os")
@imports("re")
@imports(_from="mozbuild.shellutil", _import="split", _as="shell_split")
def link_libstdcxx_statically(
cxx_compiler,
extra_toolchain_flags,
linker_ldflags,
llvm_objdump,
):
with create_temporary_file(suffix=".out") as bin_path:
# This test is quite conservative: it assumes dynamic linkage if the
# compilation step fails or if the binary format is not supported. But
# it still detects basic issues.
# FIXME: At some point we should make these dependencies explicit.
# See #1903233.
env_flags = []
if "CXXFLAGS" in os.environ:
env_flags.extend(shell_split(os.environ["CXXFLAGS"]))
if "LDFLAGS" in os.environ:
env_flags.extend(shell_split(os.environ["LDFLAGS"]))
if (
try_invoke_compiler(
None,
[cxx_compiler.compiler]
+ env_flags
+ cxx_compiler.flags
+ linker_ldflags,
cxx_compiler.language,
"""
#include <iostream>
int main() { std::cout << 1;}
""",
["-o", bin_path] + (extra_toolchain_flags or []),
wrapper=cxx_compiler.wrapper,
onerror=lambda: None,
)
is not None
):
objdump_command = [llvm_objdump, "--private-headers", bin_path]
result, stdout, stderr = get_cmd_output(*objdump_command)
# This is very conservative :-).
return (
result == 0
and not stderr
and not re.search("NEEDED.*lib(std)?c\\+\\+", stdout)
)
@depends(when=link_libstdcxx_statically)
def check_libstdcxx_linkage():
die("Firefox does not support linking statically with libstdc++")
check_and_add_flag(
"-mieee",
when=target_has_linux_kernel & depends(target.cpu)(lambda cpu: cpu == "Alpha"),
)
# Identical Code Folding
option(
"--enable-icf",
help="{Enable|Disable} Identical Code Folding",
default=~developer_options,
)
enable_icf = depends("--enable-icf")(lambda v: bool(v))
with only_when(building_with_gnu_compatible_cc):
with only_when(~developer_options | enable_icf):
add_flag("-ffunction-sections")
add_flag("-fdata-sections")
add_flag("-fno-math-errno")
add_flag("-fno-exceptions", compiler=cxx_compiler)
# We only use -faddrsig with clang on android, and all version of clang we
# support have it.
add_addrsig_flag = depends(c_compiler, when=target_is_android)(
lambda c: c.type == "clang"
)
@depends(
c_compiler,
extra_toolchain_flags,
linker_ldflags,
llvm_objdump,
add_addrsig_flag,
when=building_with_gnu_compatible_cc & gcc_use_gnu_ld & enable_icf,
)
@checking("whether the linker supports Identical Code Folding")
@imports("os")
def linker_supports_icf(
c_compiler, extra_toolchain_flags, linker_ldflags, llvm_objdump, add_addrsig_flag
):
with create_temporary_file(suffix=".out") as bin_path:
if (
try_invoke_compiler(
None,
[c_compiler.compiler] + c_compiler.flags + linker_ldflags,
c_compiler.language,
"""
int foo() {return 42;}
int bar() {return 42;}
int main() {return 0;}
""",
["-o", bin_path, "-Wl,--icf=safe", "-ffunction-sections"]
+ (["-faddrsig"] if add_addrsig_flag else [])
+ (extra_toolchain_flags or []),
wrapper=c_compiler.wrapper,
onerror=lambda: None,
)
is not None
):
objdump_command = [llvm_objdump, "-t", bin_path]
result = check_cmd_output(*objdump_command, onerror=lambda: None)
if result is not None:
sym_addr = {
line[5]: line[0]
for line in [line.split() for line in result.splitlines()]
if len(line) >= 6
}
foo_addr = sym_addr.get("foo")
bar_addr = sym_addr.get("bar")
return foo_addr == bar_addr and foo_addr is not None
@depends(compilation_flags, linker_flags, add_addrsig_flag, when=linker_supports_icf)
def add_icf_flags(compilation_flags, linker_flags, add_addrsig_flag):
if add_addrsig_flag:
compilation_flags.cflags.append("-faddrsig")
compilation_flags.cxxflags.append("-faddrsig")
linker_flags.ldflags.append("-Wl,--icf=safe")
option(
"--disable-new-pass-manager",
help="Use the legacy LLVM pass manager in clang builds",
)
@depends(
"--enable-new-pass-manager",
c_compiler,
host,
target,
"MOZ_PGO",
enable_fuzzing,
ubsan,
)
def pass_manager(enabled, compiler, host, target, pgo, enable_fuzzing, ubsan):
if compiler.type not in ("clang", "clang-cl"):
return None
# As of clang 13, the default pass manager is the new one.
if compiler.version >= "13.0.0":
if enabled:
return namespace(flags=None, enabled=True)
if compiler.type == "clang":
return namespace(flags=["-flegacy-pass-manager"], enabled=False)
if compiler.type == "clang-cl":
return namespace(flags=["-Xclang", "-flegacy-pass-manager"], enabled=False)
if not enabled:
if compiler.version >= "15.0.0":
die("--disable-new-pass-manager is only supported with clang < 15")
return None
if compiler.version < "9.0.0":
if enabled.origin != "default":
die("--enable-new-pass-manager is only supported with clang >= 9")
return None
if host.os == "OSX":
# Some native Mac builds hang with the new pass manager. Given the
# inability to test in CI, don't take the risk of further breakage.
if enabled.origin != "default":
die(
"--enable-new-pass-manager causes problems on mac hosts with clang < 13"
)
return None
if target.os == "OSX" and not pgo:
# Also disable when cross-compiling to Mac, because plain-ish opt
# builds hang. Variants like asan and ccov work fine, but it would be
# too tedious to test them all here. PGO is the only thing that matters
# enough to make an exception for.
if enabled.origin != "default":
die(
"--enable-new-pass-manager causes problems on mac builds with clang < 13"
)
return None
if enable_fuzzing and compiler.version < "10.0.0":
# Clang 9 does not seem to play well with libFuzzer
if enabled.origin != "default":
die(
"--enable-new-pass-manager causes problems on fuzzing builds with clang < 10"
)
return None
if ubsan and compiler.version == "10.0.0":
# Clang 10.0.0 hangs with some ubsan-inserted code constructs.
# This was fixed in 10.0.1 (https://llvm.org/pr45835)
if enabled.origin != "default":
die(
"--enable-new-pass-manager causes problems with ubsan builds with clang 10.0.0"
)
return None
if compiler.type == "clang":
return namespace(flags=["-fexperimental-new-pass-manager"], enabled=True)
elif compiler.type == "clang-cl":
return namespace(
flags=["-Xclang", "-fexperimental-new-pass-manager"], enabled=True
)
set_config("MOZ_PASS_MANAGER_FLAGS", pass_manager.flags)
# Debugging options
##
@depends(moz_debug, asan, target, "--enable-jemalloc")
def moz_no_debug_rtl(moz_debug, asan, target, enable_jemalloc):
if not moz_debug or asan:
return True
if enable_jemalloc and target.kernel == "WINNT":
return True
set_config("MOZ_NO_DEBUG_RTL", moz_no_debug_rtl)
@depends(
try_compile(
includes=["stdio.h"],
body='puts("Hello World");',
check_msg="for valid debug flags",
flags=debug_flags,
when=moz_debug,
),
debug_flags,
when=moz_debug,
)
@imports(_from="mozbuild.shellutil", _import="quote")
def check_debug_flags(check, flags):
if not check:
die(f"These compiler flags are invalid: {quote(*flags)}")
# Try to make builds more reproducible and allow sharing built artifacts across
# source and object directories by using -ffile-prefix-map and friends. To
# "unwind" the prefix maps, use:
#
# (gdb) set substitute-path /topsrcdir/ $topsrcdir/
#
# (lldb) settings set target.source-map /topobjdir/ $topobjdir/
#
# See, for example, https://lldb.llvm.org/use/map.html.
@depends(
path_remapping,
path_remappings,
c_compiler,
)
@imports(_from="os", _import="sep")
def file_prefix_map_flags(path_remapping, path_remappings, compiler):
if "c" not in path_remapping:
return []
if (compiler.type == "gcc" and compiler.version < "8.1") or (
compiler.type in ("clang", "clang-cl") and compiler.version < "10.0.0"
):
die(
f"Compiler of type {compiler.type} and version {compiler.version} "
"does not support --enable-path-remapping."
)
flags = []
for old, new in path_remappings:
# We would prefer to use just -ffile-prefix-map, but clang-cl doesn't
# seem to recognize it.
for flag in ("-fdebug-prefix-map", "-fmacro-prefix-map"):
flag = f"{flag}={old}={new}"
if compiler.type in ("gcc", "clang"):
flags.append(flag)
elif compiler.type == "clang-cl":
flags.extend(["-Xclang", flag])
return flags
set_config("MOZ_FILE_PREFIX_MAP_FLAGS", file_prefix_map_flags)
@depends(developer_options, when=building_with_gnu_compatible_cc)
def check_build_id_uuid(developer_options):
return developer_options
@depends(developer_options, when=building_with_gnu_compatible_cc)
def check_build_id_sha1(developer_options):
return not developer_options
check_and_add_flag("-pipe", when=building_with_gcc)
check_and_add_linker_flag("-Wl,--build-id=uuid", when=check_build_id_uuid)
check_and_add_linker_flag("-Wl,--build-id=sha1", when=check_build_id_sha1)
check_and_add_asm_flag("-Wa,--noexecstack", when=building_with_gnu_compatible_cc)
check_and_add_linker_flag("-Wl,-z,noexecstack", when=building_with_gnu_compatible_cc)
check_and_add_linker_flag("-Wl,-z,text", when=building_with_gnu_compatible_cc)
check_and_add_linker_flag("-Wl,-z,relro", when=building_with_gnu_compatible_cc)
check_and_add_linker_flag("-Wl,-z,now", when=building_with_gnu_compatible_cc)
check_and_add_linker_flag("-Wl,-z,nocopyreloc", when=building_with_gnu_compatible_cc)
check_and_add_linker_optimize_flag("-Wl,-dead_strip", when=target_is_darwin & ~dtrace)
check_and_add_asm_flag(
"-fPIC", when=building_with_gnu_compatible_cc & ~target_is_windows
)
check_and_add_flag("-fPIC", when=building_with_gnu_compatible_cc & ~target_is_windows)
set_define("PIC", True, when=target_is_netbsd)
# DSO flags manipulations
have_linker_support_ignore_unresolved = try_link(
flags=["-Wl,--ignore-unresolved-symbol,environ"],
check_msg="for --ignore-unresolved-symbol option to the linker",
when=building_with_gnu_compatible_cc
& gcc_use_gnu_ld
& depends(target)(lambda t: t.os in ("DragonFly", "FreeBSD", "NetBSD", "OpenBSD")),
)
@depends(
dso_flags,
gcc_use_gnu_ld,
target,
asan | msan | any_ubsan | tsan | enable_fuzzing_interfaces,
have_linker_support_ignore_unresolved,
when=building_with_gnu_compatible_cc,
)
@imports(_from="os", _import="environ")
def add_gnu_specific_dso_flags(
dso_flags,
use_gnu_ld,
target,
use_sanitizer_runtime,
have_linker_support_ignore_unresolved,
):
ldopts = []
if target.kernel != "Darwin":
ldopts.append("-shared")
if use_gnu_ld:
# Some tools like ASan use a runtime library that is only
# linked against executables, so we must allow undefined
# symbols for shared objects in some cases.
if not use_sanitizer_runtime:
if target.os != "WINNT":
# Don't allow undefined symbols in libraries
ldopts.append("-Wl,-z,defs")
# BSDs need `environ' exposed for posix_spawn (bug 753046)
if target.os in ("DragonFly", "FreeBSD", "NetBSD", "OpenBSD"):
if have_linker_support_ignore_unresolved:
ldopts.append("-Wl,--ignore-unresolved-symbol,environ")
else:
ldopts.append("-Wl,--warn-unresolved-symbols")
if librunpath := environ.get("LIBRUNPATH"):
if target.os == "NetBSD":
ldopts.insert(0, f"-Wl,-R{librunpath}")
elif target.os == "OpenBSD":
ldopts.insert(0, f"-R{librunpath}")
dso_flags.ldopts.extend(ldopts)
@depends(
dso_flags, target, win32_subsystem_version, when=~building_with_gnu_compatible_cc
)
def add_non_gnu_dso_flags(dso_flags, target, win32_subsystem_version):
ldopts = [f"-SUBSYSTEM:WINDOWS,{win32_subsystem_version}"]
if target.cpu == "x86":
ldopts.append("-MACHINE:X86")
if target.cpu == "x86_64":
ldopts.append("-MACHINE:X64")
if target.cpu == "aarch64":
ldopts.append("-MACHINE:ARM64")
dso_flags.ldopts.extend(ldopts)
@depends(libfuzzer_flags, when=enable_fuzzing)
def sancov(libfuzzer_flags):
for flag in libfuzzer_flags.use_flags:
if "-fsanitize-coverage" in flag or "-fsanitize=fuzzer" in flag:
return True
return False
@depends(target, build_environment)
@imports(_from="os", _import="environ")
def moz_fix_link_paths(target, build_env):
dist = build_env.dist
flags = [f"-Wl,-rpath-link,{dist}/bin"]
if target.kernel == "Darwin":
return []
if target.kernel == "WINNT":
return []
if target.kernel == "SunOS":
return [f"-L{dist}/bin"]
if target.os == "WASI":
return []
return flags
set_config("MOZ_FIX_LINK_PATHS", moz_fix_link_paths)
@depends("--enable-address-sanitizer", building_with_gnu_compatible_cc)
def check_Bsymbolic(enable_asan, building_with_gnu_compatible_cc):
return enable_asan and building_with_gnu_compatible_cc
# ASan assumes no symbols are being interposed, and when that happens,
# it's not happy with it. Inconveniently, since Firefox is exporting
# libffi symbols and Gtk+3 pulls system libffi via libwayland-client,
# system libffi interposes libffi symbols that ASan assumes are in
# libxul, so it barfs about buffer overflows.
# Using -Wl,-Bsymbolic ensures no exported symbol can be interposed.
check_and_add_linker_flag("-Wl,-Bsymbolic", when=check_Bsymbolic)
# Check what kind of list files are supported by the linker
@depends(c_compiler, link, linker_ldflags, extra_toolchain_flags)
@checking("what kind of list files are supported by the linker")
@imports("os")
@imports(_from="__builtin__", _import="open")
def expand_libs_list_style(c_compiler, link, linker_flags, extra_flags):
with create_temporary_file(suffix=".o") as objname, create_temporary_file(
suffix=".list"
) as listname, create_temporary_file(suffix=".out") as outname:
with open(listname, "w") as fd:
fd.write(objname)
cflags = c_compiler.flags
if (
try_invoke_compiler(
# No configure_cache because it would not create the
# expected output file.
None,
[c_compiler.compiler] + cflags,
c_compiler.language,
"int main() {}",
["-c", "-o", objname],
wrapper=c_compiler.wrapper,
onerror=lambda: None,
)
is None
):
die("couldn't compile a simple C file")
ldflags = linker_flags + (extra_flags or [])
if c_compiler.type == "clang-cl":
base_linker_cmd = [link] + ldflags + [f"-OUT:{outname}"]
else:
base_linker_cmd = [c_compiler.compiler] + cflags + ldflags + ["-o", outname]
# -filelist is for the OS X linker. We need to try -filelist
# first because clang understands @file, but may pass an
# oversized argument list to the linker depending on the
# contents of @file.
options = [
("linkerlist", f"-Wl,@{listname}"),
("filelist", f"-Wl,@{listname}"),
("list", f"@{listname}"),
]
for kind, option in options:
linker_cmd = base_linker_cmd + [option]
if check_cmd_output(*linker_cmd, onerror=lambda: None) is not None:
return kind
die("Couldn't find one that works")
set_config("EXPAND_LIBS_LIST_STYLE", expand_libs_list_style)
# MOZ_PROGRAM_LDFLAGS
# ---------------------------------
@depends(building_with_gnu_compatible_cc, target)
def moz_program_ldflags(building_with_gnu_compatible_cc, target):
if building_with_gnu_compatible_cc and target.kernel not in ("Darwin", "WASI"):
return ["-pie"]
set_config("MOZ_PROGRAM_LDFLAGS", moz_program_ldflags)
# Objective-C/ Objective-C++ flags.
# ---------------------------------
@depends(compilation_flags, toolkit)
def add_cmflags(compilation_flags, toolkit):
cmflags = ["-x", "objective-c", "-fobjc-exceptions"]
cmmflags = ["-x", "objective-c++", "-fobjc-exceptions"]
compilation_flags.cmflags.extend(cmflags)
compilation_flags.cmmflags.extend(cmmflags)
if toolkit == "uikit":
uiflags = ["-fobjc-abi-version=2", "-fobjc-legacy-dispatch"]
compilation_flags.cmflags.extend(uiflags)
compilation_flags.cmmflags.extend(uiflags)
set_config("OS_COMPILE_CMFLAGS", compilation_flags.cmflags)
set_config("OS_COMPILE_CMMFLAGS", compilation_flags.cmmflags)
# Final flags settings
# ---------------------------------
@depends(host_c_compiler)
def host_optimize_flags(compiler):
if compiler.type == "clang-cl":
return ["-O2"]
else:
return ["-O3"]
set_config("HOST_OPTIMIZE_FLAGS", host_optimize_flags)
@depends("HOST_CPPFLAGS", host, host_c_compiler)
@imports(_from="mozbuild.shellutil", _import="split")
def host_cppflags(base_cppflags, host, compiler):
flags = []
if host.kernel == "WINNT":
if compiler.type != "clang-cl":
flags += ["-mwindows"]
flags += ["-DXP_WIN", "-DWIN32", "-D_WIN32", "-D_CRT_SECURE_NO_WARNINGS"]
if host.cpu == "x86_64":
flags += ["-D_AMD64_"]
elif host.kernel == "Darwin":
flags += ["-DXP_UNIX", "-DXP_MACOSX"]
else:
flags += ["-DXP_UNIX"]
flags += split(base_cppflags[0])
return flags
@depends("HOST_CFLAGS", compilation_flags)
@imports(_from="mozbuild.shellutil", _import="split")
def host_cflags(base_cflags, compilation_flags):
flags = list(compilation_flags.host_cflags)
flags += split(base_cflags[0])
return flags
@depends("HOST_CXXFLAGS", compilation_flags)
@imports(_from="mozbuild.shellutil", _import="split")
def host_cxxflags(base_cxxflags, compilation_flags):
flags = list(compilation_flags.host_cxxflags)
flags += split(base_cxxflags[0])
return flags
@depends("HOST_LDFLAGS", linker_flags, host_linker_ldflags, host, host_c_compiler)
@imports(_from="mozbuild.shellutil", _import="split")
def host_ldflags(env_ldflags, linker_flags, host_linker_ldflags, host, compiler):
flags = split(env_ldflags[0])
flags += host_linker_ldflags
if host.kernel == "WINNT" and compiler.type == "clang-cl":
if host.cpu == "x86":
flags += ["-MACHINE:X86"]
elif host.cpu == "x86_64":
flags += ["-MACHINE:X64"]
flags += linker_flags.host_ldflags
return flags
@depends("CPPFLAGS")
@imports(_from="mozbuild.shellutil", _import="split")
def os_cppflags(env_cppflags):
flags = split(env_cppflags[0])
return flags
@depends(
"ASFLAGS",
asm_flags,
android_flags,
all_arm_flags,
defines_cpp_flags,
c_compiler,
build_project,
)
@imports(_from="mozbuild.shellutil", _import="split")
def os_asflags(
env_asflags,
asm_flags,
android_flags,
all_arm_flags,
defines_cpp_flags,
c_compiler,
build_project,
):
flags = []
if android_flags:
flags.extend(android_flags.asflags)
flags.append("-DANDROID")
if all_arm_flags:
flags.extend(all_arm_flags)
flags.extend(asm_flags.asflags)
if build_project != "js" and c_compiler.type != "clang-cl":
flags.extend(defines_cpp_flags)
flags.extend(split(env_asflags[0]))
return flags
# Please keep these last in this file.
add_old_configure_assignment("_COMPILATION_LDFLAGS", linker_flags.ldflags)
add_old_configure_assignment(
"_COMPILATION_OPTIMIZE_LDFLAGS", linker_optimize_flags.ldflags
)
add_old_configure_assignment("CPPFLAGS", os_cppflags)
add_old_configure_assignment("_COMPILATION_CFLAGS", compilation_flags.cflags)
add_old_configure_assignment("_COMPILATION_CXXFLAGS", compilation_flags.cxxflags)
set_config("HOST_CPPFLAGS", host_cppflags)
set_config("HOST_CFLAGS", host_cflags)
set_config("HOST_CXXFLAGS", host_cxxflags)
set_config("HOST_LDFLAGS", host_ldflags)
set_config("OS_CPPFLAGS", os_cppflags)
set_config("ASFLAGS", os_asflags)
set_config("DSO_LDOPTS", dso_flags.ldopts)