blob: 113777b0ea8a1965df2382266e1b1a02fe2af5f3 [file] [log] [blame]
# -*- Python -*-
# Configuration file for 'lit' test runner.
# This file contains common rules for various compiler-rt testsuites.
# It is mostly copied from lit.cfg.py used by Clang.
import os
import platform
import re
import shlex
import subprocess
import json
import lit.formats
import lit.util
def find_compiler_libdir():
"""
Returns the path to library resource directory used
by the compiler.
"""
if config.compiler_id != "Clang":
lit_config.warning(
f"Determining compiler's runtime directory is not supported for {config.compiler_id}"
)
# TODO: Support other compilers.
return None
def get_path_from_clang(args, allow_failure):
clang_cmd = [
config.clang.strip(),
f"--target={config.target_triple}",
]
clang_cmd.extend(args)
path = None
try:
result = subprocess.run(
clang_cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, check=True
)
path = result.stdout.decode().strip()
except subprocess.CalledProcessError as e:
msg = f"Failed to run {clang_cmd}\nrc:{e.returncode}\nstdout:{e.stdout}\ne.stderr{e.stderr}"
if allow_failure:
lit_config.warning(msg)
else:
lit_config.fatal(msg)
return path, clang_cmd
# Try using `-print-runtime-dir`. This is only supported by very new versions of Clang.
# so allow failure here.
runtime_dir, clang_cmd = get_path_from_clang(
shlex.split(config.target_cflags) + ["-print-runtime-dir"], allow_failure=True
)
if runtime_dir:
if os.path.exists(runtime_dir):
return os.path.realpath(runtime_dir)
# TODO(dliew): This should be a fatal error but it seems to trip the `llvm-clang-win-x-aarch64`
# bot which is likely misconfigured
lit_config.warning(
f'Path reported by clang does not exist: "{runtime_dir}". '
f"This path was found by running {clang_cmd}."
)
return None
# Fall back for older AppleClang that doesn't support `-print-runtime-dir`
# Note `-print-file-name=<path to compiler-rt lib>` was broken for Apple
# platforms so we can't use that approach here (see https://reviews.llvm.org/D101682).
if config.host_os == "Darwin":
lib_dir, _ = get_path_from_clang(["-print-file-name=lib"], allow_failure=False)
runtime_dir = os.path.join(lib_dir, "darwin")
if not os.path.exists(runtime_dir):
lit_config.fatal(f"Path reported by clang does not exist: {runtime_dir}")
return os.path.realpath(runtime_dir)
lit_config.warning("Failed to determine compiler's runtime directory")
return None
def push_dynamic_library_lookup_path(config, new_path):
if platform.system() == "Windows":
dynamic_library_lookup_var = "PATH"
elif platform.system() == "Darwin":
dynamic_library_lookup_var = "DYLD_LIBRARY_PATH"
else:
dynamic_library_lookup_var = "LD_LIBRARY_PATH"
new_ld_library_path = os.path.pathsep.join(
(new_path, config.environment.get(dynamic_library_lookup_var, ""))
)
config.environment[dynamic_library_lookup_var] = new_ld_library_path
if platform.system() == "FreeBSD":
dynamic_library_lookup_var = "LD_32_LIBRARY_PATH"
new_ld_32_library_path = os.path.pathsep.join(
(new_path, config.environment.get(dynamic_library_lookup_var, ""))
)
config.environment[dynamic_library_lookup_var] = new_ld_32_library_path
if platform.system() == "SunOS":
dynamic_library_lookup_var = "LD_LIBRARY_PATH_32"
new_ld_library_path_32 = os.path.pathsep.join(
(new_path, config.environment.get(dynamic_library_lookup_var, ""))
)
config.environment[dynamic_library_lookup_var] = new_ld_library_path_32
dynamic_library_lookup_var = "LD_LIBRARY_PATH_64"
new_ld_library_path_64 = os.path.pathsep.join(
(new_path, config.environment.get(dynamic_library_lookup_var, ""))
)
config.environment[dynamic_library_lookup_var] = new_ld_library_path_64
# Choose between lit's internal shell pipeline runner and a real shell. If
# LIT_USE_INTERNAL_SHELL is in the environment, we use that as an override.
use_lit_shell = os.environ.get("LIT_USE_INTERNAL_SHELL")
if use_lit_shell:
# 0 is external, "" is default, and everything else is internal.
execute_external = use_lit_shell == "0"
else:
# Otherwise we default to internal on Windows and external elsewhere, as
# bash on Windows is usually very slow.
execute_external = not sys.platform in ["win32"]
# Allow expanding substitutions that are based on other substitutions
config.recursiveExpansionLimit = 10
# Setup test format.
config.test_format = lit.formats.ShTest(execute_external)
if execute_external:
config.available_features.add("shell")
target_is_msvc = bool(re.match(r".*-windows-msvc$", config.target_triple))
compiler_id = getattr(config, "compiler_id", None)
if compiler_id == "Clang":
if not (platform.system() == "Windows" and target_is_msvc):
config.cxx_mode_flags = ["--driver-mode=g++"]
else:
config.cxx_mode_flags = []
# We assume that sanitizers should provide good enough error
# reports and stack traces even with minimal debug info.
config.debug_info_flags = ["-gline-tables-only"]
if platform.system() == "Windows" and target_is_msvc:
# On MSVC, use CodeView with column info instead of DWARF. Both VS and
# windbg do not behave well when column info is enabled, but users have
# requested it because it makes ASan reports more precise.
config.debug_info_flags.append("-gcodeview")
config.debug_info_flags.append("-gcolumn-info")
elif compiler_id == "GNU":
config.cxx_mode_flags = ["-x c++"]
config.debug_info_flags = ["-g"]
else:
lit_config.fatal("Unsupported compiler id: %r" % compiler_id)
# Add compiler ID to the list of available features.
config.available_features.add(compiler_id)
# When LLVM_ENABLE_PER_TARGET_RUNTIME_DIR=on, the initial value of
# config.compiler_rt_libdir (COMPILER_RT_RESOLVED_LIBRARY_OUTPUT_DIR) has the
# triple as the trailing path component. The value is incorrect for -m32/-m64.
# Adjust config.compiler_rt accordingly.
if config.enable_per_target_runtime_dir:
if "-m32" in shlex.split(config.target_cflags):
config.compiler_rt_libdir = re.sub(
r"/x86_64(?=-[^/]+$)", "/i386", config.compiler_rt_libdir
)
elif "-m64" in shlex.split(config.target_cflags):
config.compiler_rt_libdir = re.sub(
r"/i386(?=-[^/]+$)", "/x86_64", config.compiler_rt_libdir
)
# Ask the compiler for the path to libraries it is going to use. If this
# doesn't match config.compiler_rt_libdir then it means we might be testing the
# compiler's own runtime libraries rather than the ones we just built.
# Warn about about this and handle appropriately.
compiler_libdir = find_compiler_libdir()
if compiler_libdir:
compiler_rt_libdir_real = os.path.realpath(config.compiler_rt_libdir)
if compiler_libdir != compiler_rt_libdir_real:
lit_config.warning(
"Compiler lib dir != compiler-rt lib dir\n"
f'Compiler libdir: "{compiler_libdir}"\n'
f'compiler-rt libdir: "{compiler_rt_libdir_real}"'
)
if config.test_standalone_build_libs:
# Use just built runtime libraries, i.e. the the libraries this built just built.
if not config.test_suite_supports_overriding_runtime_lib_path:
# Test suite doesn't support this configuration.
# TODO(dliew): This should be an error but it seems several bots are
# testing incorrectly and having this as an error breaks them.
lit_config.warning(
"COMPILER_RT_TEST_STANDALONE_BUILD_LIBS=ON, but this test suite "
"does not support testing the just-built runtime libraries "
"when the test compiler is configured to use different runtime "
"libraries. Either modify this test suite to support this test "
"configuration, or set COMPILER_RT_TEST_STANDALONE_BUILD_LIBS=OFF "
"to test the runtime libraries included in the compiler instead."
)
else:
# Use Compiler's resource library directory instead.
config.compiler_rt_libdir = compiler_libdir
lit_config.note(f'Testing using libraries in "{config.compiler_rt_libdir}"')
# If needed, add cflag for shadow scale.
if config.asan_shadow_scale != "":
config.target_cflags += " -mllvm -asan-mapping-scale=" + config.asan_shadow_scale
if config.memprof_shadow_scale != "":
config.target_cflags += (
" -mllvm -memprof-mapping-scale=" + config.memprof_shadow_scale
)
# Clear some environment variables that might affect Clang.
possibly_dangerous_env_vars = [
"ASAN_OPTIONS",
"DFSAN_OPTIONS",
"HWASAN_OPTIONS",
"LSAN_OPTIONS",
"MSAN_OPTIONS",
"UBSAN_OPTIONS",
"COMPILER_PATH",
"RC_DEBUG_OPTIONS",
"CINDEXTEST_PREAMBLE_FILE",
"LIBRARY_PATH",
"CPATH",
"C_INCLUDE_PATH",
"CPLUS_INCLUDE_PATH",
"OBJC_INCLUDE_PATH",
"OBJCPLUS_INCLUDE_PATH",
"LIBCLANG_TIMING",
"LIBCLANG_OBJTRACKING",
"LIBCLANG_LOGGING",
"LIBCLANG_BGPRIO_INDEX",
"LIBCLANG_BGPRIO_EDIT",
"LIBCLANG_NOTHREADS",
"LIBCLANG_RESOURCE_USAGE",
"LIBCLANG_CODE_COMPLETION_LOGGING",
"XRAY_OPTIONS",
]
# Clang/MSVC may refer to %INCLUDE%. vsvarsall.bat sets it.
if not (platform.system() == "Windows" and target_is_msvc):
possibly_dangerous_env_vars.append("INCLUDE")
for name in possibly_dangerous_env_vars:
if name in config.environment:
del config.environment[name]
# Tweak PATH to include llvm tools dir.
if (not config.llvm_tools_dir) or (not os.path.exists(config.llvm_tools_dir)):
lit_config.fatal(
"Invalid llvm_tools_dir config attribute: %r" % config.llvm_tools_dir
)
path = os.path.pathsep.join((config.llvm_tools_dir, config.environment["PATH"]))
config.environment["PATH"] = path
# Help MSVS link.exe find the standard libraries.
# Make sure we only try to use it when targetting Windows.
if platform.system() == "Windows" and target_is_msvc:
config.environment["LIB"] = os.environ["LIB"]
config.available_features.add(config.host_os.lower())
if config.target_triple.startswith("ppc") or config.target_triple.startswith("powerpc"):
config.available_features.add("ppc")
if re.match(r"^x86_64.*-linux", config.target_triple):
config.available_features.add("x86_64-linux")
config.available_features.add("host-byteorder-" + sys.byteorder + "-endian")
if config.have_zlib:
config.available_features.add("zlib")
if config.have_internal_symbolizer:
config.available_features.add("internal_symbolizer")
# Use ugly construction to explicitly prohibit "clang", "clang++" etc.
# in RUN lines.
config.substitutions.append(
(
" clang",
"""\n\n*** Do not use 'clangXXX' in tests,
instead define '%clangXXX' substitution in lit config. ***\n\n""",
)
)
if config.host_os == "NetBSD":
nb_commands_dir = os.path.join(
config.compiler_rt_src_root, "test", "sanitizer_common", "netbsd_commands"
)
config.netbsd_noaslr_prefix = "sh " + os.path.join(nb_commands_dir, "run_noaslr.sh")
config.netbsd_nomprotect_prefix = "sh " + os.path.join(
nb_commands_dir, "run_nomprotect.sh"
)
config.substitutions.append(("%run_nomprotect", config.netbsd_nomprotect_prefix))
else:
config.substitutions.append(("%run_nomprotect", "%run"))
# Copied from libcxx's config.py
def get_lit_conf(name, default=None):
# Allow overriding on the command line using --param=<name>=<val>
val = lit_config.params.get(name, None)
if val is None:
val = getattr(config, name, None)
if val is None:
val = default
return val
emulator = get_lit_conf("emulator", None)
def get_ios_commands_dir():
return os.path.join(
config.compiler_rt_src_root, "test", "sanitizer_common", "ios_commands"
)
# Allow tests to be executed on a simulator or remotely.
if emulator:
config.substitutions.append(("%run", emulator))
config.substitutions.append(("%env ", "env "))
# TODO: Implement `%device_rm` to perform removal of files in the emulator.
# For now just make it a no-op.
lit_config.warning("%device_rm is not implemented")
config.substitutions.append(("%device_rm", "echo "))
config.compile_wrapper = ""
elif config.host_os == "Darwin" and config.apple_platform != "osx":
# Darwin tests can be targetting macOS, a device or a simulator. All devices
# are declared as "ios", even for iOS derivatives (tvOS, watchOS). Similarly,
# all simulators are "iossim". See the table below.
#
# =========================================================================
# Target | Feature set
# =========================================================================
# macOS | darwin
# iOS device | darwin, ios
# iOS simulator | darwin, ios, iossim
# tvOS device | darwin, ios, tvos
# tvOS simulator | darwin, ios, iossim, tvos, tvossim
# watchOS device | darwin, ios, watchos
# watchOS simulator | darwin, ios, iossim, watchos, watchossim
# =========================================================================
ios_or_iossim = "iossim" if config.apple_platform.endswith("sim") else "ios"
config.available_features.add("ios")
device_id_env = "SANITIZER_" + ios_or_iossim.upper() + "_TEST_DEVICE_IDENTIFIER"
if ios_or_iossim == "iossim":
config.available_features.add("iossim")
if device_id_env not in os.environ:
lit_config.fatal(
"{} must be set in the environment when running iossim tests".format(
device_id_env
)
)
if config.apple_platform != "ios" and config.apple_platform != "iossim":
config.available_features.add(config.apple_platform)
ios_commands_dir = get_ios_commands_dir()
run_wrapper = os.path.join(ios_commands_dir, ios_or_iossim + "_run.py")
env_wrapper = os.path.join(ios_commands_dir, ios_or_iossim + "_env.py")
compile_wrapper = os.path.join(ios_commands_dir, ios_or_iossim + "_compile.py")
prepare_script = os.path.join(ios_commands_dir, ios_or_iossim + "_prepare.py")
if device_id_env in os.environ:
config.environment[device_id_env] = os.environ[device_id_env]
config.substitutions.append(("%run", run_wrapper))
config.substitutions.append(("%env ", env_wrapper + " "))
# Current implementation of %device_rm uses the run_wrapper to do
# the work.
config.substitutions.append(("%device_rm", "{} rm ".format(run_wrapper)))
config.compile_wrapper = compile_wrapper
try:
prepare_output = (
subprocess.check_output(
[prepare_script, config.apple_platform, config.clang]
)
.decode()
.strip()
)
except subprocess.CalledProcessError as e:
print("Command failed:")
print(e.output)
raise e
if len(prepare_output) > 0:
print(prepare_output)
prepare_output_json = prepare_output.split("\n")[-1]
prepare_output = json.loads(prepare_output_json)
config.environment.update(prepare_output["env"])
elif config.android:
config.available_features.add("android")
compile_wrapper = (
os.path.join(
config.compiler_rt_src_root,
"test",
"sanitizer_common",
"android_commands",
"android_compile.py",
)
+ " "
)
config.compile_wrapper = compile_wrapper
config.substitutions.append(("%run", ""))
config.substitutions.append(("%env ", "env "))
else:
config.substitutions.append(("%run", ""))
config.substitutions.append(("%env ", "env "))
# When running locally %device_rm is a no-op.
config.substitutions.append(("%device_rm", "echo "))
config.compile_wrapper = ""
# Define CHECK-%os to check for OS-dependent output.
config.substitutions.append(("CHECK-%os", ("CHECK-" + config.host_os)))
# Define %arch to check for architecture-dependent output.
config.substitutions.append(("%arch", (config.host_arch)))
if config.host_os == "Windows":
# FIXME: This isn't quite right. Specifically, it will succeed if the program
# does not crash but exits with a non-zero exit code. We ought to merge
# KillTheDoctor and not --crash to make the latter more useful and remove the
# need for this substitution.
config.expect_crash = "not KillTheDoctor "
else:
config.expect_crash = "not --crash "
config.substitutions.append(("%expect_crash ", config.expect_crash))
target_arch = getattr(config, "target_arch", None)
if target_arch:
config.available_features.add(target_arch + "-target-arch")
if target_arch in ["x86_64", "i386"]:
config.available_features.add("x86-target-arch")
config.available_features.add(target_arch + "-" + config.host_os.lower())
compiler_rt_debug = getattr(config, "compiler_rt_debug", False)
if not compiler_rt_debug:
config.available_features.add("compiler-rt-optimized")
libdispatch = getattr(config, "compiler_rt_intercept_libdispatch", False)
if libdispatch:
config.available_features.add("libdispatch")
sanitizer_can_use_cxxabi = getattr(config, "sanitizer_can_use_cxxabi", True)
if sanitizer_can_use_cxxabi:
config.available_features.add("cxxabi")
if not getattr(config, "sanitizer_uses_static_cxxabi", False):
config.available_features.add("shared_cxxabi")
if not getattr(config, "sanitizer_uses_static_unwind", False):
config.available_features.add("shared_unwind")
if config.has_lld:
config.available_features.add("lld-available")
if config.aarch64_sme:
config.available_features.add("aarch64-sme-available")
if config.use_lld:
config.available_features.add("lld")
if config.can_symbolize:
config.available_features.add("can-symbolize")
if config.gwp_asan:
config.available_features.add("gwp_asan")
lit.util.usePlatformSdkOnDarwin(config, lit_config)
min_macos_deployment_target_substitutions = [
(10, 11),
(10, 12),
]
# TLS requires watchOS 3+
config.substitutions.append(
("%darwin_min_target_with_tls_support", "%min_macos_deployment_target=10.12")
)
if config.host_os == "Darwin":
osx_version = (10, 0, 0)
try:
osx_version = subprocess.check_output(
["sw_vers", "-productVersion"], universal_newlines=True
)
osx_version = tuple(int(x) for x in osx_version.split("."))
if len(osx_version) == 2:
osx_version = (osx_version[0], osx_version[1], 0)
if osx_version >= (10, 11):
config.available_features.add("osx-autointerception")
config.available_features.add("osx-ld64-live_support")
if osx_version >= (13, 1):
config.available_features.add("jit-compatible-osx-swift-runtime")
except subprocess.CalledProcessError:
pass
config.darwin_osx_version = osx_version
# Detect x86_64h
try:
output = subprocess.check_output(["sysctl", "hw.cpusubtype"])
output_re = re.match("^hw.cpusubtype: ([0-9]+)$", output)
if output_re:
cpu_subtype = int(output_re.group(1))
if cpu_subtype == 8: # x86_64h
config.available_features.add("x86_64h")
except:
pass
# 32-bit iOS simulator is deprecated and removed in latest Xcode.
if config.apple_platform == "iossim":
if config.target_arch == "i386":
config.unsupported = True
def get_macos_aligned_version(macos_vers):
platform = config.apple_platform
if platform == "osx":
return macos_vers
macos_major, macos_minor = macos_vers
assert macos_major >= 10
if macos_major == 10: # macOS 10.x
major = macos_minor
minor = 0
else: # macOS 11+
major = macos_major + 5
minor = macos_minor
assert major >= 11
if platform.startswith("ios") or platform.startswith("tvos"):
major -= 2
elif platform.startswith("watch"):
major -= 9
else:
lit_config.fatal("Unsupported apple platform '{}'".format(platform))
return (major, minor)
for vers in min_macos_deployment_target_substitutions:
flag = config.apple_platform_min_deployment_target_flag
major, minor = get_macos_aligned_version(vers)
if "mtargetos" in flag:
sim = "-simulator" if "sim" in config.apple_platform else ""
config.substitutions.append(
(
"%%min_macos_deployment_target=%s.%s" % vers,
"{}{}.{}{}".format(flag, major, minor, sim),
)
)
else:
config.substitutions.append(
(
"%%min_macos_deployment_target=%s.%s" % vers,
"{}={}.{}".format(flag, major, minor),
)
)
else:
for vers in min_macos_deployment_target_substitutions:
config.substitutions.append(("%%min_macos_deployment_target=%s.%s" % vers, ""))
if config.android:
env = os.environ.copy()
if config.android_serial:
env["ANDROID_SERIAL"] = config.android_serial
config.environment["ANDROID_SERIAL"] = config.android_serial
adb = os.environ.get("ADB", "adb")
# These are needed for tests to upload/download temp files, such as
# suppression-files, to device.
config.substitutions.append(("%device_rundir/", "/data/local/tmp/Output/"))
config.substitutions.append(
("%push_to_device", "%s -s '%s' push " % (adb, env["ANDROID_SERIAL"]))
)
config.substitutions.append(
("%adb_shell ", "%s -s '%s' shell " % (adb, env["ANDROID_SERIAL"]))
)
config.substitutions.append(
("%device_rm", "%s -s '%s' shell 'rm ' " % (adb, env["ANDROID_SERIAL"]))
)
try:
android_api_level_str = subprocess.check_output(
[adb, "shell", "getprop", "ro.build.version.sdk"], env=env
).rstrip()
android_api_codename = (
subprocess.check_output(
[adb, "shell", "getprop", "ro.build.version.codename"], env=env
)
.rstrip()
.decode("utf-8")
)
except (subprocess.CalledProcessError, OSError):
lit_config.fatal(
"Failed to read ro.build.version.sdk (using '%s' as adb)" % adb
)
try:
android_api_level = int(android_api_level_str)
except ValueError:
lit_config.fatal(
"Failed to read ro.build.version.sdk (using '%s' as adb): got '%s'"
% (adb, android_api_level_str)
)
android_api_level = min(android_api_level, int(config.android_api_level))
for required in [26, 28, 29, 30]:
if android_api_level >= required:
config.available_features.add("android-%s" % required)
# FIXME: Replace with appropriate version when availible.
if android_api_level > 30 or (
android_api_level == 30 and android_api_codename == "S"
):
config.available_features.add("android-thread-properties-api")
# Prepare the device.
android_tmpdir = "/data/local/tmp/Output"
subprocess.check_call([adb, "shell", "mkdir", "-p", android_tmpdir], env=env)
for file in config.android_files_to_push:
subprocess.check_call([adb, "push", file, android_tmpdir], env=env)
else:
config.substitutions.append(("%device_rundir/", ""))
config.substitutions.append(("%push_to_device", "echo "))
config.substitutions.append(("%adb_shell", "echo "))
if config.host_os == "Linux":
def add_glibc_versions(ver_string):
if config.android:
return
from distutils.version import LooseVersion
ver = LooseVersion(ver_string)
any_glibc = False
for required in ["2.19", "2.27", "2.30", "2.33", "2.34", "2.37"]:
if ver >= LooseVersion(required):
config.available_features.add("glibc-" + required)
any_glibc = True
if any_glibc:
config.available_features.add("glibc")
# detect whether we are using glibc, and which version
cmd_args = [
config.clang.strip(),
f"--target={config.target_triple}",
"-xc",
"-",
"-o",
"-",
"-dM",
"-E",
] + shlex.split(config.target_cflags)
cmd = subprocess.Popen(
cmd_args,
stdout=subprocess.PIPE,
stdin=subprocess.PIPE,
stderr=subprocess.DEVNULL,
env={"LANG": "C"},
)
try:
sout, _ = cmd.communicate(b"#include <features.h>")
m = dict(re.findall(r"#define (__GLIBC__|__GLIBC_MINOR__) (\d+)", str(sout)))
add_glibc_versions(f"{m['__GLIBC__']}.{m['__GLIBC_MINOR__']}")
except:
pass
sancovcc_path = os.path.join(config.llvm_tools_dir, "sancov")
if os.path.exists(sancovcc_path):
config.available_features.add("has_sancovcc")
config.substitutions.append(("%sancovcc ", sancovcc_path))
def liblto_path():
return os.path.join(config.llvm_shlib_dir, "libLTO.dylib")
def is_darwin_lto_supported():
return os.path.exists(liblto_path())
def is_binutils_lto_supported():
if not os.path.exists(os.path.join(config.llvm_shlib_dir, "LLVMgold.so")):
return False
# We require both ld.bfd and ld.gold exist and support plugins. They are in
# the same repository 'binutils-gdb' and usually built together.
for exe in (config.gnu_ld_executable, config.gold_executable):
try:
ld_cmd = subprocess.Popen(
[exe, "--help"], stdout=subprocess.PIPE, env={"LANG": "C"}
)
ld_out = ld_cmd.stdout.read().decode()
ld_cmd.wait()
except OSError:
return False
if not "-plugin" in ld_out:
return False
return True
def is_windows_lto_supported():
if not target_is_msvc:
return True
return os.path.exists(os.path.join(config.llvm_tools_dir, "lld-link.exe"))
if config.host_os == "Darwin" and is_darwin_lto_supported():
config.lto_supported = True
config.lto_flags = ["-Wl,-lto_library," + liblto_path()]
elif config.host_os in ["Linux", "FreeBSD", "NetBSD"]:
config.lto_supported = False
if config.use_lld:
config.lto_supported = True
if is_binutils_lto_supported():
config.available_features.add("binutils_lto")
config.lto_supported = True
if config.lto_supported:
if config.use_lld:
config.lto_flags = ["-fuse-ld=lld"]
else:
config.lto_flags = ["-fuse-ld=gold"]
elif config.host_os == "Windows" and is_windows_lto_supported():
config.lto_supported = True
config.lto_flags = ["-fuse-ld=lld"]
else:
config.lto_supported = False
if config.lto_supported:
config.available_features.add("lto")
if config.use_thinlto:
config.available_features.add("thinlto")
config.lto_flags += ["-flto=thin"]
else:
config.lto_flags += ["-flto"]
if config.have_rpc_xdr_h:
config.available_features.add("sunrpc")
# Ask llvm-config about assertion mode.
try:
llvm_config_cmd = subprocess.Popen(
[os.path.join(config.llvm_tools_dir, "llvm-config"), "--assertion-mode"],
stdout=subprocess.PIPE,
env=config.environment,
)
except OSError as e:
print("Could not launch llvm-config in " + config.llvm_tools_dir)
print(" Failed with error #{0}: {1}".format(e.errno, e.strerror))
exit(42)
if re.search(r"ON", llvm_config_cmd.stdout.read().decode("ascii")):
config.available_features.add("asserts")
llvm_config_cmd.wait()
# Sanitizer tests tend to be flaky on Windows due to PR24554, so add some
# retries. We don't do this on otther platforms because it's slower.
if platform.system() == "Windows":
config.test_retry_attempts = 2
# No throttling on non-Darwin platforms.
lit_config.parallelism_groups["shadow-memory"] = None
if platform.system() == "Darwin":
ios_device = config.apple_platform != "osx" and not config.apple_platform.endswith(
"sim"
)
# Force sequential execution when running tests on iOS devices.
if ios_device:
lit_config.warning("Forcing sequential execution for iOS device tests")
lit_config.parallelism_groups["ios-device"] = 1
config.parallelism_group = "ios-device"
# Only run up to 3 processes that require shadow memory simultaneously on
# 64-bit Darwin. Using more scales badly and hogs the system due to
# inefficient handling of large mmap'd regions (terabytes) by the kernel.
else:
lit_config.warning(
"Throttling sanitizer tests that require shadow memory on Darwin"
)
lit_config.parallelism_groups["shadow-memory"] = 3
# Multiple substitutions are necessary to support multiple shared objects used
# at once.
# Note that substitutions with numbers have to be defined first to avoid
# being subsumed by substitutions with smaller postfix.
for postfix in ["2", "1", ""]:
if config.host_os == "Darwin":
config.substitutions.append(
(
"%ld_flags_rpath_exe" + postfix,
"-Wl,-rpath,@executable_path/ %dynamiclib" + postfix,
)
)
config.substitutions.append(
(
"%ld_flags_rpath_so" + postfix,
"-install_name @rpath/`basename %dynamiclib{}`".format(postfix),
)
)
elif config.host_os in ("FreeBSD", "NetBSD", "OpenBSD"):
config.substitutions.append(
(
"%ld_flags_rpath_exe" + postfix,
r"-Wl,-z,origin -Wl,-rpath,\$ORIGIN -L%T -l%xdynamiclib_namespec"
+ postfix,
)
)
config.substitutions.append(("%ld_flags_rpath_so" + postfix, ""))
elif config.host_os == "Linux":
config.substitutions.append(
(
"%ld_flags_rpath_exe" + postfix,
r"-Wl,-rpath,\$ORIGIN -L%T -l%xdynamiclib_namespec" + postfix,
)
)
config.substitutions.append(("%ld_flags_rpath_so" + postfix, ""))
elif config.host_os == "SunOS":
config.substitutions.append(
(
"%ld_flags_rpath_exe" + postfix,
r"-Wl,-R\$ORIGIN -L%T -l%xdynamiclib_namespec" + postfix,
)
)
config.substitutions.append(("%ld_flags_rpath_so" + postfix, ""))
# Must be defined after the substitutions that use %dynamiclib.
config.substitutions.append(
("%dynamiclib" + postfix, "%T/%xdynamiclib_filename" + postfix)
)
config.substitutions.append(
(
"%xdynamiclib_filename" + postfix,
"lib%xdynamiclib_namespec{}.so".format(postfix),
)
)
config.substitutions.append(("%xdynamiclib_namespec", "%basename_t.dynamic"))
config.default_sanitizer_opts = []
if config.host_os == "Darwin":
# On Darwin, we default to `abort_on_error=1`, which would make tests run
# much slower. Let's override this and run lit tests with 'abort_on_error=0'.
config.default_sanitizer_opts += ["abort_on_error=0"]
config.default_sanitizer_opts += ["log_to_syslog=0"]
if lit.util.which("log"):
# Querying the log can only done by a privileged user so
# so check if we can query the log.
exit_code = -1
with open("/dev/null", "r") as f:
# Run a `log show` command the should finish fairly quickly and produce very little output.
exit_code = subprocess.call(
["log", "show", "--last", "1m", "--predicate", "1 == 0"],
stdout=f,
stderr=f,
)
if exit_code == 0:
config.available_features.add("darwin_log_cmd")
else:
lit_config.warning("log command found but cannot queried")
else:
lit_config.warning("log command not found. Some tests will be skipped.")
elif config.android:
config.default_sanitizer_opts += ["abort_on_error=0"]
# Allow tests to use REQUIRES=stable-runtime. For use when you cannot use XFAIL
# because the test hangs or fails on one configuration and not the other.
if config.android or (config.target_arch not in ["arm", "armhf", "aarch64"]):
config.available_features.add("stable-runtime")
if config.asan_shadow_scale:
config.available_features.add("shadow-scale-%s" % config.asan_shadow_scale)
else:
config.available_features.add("shadow-scale-3")
if config.memprof_shadow_scale:
config.available_features.add(
"memprof-shadow-scale-%s" % config.memprof_shadow_scale
)
else:
config.available_features.add("memprof-shadow-scale-3")
if config.expensive_checks:
config.available_features.add("expensive_checks")
# Propagate the LLD/LTO into the clang config option, so nothing else is needed.
run_wrapper = []
target_cflags = [getattr(config, "target_cflags", None)]
extra_cflags = []
if config.use_lto and config.lto_supported:
extra_cflags += config.lto_flags
elif config.use_lto and (not config.lto_supported):
config.unsupported = True
if config.use_lld and config.has_lld and not config.use_lto:
extra_cflags += ["-fuse-ld=lld"]
elif config.use_lld and (not config.has_lld):
config.unsupported = True
# Append any extra flags passed in lit_config
append_target_cflags = lit_config.params.get("append_target_cflags", None)
if append_target_cflags:
lit_config.note('Appending to extra_cflags: "{}"'.format(append_target_cflags))
extra_cflags += [append_target_cflags]
config.clang = (
" " + " ".join(run_wrapper + [config.compile_wrapper, config.clang]) + " "
)
config.target_cflags = " " + " ".join(target_cflags + extra_cflags) + " "
if config.host_os == "Darwin":
config.substitutions.append(
(
"%get_pid_from_output",
"{} {}/get_pid_from_output.py".format(
shlex.quote(config.python_executable),
shlex.quote(get_ios_commands_dir()),
),
)
)
config.substitutions.append(
(
"%print_crashreport_for_pid",
"{} {}/print_crashreport_for_pid.py".format(
shlex.quote(config.python_executable),
shlex.quote(get_ios_commands_dir()),
),
)
)
# It is not realistically possible to account for all options that could
# possibly be present in system and user configuration files, so disable
# default configs for the test runs. In particular, anything hardening
# related is likely to cause issues with sanitizer tests, because it may
# preempt something we're looking to trap (e.g. _FORTIFY_SOURCE vs our ASAN).
config.environment["CLANG_NO_DEFAULT_CONFIG"] = "1"
if config.has_compiler_rt_libatomic:
base_lib = os.path.join(config.compiler_rt_libdir, "libclang_rt.atomic%s.so"
% config.target_suffix)
if sys.platform in ['win32'] and execute_external:
# Don't pass dosish path separator to msys bash.exe.
base_lib = base_lib.replace('\\', '/')
config.substitutions.append(("%libatomic", base_lib + f" -Wl,-rpath,{config.compiler_rt_libdir}"))
else:
config.substitutions.append(("%libatomic", "-latomic"))
# Set LD_LIBRARY_PATH to pick dynamic runtime up properly.
push_dynamic_library_lookup_path(config, config.compiler_rt_libdir)
# GCC-ASan uses dynamic runtime by default.
if config.compiler_id == "GNU":
gcc_dir = os.path.dirname(config.clang)
libasan_dir = os.path.join(gcc_dir, "..", "lib" + config.bits)
push_dynamic_library_lookup_path(config, libasan_dir)