#===----------------------------------------------------------------------===## # # The LLVM Compiler Infrastructure # # This file is dual licensed under the MIT and the University of Illinois Open # Source Licenses. See LICENSE.TXT for details. # #===----------------------------------------------------------------------===## import locale import os import platform import pkgutil import pipes import re import shlex import shutil import sys from libcxx.compiler import CXXCompiler from libcxx.test.target_info import make_target_info from libcxx.test.executor import * from libcxx.test.tracing import * import libcxx.util def loadSiteConfig(lit_config, config, param_name, env_name): # We haven't loaded the site specific configuration (the user is # probably trying to run on a test file directly, and either the site # configuration hasn't been created by the build system, or we are in an # out-of-tree build situation). site_cfg = lit_config.params.get(param_name, os.environ.get(env_name)) if not site_cfg: lit_config.warning('No site specific configuration file found!' ' Running the tests in the default configuration.') elif not os.path.isfile(site_cfg): lit_config.fatal( "Specified site configuration file does not exist: '%s'" % site_cfg) else: lit_config.note('using site specific configuration at %s' % site_cfg) ld_fn = lit_config.load_config # Null out the load_config function so that lit.site.cfg doesn't # recursively load a config even if it tries. # TODO: This is one hell of a hack. Fix it. def prevent_reload_fn(*args, **kwargs): pass lit_config.load_config = prevent_reload_fn ld_fn(config, site_cfg) lit_config.load_config = ld_fn class Configuration(object): # pylint: disable=redefined-outer-name def __init__(self, lit_config, config): self.lit_config = lit_config self.config = config self.is_windows = platform.system() == 'Windows' self.cxx = None self.cxx_is_clang_cl = None self.cxx_stdlib_under_test = None self.project_obj_root = None self.libcxx_src_root = None self.libcxx_obj_root = None self.cxx_library_root = None self.cxx_runtime_root = None self.abi_library_root = None self.link_shared = self.get_lit_bool('enable_shared', default=True) self.debug_build = self.get_lit_bool('debug_build', default=False) self.exec_env = {} self.use_target = False self.use_system_cxx_lib = False self.use_clang_verify = False self.long_tests = None self.execute_external = False def get_lit_conf(self, name, default=None): val = self.lit_config.params.get(name, None) if val is None: val = getattr(self.config, name, None) if val is None: val = default return val def get_lit_bool(self, name, default=None, env_var=None): def check_value(value, var_name): if value is None: return default if isinstance(value, bool): return value if not isinstance(value, str): raise TypeError('expected bool or string') if value.lower() in ('1', 'true'): return True if value.lower() in ('', '0', 'false'): return False self.lit_config.fatal( "parameter '{}' should be true or false".format(var_name)) conf_val = self.get_lit_conf(name) if env_var is not None and env_var in os.environ and \ os.environ[env_var] is not None: val = os.environ[env_var] if conf_val is not None: self.lit_config.warning( 'Environment variable %s=%s is overriding explicit ' '--param=%s=%s' % (env_var, val, name, conf_val)) return check_value(val, env_var) return check_value(conf_val, name) def make_static_lib_name(self, name): """Return the full filename for the specified library name""" if self.is_windows: return name + '.lib' else: return 'lib' + name + '.a' def configure(self): self.configure_executor() self.configure_target_info() self.configure_cxx() self.configure_triple() self.configure_src_root() self.configure_obj_root() self.configure_cxx_stdlib_under_test() self.configure_cxx_library_root() self.configure_use_system_cxx_lib() self.configure_use_clang_verify() self.configure_use_thread_safety() self.configure_execute_external() self.configure_ccache() self.configure_compile_flags() self.configure_filesystem_compile_flags() self.configure_link_flags() self.configure_env() self.configure_color_diagnostics() self.configure_debug_mode() self.configure_warnings() self.configure_sanitizer() self.configure_coverage() self.configure_modules() self.configure_substitutions() self.configure_features() def print_config_info(self): # Print the final compile and link flags. self.lit_config.note('Using compiler: %s' % self.cxx.path) self.lit_config.note('Using flags: %s' % self.cxx.flags) if self.cxx.use_modules: self.lit_config.note('Using modules flags: %s' % self.cxx.modules_flags) self.lit_config.note('Using compile flags: %s' % self.cxx.compile_flags) if len(self.cxx.warning_flags): self.lit_config.note('Using warnings: %s' % self.cxx.warning_flags) self.lit_config.note('Using link flags: %s' % self.cxx.link_flags) # Print as list to prevent "set([...])" from being printed. self.lit_config.note('Using available_features: %s' % list(self.config.available_features)) self.lit_config.note('Using environment: %r' % self.exec_env) sys.stderr.flush() # Force flushing to avoid broken output on Windows def get_test_format(self): from libcxx.test.format import LibcxxTestFormat return LibcxxTestFormat( self.cxx, self.use_clang_verify, self.execute_external, self.executor, exec_env=self.exec_env) def configure_executor(self): exec_str = self.get_lit_conf('executor', "None") te = eval(exec_str) if te: self.lit_config.note("Using executor: %r" % exec_str) if self.lit_config.useValgrind: # We have no way of knowing where in the chain the # ValgrindExecutor is supposed to go. It is likely # that the user wants it at the end, but we have no # way of getting at that easily. selt.lit_config.fatal("Cannot infer how to create a Valgrind " " executor.") else: te = LocalExecutor() if self.lit_config.useValgrind: te = ValgrindExecutor(self.lit_config.valgrindArgs, te) self.executor = te def configure_target_info(self): self.target_info = make_target_info(self) def configure_cxx(self): # Gather various compiler parameters. cxx = self.get_lit_conf('cxx_under_test') self.cxx_is_clang_cl = cxx is not None and \ os.path.basename(cxx) == 'clang-cl.exe' # If no specific cxx_under_test was given, attempt to infer it as # clang++. if cxx is None or self.cxx_is_clang_cl: search_paths = self.config.environment['PATH'] if cxx is not None and os.path.isabs(cxx): search_paths = os.path.dirname(cxx) clangxx = libcxx.util.which('clang++', search_paths) if clangxx: cxx = clangxx self.lit_config.note( "inferred cxx_under_test as: %r" % cxx) elif self.cxx_is_clang_cl: self.lit_config.fatal('Failed to find clang++ substitution for' ' clang-cl') if not cxx: self.lit_config.fatal('must specify user parameter cxx_under_test ' '(e.g., --param=cxx_under_test=clang++)') self.cxx = CXXCompiler(cxx) if not self.cxx_is_clang_cl else \ self._configure_clang_cl(cxx) cxx_type = self.cxx.type if cxx_type is not None: assert self.cxx.version is not None maj_v, min_v, _ = self.cxx.version self.config.available_features.add(cxx_type) self.config.available_features.add('%s-%s' % (cxx_type, maj_v)) self.config.available_features.add('%s-%s.%s' % ( cxx_type, maj_v, min_v)) self.cxx.compile_env = dict(os.environ) # 'CCACHE_CPP2' prevents ccache from stripping comments while # preprocessing. This is required to prevent stripping of '-verify' # comments. self.cxx.compile_env['CCACHE_CPP2'] = '1' def _configure_clang_cl(self, clang_path): def _split_env_var(var): return [p.strip() for p in os.environ.get(var, '').split(';') if p.strip()] def _prefixed_env_list(var, prefix): from itertools import chain return list(chain.from_iterable((prefix, path) for path in _split_env_var(var))) assert self.cxx_is_clang_cl flags = [] compile_flags = _prefixed_env_list('INCLUDE', '-isystem') link_flags = _prefixed_env_list('LIB', '-L') for path in _list_env_var('LIB'): self.add_path(self.exec_env, path) return CXXCompiler(clang_path, flags=flags, compile_flags=compile_flags, link_flags=link_flags) def configure_src_root(self): self.libcxx_src_root = self.get_lit_conf( 'libcxx_src_root', os.path.dirname(self.config.test_source_root)) def configure_obj_root(self): self.project_obj_root = self.get_lit_conf('project_obj_root') self.libcxx_obj_root = self.get_lit_conf('libcxx_obj_root') if not self.libcxx_obj_root and self.project_obj_root is not None: possible_root = os.path.join(self.project_obj_root, 'projects', 'libcxx') if os.path.isdir(possible_root): self.libcxx_obj_root = possible_root else: self.libcxx_obj_root = self.project_obj_root def configure_cxx_library_root(self): self.cxx_library_root = self.get_lit_conf('cxx_library_root', self.libcxx_obj_root) self.cxx_runtime_root = self.get_lit_conf('cxx_runtime_root', self.cxx_library_root) def configure_use_system_cxx_lib(self): # This test suite supports testing against either the system library or # the locally built one; the former mode is useful for testing ABI # compatibility between the current headers and a shipping dynamic # library. self.use_system_cxx_lib = self.get_lit_bool('use_system_cxx_lib') if self.use_system_cxx_lib is None: # Default to testing against the locally built libc++ library. self.use_system_cxx_lib = False self.lit_config.note( "inferred use_system_cxx_lib as: %r" % self.use_system_cxx_lib) def configure_cxx_stdlib_under_test(self): self.cxx_stdlib_under_test = self.get_lit_conf( 'cxx_stdlib_under_test', 'libc++') if self.cxx_stdlib_under_test not in \ ['libc++', 'libstdc++', 'msvc', 'cxx_default']: self.lit_config.fatal( 'unsupported value for "cxx_stdlib_under_test": %s' % self.cxx_stdlib_under_test) self.config.available_features.add(self.cxx_stdlib_under_test) if self.cxx_stdlib_under_test == 'libstdc++': self.config.available_features.add('libstdc++') # Manually enable the experimental and filesystem tests for libstdc++ # if the options aren't present. # FIXME this is a hack. if self.get_lit_conf('enable_experimental') is None: self.config.enable_experimental = 'true' if self.get_lit_conf('enable_filesystem') is None: self.config.enable_filesystem = 'true' def configure_use_clang_verify(self): '''If set, run clang with -verify on failing tests.''' self.use_clang_verify = self.get_lit_bool('use_clang_verify') if self.use_clang_verify is None: # NOTE: We do not test for the -verify flag directly because # -verify will always exit with non-zero on an empty file. self.use_clang_verify = self.cxx.isVerifySupported() if self.use_clang_verify: self.config.available_features.add('verify-support') self.lit_config.note( "inferred use_clang_verify as: %r" % self.use_clang_verify) def configure_use_thread_safety(self): '''If set, run clang with -verify on failing tests.''' has_thread_safety = self.cxx.hasCompileFlag('-Werror=thread-safety') if has_thread_safety: self.cxx.compile_flags += ['-Werror=thread-safety'] self.config.available_features.add('thread-safety') self.lit_config.note("enabling thread-safety annotations") def configure_execute_external(self): # 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 the # default value. Otherwise we ask the target_info. use_lit_shell_default = os.environ.get('LIT_USE_INTERNAL_SHELL') if use_lit_shell_default is not None: use_lit_shell_default = use_lit_shell_default != '0' else: use_lit_shell_default = self.target_info.use_lit_shell_default() # Check for the command line parameter using the default value if it is # not present. use_lit_shell = self.get_lit_bool('use_lit_shell', use_lit_shell_default) self.execute_external = not use_lit_shell def configure_ccache(self): use_ccache_default = os.environ.get('LIBCXX_USE_CCACHE') is not None use_ccache = self.get_lit_bool('use_ccache', use_ccache_default) if use_ccache: self.cxx.use_ccache = True self.lit_config.note('enabling ccache') def configure_features(self): additional_features = self.get_lit_conf('additional_features') if additional_features: for f in additional_features.split(','): self.config.available_features.add(f.strip()) self.target_info.add_locale_features(self.config.available_features) target_platform = self.target_info.platform() # Write an "available feature" that combines the triple when # use_system_cxx_lib is enabled. This is so that we can easily write # XFAIL markers for tests that are known to fail with versions of # libc++ as were shipped with a particular triple. if self.use_system_cxx_lib: self.config.available_features.add('with_system_cxx_lib') self.config.available_features.add( 'with_system_cxx_lib=%s' % self.config.target_triple) # Insert the platform name into the available features as a lower case. self.config.available_features.add(target_platform) # Simulator testing can take a really long time for some of these tests # so add a feature check so we can REQUIRES: long_tests in them self.long_tests = self.get_lit_bool('long_tests') if self.long_tests is None: # Default to running long tests. self.long_tests = True self.lit_config.note( "inferred long_tests as: %r" % self.long_tests) if self.long_tests: self.config.available_features.add('long_tests') # Run a compile test for the -fsized-deallocation flag. This is needed # in test/std/language.support/support.dynamic/new.delete if self.cxx.hasCompileFlag('-fsized-deallocation'): self.config.available_features.add('fsized-deallocation') if self.cxx.hasCompileFlag('-faligned-allocation'): self.config.available_features.add('-faligned-allocation') else: # FIXME remove this once more than just clang-4.0 support # C++17 aligned allocation. self.config.available_features.add('no-aligned-allocation') if self.get_lit_bool('has_libatomic', False): self.config.available_features.add('libatomic') macros = self.cxx.dumpMacros() if '__cpp_if_constexpr' not in macros: self.config.available_features.add('libcpp-no-if-constexpr') if '__cpp_structured_bindings' not in macros: self.config.available_features.add('libcpp-no-structured-bindings') if '__cpp_deduction_guides' not in macros: self.config.available_features.add('libcpp-no-deduction-guides') if self.is_windows: self.config.available_features.add('windows') # Attempt to detect the glibc version by querying for __GLIBC__ # in 'features.h'. macros = self.cxx.dumpMacros(flags=['-include', 'features.h']) if macros is not None and '__GLIBC__' in macros: maj_v, min_v = (macros['__GLIBC__'], macros['__GLIBC_MINOR__']) self.config.available_features.add('glibc') self.config.available_features.add('glibc-%s' % maj_v) self.config.available_features.add('glibc-%s.%s' % (maj_v, min_v)) def configure_compile_flags(self): no_default_flags = self.get_lit_bool('no_default_flags', False) if not no_default_flags: self.configure_default_compile_flags() # This include is always needed so add so add it regardless of # 'no_default_flags'. support_path = os.path.join(self.libcxx_src_root, 'test/support') self.cxx.compile_flags += ['-I' + support_path] # Configure extra flags compile_flags_str = self.get_lit_conf('compile_flags', '') self.cxx.compile_flags += shlex.split(compile_flags_str) # FIXME: Can we remove this? if self.is_windows: self.cxx.compile_flags += ['-D_CRT_SECURE_NO_WARNINGS'] def configure_default_compile_flags(self): # Try and get the std version from the command line. Fall back to # default given in lit.site.cfg is not present. If default is not # present then force c++11. std = self.get_lit_conf('std') if not std: # Choose the newest possible language dialect if none is given. possible_stds = ['c++1z', 'c++14', 'c++11', 'c++03'] if self.cxx.type == 'gcc': maj_v, _, _ = self.cxx.version maj_v = int(maj_v) if maj_v < 7: possible_stds.remove('c++1z') # FIXME: How many C++14 tests actually fail under GCC 5 and 6? # Should we XFAIL them individually instead? if maj_v <= 6: possible_stds.remove('c++14') for s in possible_stds: if self.cxx.hasCompileFlag('-std=%s' % s): std = s self.lit_config.note( 'inferred language dialect as: %s' % std) break if not std: self.lit_config.fatal( 'Failed to infer a supported language dialect from one of %r' % possible_stds) self.cxx.compile_flags += ['-std={0}'.format(std)] self.config.available_features.add(std.replace('gnu++', 'c++')) # Configure include paths self.configure_compile_flags_header_includes() self.target_info.add_cxx_compile_flags(self.cxx.compile_flags) # Configure feature flags. self.configure_compile_flags_exceptions() self.configure_compile_flags_rtti() self.configure_compile_flags_abi_version() enable_32bit = self.get_lit_bool('enable_32bit', False) if enable_32bit: self.cxx.flags += ['-m32'] # Use verbose output for better errors self.cxx.flags += ['-v'] sysroot = self.get_lit_conf('sysroot') if sysroot: self.cxx.flags += ['--sysroot', sysroot] gcc_toolchain = self.get_lit_conf('gcc_toolchain') if gcc_toolchain: self.cxx.flags += ['-gcc-toolchain', gcc_toolchain] # NOTE: the _DEBUG definition must preceed the triple check because for # the Windows build of libc++, the forced inclusion of a header requires # that _DEBUG is defined. Incorrect ordering will result in -target # being elided. if self.is_windows and self.debug_build: self.cxx.compile_flags += ['-D_DEBUG'] if self.use_target: if not self.cxx.addFlagIfSupported( ['-target', self.config.target_triple]): self.lit_config.warning('use_target is true but -target is '\ 'not supported by the compiler') def configure_compile_flags_header_includes(self): support_path = os.path.join(self.libcxx_src_root, 'test', 'support') if self.cxx_stdlib_under_test != 'libstdc++' and \ not self.is_windows: self.cxx.compile_flags += [ '-include', os.path.join(support_path, 'nasty_macros.hpp')] if self.cxx_stdlib_under_test == 'msvc': self.cxx.compile_flags += [ '-include', os.path.join(support_path, 'msvc_stdlib_force_include.hpp')] pass if self.is_windows and self.debug_build and \ self.cxx_stdlib_under_test != 'msvc': self.cxx.compile_flags += [ '-include', os.path.join(support_path, 'set_windows_crt_report_mode.h') ] self.configure_config_site_header() cxx_headers = self.get_lit_conf('cxx_headers') if cxx_headers == '' or (cxx_headers is None and self.cxx_stdlib_under_test != 'libc++'): self.lit_config.note('using the system cxx headers') return self.cxx.compile_flags += ['-nostdinc++'] if cxx_headers is None: cxx_headers = os.path.join(self.libcxx_src_root, 'include') if not os.path.isdir(cxx_headers): self.lit_config.fatal("cxx_headers='%s' is not a directory." % cxx_headers) self.cxx.compile_flags += ['-I' + cxx_headers] if self.libcxx_obj_root is not None: cxxabi_headers = os.path.join(self.libcxx_obj_root, 'include', 'c++build') if os.path.isdir(cxxabi_headers): self.cxx.compile_flags += ['-I' + cxxabi_headers] def configure_config_site_header(self): # Check for a possible __config_site in the build directory. We # use this if it exists. if self.libcxx_obj_root is None: return config_site_header = os.path.join(self.libcxx_obj_root, '__config_site') if not os.path.isfile(config_site_header): return contained_macros = self.parse_config_site_and_add_features( config_site_header) self.lit_config.note('Using __config_site header %s with macros: %r' % (config_site_header, contained_macros)) # FIXME: This must come after the call to # 'parse_config_site_and_add_features(...)' in order for it to work. self.cxx.compile_flags += ['-include', config_site_header] def parse_config_site_and_add_features(self, header): """ parse_config_site_and_add_features - Deduce and add the test features that that are implied by the #define's in the __config_site header. Return a dictionary containing the macros found in the '__config_site' header. """ # Parse the macro contents of __config_site by dumping the macros # using 'c++ -dM -E' and filtering the predefines. predefines = self.cxx.dumpMacros() macros = self.cxx.dumpMacros(header) feature_macros_keys = set(macros.keys()) - set(predefines.keys()) feature_macros = {} for k in feature_macros_keys: feature_macros[k] = macros[k] # We expect the header guard to be one of the definitions assert '_LIBCPP_CONFIG_SITE' in feature_macros del feature_macros['_LIBCPP_CONFIG_SITE'] # The __config_site header should be non-empty. Otherwise it should # have never been emitted by CMake. assert len(feature_macros) > 0 # Transform each macro name into the feature name used in the tests. # Ex. _LIBCPP_HAS_NO_THREADS -> libcpp-has-no-threads for m in feature_macros: if m == '_LIBCPP_DISABLE_VISIBILITY_ANNOTATIONS': continue if m == '_LIBCPP_ABI_VERSION': self.config.available_features.add('libcpp-abi-version-v%s' % feature_macros[m]) continue assert m.startswith('_LIBCPP_HAS_') or m == '_LIBCPP_ABI_UNSTABLE' m = m.lower()[1:].replace('_', '-') self.config.available_features.add(m) return feature_macros def configure_compile_flags_exceptions(self): enable_exceptions = self.get_lit_bool('enable_exceptions', True) if not enable_exceptions: self.config.available_features.add('libcpp-no-exceptions') self.cxx.compile_flags += ['-fno-exceptions'] def configure_compile_flags_rtti(self): enable_rtti = self.get_lit_bool('enable_rtti', True) if not enable_rtti: self.config.available_features.add('libcpp-no-rtti') self.cxx.compile_flags += ['-fno-rtti', '-D_LIBCPP_NO_RTTI'] def configure_compile_flags_abi_version(self): abi_version = self.get_lit_conf('abi_version', '').strip() abi_unstable = self.get_lit_bool('abi_unstable') # Only add the ABI version when it is non-default. # FIXME(EricWF): Get the ABI version from the "__config_site". if abi_version and abi_version != '1': self.cxx.compile_flags += ['-D_LIBCPP_ABI_VERSION=' + abi_version] if abi_unstable: self.config.available_features.add('libcpp-abi-unstable') self.cxx.compile_flags += ['-D_LIBCPP_ABI_UNSTABLE'] def configure_filesystem_compile_flags(self): enable_fs = self.get_lit_bool('enable_filesystem', default=False) if not enable_fs: return enable_experimental = self.get_lit_bool('enable_experimental', default=False) if not enable_experimental: self.lit_config.fatal( 'filesystem is enabled but libc++experimental.a is not.') self.config.available_features.add('c++filesystem') static_env = os.path.join(self.libcxx_src_root, 'test', 'std', 'experimental', 'filesystem', 'Inputs', 'static_test_env') static_env = os.path.realpath(static_env) assert os.path.isdir(static_env) self.cxx.compile_flags += ['-DLIBCXX_FILESYSTEM_STATIC_TEST_ROOT="%s"' % static_env] dynamic_env = os.path.join(self.config.test_exec_root, 'filesystem', 'Output', 'dynamic_env') dynamic_env = os.path.realpath(dynamic_env) if not os.path.isdir(dynamic_env): os.makedirs(dynamic_env) self.cxx.compile_flags += ['-DLIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT="%s"' % dynamic_env] self.exec_env['LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT'] = ("%s" % dynamic_env) dynamic_helper = os.path.join(self.libcxx_src_root, 'test', 'support', 'filesystem_dynamic_test_helper.py') assert os.path.isfile(dynamic_helper) self.cxx.compile_flags += ['-DLIBCXX_FILESYSTEM_DYNAMIC_TEST_HELPER="%s %s"' % (sys.executable, dynamic_helper)] def configure_link_flags(self): no_default_flags = self.get_lit_bool('no_default_flags', False) if not no_default_flags: # Configure library path self.configure_link_flags_cxx_library_path() self.configure_link_flags_abi_library_path() # Configure libraries if self.cxx_stdlib_under_test == 'libc++': self.cxx.link_flags += ['-nodefaultlibs'] # FIXME: Handle MSVCRT as part of the ABI library handling. if self.is_windows: self.cxx.link_flags += ['-nostdlib'] self.configure_link_flags_cxx_library() self.configure_link_flags_abi_library() self.configure_extra_library_flags() elif self.cxx_stdlib_under_test == 'libstdc++': enable_fs = self.get_lit_bool('enable_filesystem', default=False) if enable_fs: self.config.available_features.add('c++experimental') self.cxx.link_flags += ['-lstdc++fs'] self.cxx.link_flags += ['-lm', '-pthread'] elif self.cxx_stdlib_under_test == 'msvc': # FIXME: Correctly setup debug/release flags here. pass elif self.cxx_stdlib_under_test == 'cxx_default': self.cxx.link_flags += ['-pthread'] else: self.lit_config.fatal( 'unsupported value for "use_stdlib_type": %s' % use_stdlib_type) link_flags_str = self.get_lit_conf('link_flags', '') self.cxx.link_flags += shlex.split(link_flags_str) def configure_link_flags_cxx_library_path(self): if not self.use_system_cxx_lib: if self.cxx_library_root: self.cxx.link_flags += ['-L' + self.cxx_library_root] if self.is_windows and self.link_shared: self.add_path(self.cxx.compile_env, self.cxx_library_root) if self.cxx_runtime_root: if not self.is_windows: self.cxx.link_flags += ['-Wl,-rpath,' + self.cxx_runtime_root] elif self.is_windows and self.link_shared: self.add_path(self.exec_env, self.cxx_runtime_root) def configure_link_flags_abi_library_path(self): # Configure ABI library paths. self.abi_library_root = self.get_lit_conf('abi_library_path') if self.abi_library_root: self.cxx.link_flags += ['-L' + self.abi_library_root] if not self.is_windows: self.cxx.link_flags += ['-Wl,-rpath,' + self.abi_library_root] else: self.add_path(self.exec_env, self.abi_library_root) def configure_link_flags_cxx_library(self): libcxx_experimental = self.get_lit_bool('enable_experimental', default=False) if libcxx_experimental: self.config.available_features.add('c++experimental') self.cxx.link_flags += ['-lc++experimental'] if self.link_shared: self.cxx.link_flags += ['-lc++'] else: cxx_library_root = self.get_lit_conf('cxx_library_root') if cxx_library_root: libname = self.make_static_lib_name('c++') abs_path = os.path.join(cxx_library_root, libname) assert os.path.exists(abs_path) and \ "static libc++ library does not exist" self.cxx.link_flags += [abs_path] else: self.cxx.link_flags += ['-lc++'] def configure_link_flags_abi_library(self): cxx_abi = self.get_lit_conf('cxx_abi', 'libcxxabi') if cxx_abi == 'libstdc++': self.cxx.link_flags += ['-lstdc++'] elif cxx_abi == 'libsupc++': self.cxx.link_flags += ['-lsupc++'] elif cxx_abi == 'libcxxabi': if self.target_info.allow_cxxabi_link(): libcxxabi_shared = self.get_lit_bool('libcxxabi_shared', default=True) if libcxxabi_shared: self.cxx.link_flags += ['-lc++abi'] else: cxxabi_library_root = self.get_lit_conf('abi_library_path') if cxxabi_library_root: libname = self.make_static_lib_name('c++abi') abs_path = os.path.join(cxxabi_library_root, libname) self.cxx.link_flags += [abs_path] else: self.cxx.link_flags += ['-lc++abi'] elif cxx_abi == 'libcxxrt': self.cxx.link_flags += ['-lcxxrt'] elif cxx_abi == 'vcruntime': debug_suffix = 'd' if self.debug_build else '' self.cxx.link_flags += ['-l%s%s' % (lib, debug_suffix) for lib in ['vcruntime', 'ucrt', 'msvcrt']] elif cxx_abi == 'none' or cxx_abi == 'default': if self.is_windows: debug_suffix = 'd' if self.debug_build else '' self.cxx.link_flags += ['-lmsvcrt%s' % debug_suffix] else: self.lit_config.fatal( 'C++ ABI setting %s unsupported for tests' % cxx_abi) def configure_extra_library_flags(self): if self.get_lit_bool('cxx_ext_threads', default=False): self.cxx.link_flags += ['-lc++external_threads'] self.target_info.add_cxx_link_flags(self.cxx.link_flags) def configure_color_diagnostics(self): use_color = self.get_lit_conf('color_diagnostics') if use_color is None: use_color = os.environ.get('LIBCXX_COLOR_DIAGNOSTICS') if use_color is None: return if use_color != '': self.lit_config.fatal('Invalid value for color_diagnostics "%s".' % use_color) color_flag = '-fdiagnostics-color=always' # Check if the compiler supports the color diagnostics flag. Issue a # warning if it does not since color diagnostics have been requested. if not self.cxx.hasCompileFlag(color_flag): self.lit_config.warning( 'color diagnostics have been requested but are not supported ' 'by the compiler') else: self.cxx.flags += [color_flag] def configure_debug_mode(self): debug_level = self.get_lit_conf('debug_level', None) if not debug_level: return if debug_level not in ['0', '1']: self.lit_config.fatal('Invalid value for debug_level "%s".' % debug_level) self.cxx.compile_flags += ['-D_LIBCPP_DEBUG=%s' % debug_level] def configure_warnings(self): # Turn on warnings by default for Clang based compilers when C++ >= 11 default_enable_warnings = self.cxx.type in ['clang', 'apple-clang'] \ and len(self.config.available_features.intersection( ['c++11', 'c++14', 'c++1z'])) != 0 enable_warnings = self.get_lit_bool('enable_warnings', default_enable_warnings) self.cxx.useWarnings(enable_warnings) self.cxx.warning_flags += [ '-D_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER', '-Wall', '-Wextra', '-Werror' ] if self.cxx.hasWarningFlag('-Wuser-defined-warnings'): self.cxx.warning_flags += ['-Wuser-defined-warnings'] self.config.available_features.add('diagnose-if-support') self.cxx.addWarningFlagIfSupported('-Wshadow') self.cxx.addWarningFlagIfSupported('-Wno-unused-command-line-argument') self.cxx.addWarningFlagIfSupported('-Wno-attributes') self.cxx.addWarningFlagIfSupported('-Wno-pessimizing-move') self.cxx.addWarningFlagIfSupported('-Wno-c++11-extensions') self.cxx.addWarningFlagIfSupported('-Wno-user-defined-literals') # These warnings should be enabled in order to support the MSVC # team using the test suite; They enable the warnings below and # expect the test suite to be clean. self.cxx.addWarningFlagIfSupported('-Wsign-compare') self.cxx.addWarningFlagIfSupported('-Wunused-variable') self.cxx.addWarningFlagIfSupported('-Wunused-parameter') self.cxx.addWarningFlagIfSupported('-Wunreachable-code') # FIXME: Enable the two warnings below. self.cxx.addWarningFlagIfSupported('-Wno-conversion') self.cxx.addWarningFlagIfSupported('-Wno-unused-local-typedef') std = self.get_lit_conf('std', None) if std in ['c++98', 'c++03']: # The '#define static_assert' provided by libc++ in C++03 mode # causes an unused local typedef whenever it is used. self.cxx.addWarningFlagIfSupported('-Wno-unused-local-typedef') def configure_sanitizer(self): san = self.get_lit_conf('use_sanitizer', '').strip() if san: self.target_info.add_sanitizer_features(san, self.config.available_features) # Search for llvm-symbolizer along the compiler path first # and then along the PATH env variable. symbolizer_search_paths = os.environ.get('PATH', '') cxx_path = libcxx.util.which(self.cxx.path) if cxx_path is not None: symbolizer_search_paths = ( os.path.dirname(cxx_path) + os.pathsep + symbolizer_search_paths) llvm_symbolizer = libcxx.util.which('llvm-symbolizer', symbolizer_search_paths) def add_ubsan(): self.cxx.flags += ['-fsanitize=undefined', '-fno-sanitize=vptr,function,float-divide-by-zero', '-fno-sanitize-recover=all'] self.exec_env['UBSAN_OPTIONS'] = 'print_stacktrace=1' self.config.available_features.add('ubsan') # Setup the sanitizer compile flags self.cxx.flags += ['-g', '-fno-omit-frame-pointer'] if san == 'Address' or san == 'Address;Undefined' or san == 'Undefined;Address': self.cxx.flags += ['-fsanitize=address'] if llvm_symbolizer is not None: self.exec_env['ASAN_SYMBOLIZER_PATH'] = llvm_symbolizer # FIXME: Turn ODR violation back on after PR28391 is resolved # https://bugs.llvm.org/show_bug.cgi?id=28391 self.exec_env['ASAN_OPTIONS'] = 'detect_odr_violation=0' self.config.available_features.add('asan') self.config.available_features.add('sanitizer-new-delete') self.cxx.compile_flags += ['-O1'] if san == 'Address;Undefined' or san == 'Undefined;Address': add_ubsan() elif san == 'Memory' or san == 'MemoryWithOrigins': self.cxx.flags += ['-fsanitize=memory'] if san == 'MemoryWithOrigins': self.cxx.compile_flags += [ '-fsanitize-memory-track-origins'] if llvm_symbolizer is not None: self.exec_env['MSAN_SYMBOLIZER_PATH'] = llvm_symbolizer self.config.available_features.add('msan') self.config.available_features.add('sanitizer-new-delete') self.cxx.compile_flags += ['-O1'] elif san == 'Undefined': add_ubsan() self.cxx.compile_flags += ['-O2'] elif san == 'Thread': self.cxx.flags += ['-fsanitize=thread'] self.config.available_features.add('tsan') self.config.available_features.add('sanitizer-new-delete') else: self.lit_config.fatal('unsupported value for ' 'use_sanitizer: {0}'.format(san)) san_lib = self.get_lit_conf('sanitizer_library') if san_lib: self.cxx.link_flags += [ san_lib, '-Wl,-rpath,%s' % os.path.dirname(san_lib)] def configure_coverage(self): self.generate_coverage = self.get_lit_bool('generate_coverage', False) if self.generate_coverage: self.cxx.flags += ['-g', '--coverage'] self.cxx.compile_flags += ['-O0'] def configure_modules(self): modules_flags = ['-fmodules'] if platform.system() != 'Darwin': modules_flags += ['-Xclang', '-fmodules-local-submodule-visibility'] supports_modules = self.cxx.hasCompileFlag(modules_flags) enable_modules = self.get_lit_bool('enable_modules', default=False, env_var='LIBCXX_ENABLE_MODULES') if enable_modules and not supports_modules: self.lit_config.fatal( '-fmodules is enabled but not supported by the compiler') if not supports_modules: return self.config.available_features.add('modules-support') module_cache = os.path.join(self.config.test_exec_root, 'modules.cache') module_cache = os.path.realpath(module_cache) if os.path.isdir(module_cache): shutil.rmtree(module_cache) os.makedirs(module_cache) self.cxx.modules_flags = modules_flags + \ ['-fmodules-cache-path=' + module_cache] if enable_modules: self.config.available_features.add('-fmodules') self.cxx.useModules() def configure_substitutions(self): sub = self.config.substitutions cxx_path = pipes.quote(self.cxx.path) # Configure compiler substitutions sub.append(('%cxx', cxx_path)) # Configure flags substitutions flags_str = ' '.join([pipes.quote(f) for f in self.cxx.flags]) compile_flags_str = ' '.join([pipes.quote(f) for f in self.cxx.compile_flags]) link_flags_str = ' '.join([pipes.quote(f) for f in self.cxx.link_flags]) all_flags = '%s %s %s' % (flags_str, compile_flags_str, link_flags_str) sub.append(('%flags', flags_str)) sub.append(('%compile_flags', compile_flags_str)) sub.append(('%link_flags', link_flags_str)) sub.append(('%all_flags', all_flags)) if self.cxx.isVerifySupported(): verify_str = ' ' + ' '.join(self.cxx.verify_flags) + ' ' sub.append(('%verify', verify_str)) # Add compile and link shortcuts compile_str = (cxx_path + ' -o %t.o %s -c ' + flags_str + ' ' + compile_flags_str) link_str = (cxx_path + ' -o %t.exe %t.o ' + flags_str + ' ' + link_flags_str) assert type(link_str) is str build_str = cxx_path + ' -o %t.exe %s ' + all_flags if self.cxx.use_modules: sub.append(('%compile_module', compile_str)) sub.append(('%build_module', build_str)) elif self.cxx.modules_flags is not None: modules_str = ' '.join(self.cxx.modules_flags) + ' ' sub.append(('%compile_module', compile_str + ' ' + modules_str)) sub.append(('%build_module', build_str + ' ' + modules_str)) sub.append(('%compile', compile_str)) sub.append(('%link', link_str)) sub.append(('%build', build_str)) # Configure exec prefix substitutions. exec_env_str = '' if not self.is_windows and len(self.exec_env) != 0: exec_env_str = 'env ' for k, v in self.exec_env.items(): exec_env_str += ' %s=%s' % (k, v) # Configure run env substitution. exec_str = exec_env_str if self.lit_config.useValgrind: exec_str = ' '.join(self.lit_config.valgrindArgs) + exec_env_str sub.append(('%exec', exec_str)) # Configure run shortcut sub.append(('%run', exec_str + ' %t.exe')) # Configure not program substitutions not_py = os.path.join(self.libcxx_src_root, 'utils', 'not.py') not_str = '%s %s ' % (pipes.quote(sys.executable), pipes.quote(not_py)) sub.append(('not ', not_str)) def configure_triple(self): # Get or infer the target triple. self.config.target_triple = self.get_lit_conf('target_triple') self.use_target = self.get_lit_bool('use_target', False) if self.use_target and self.config.target_triple: self.lit_config.warning('use_target is true but no triple is specified') # If no target triple was given, try to infer it from the compiler # under test. if not self.config.target_triple: target_triple = self.cxx.getTriple() # Drop sub-major version components from the triple, because the # current XFAIL handling expects exact matches for feature checks. # Example: x86_64-apple-darwin14.0.0 -> x86_64-apple-darwin14 # The 5th group handles triples greater than 3 parts # (ex x86_64-pc-linux-gnu). target_triple = re.sub(r'([^-]+)-([^-]+)-([^.]+)([^-]*)(.*)', r'\1-\2-\3\5', target_triple) # linux-gnu is needed in the triple to properly identify linuxes # that use GLIBC. Handle redhat and opensuse triples as special # cases and append the missing `-gnu` portion. if (target_triple.endswith('redhat-linux') or target_triple.endswith('suse-linux')): target_triple += '-gnu' self.config.target_triple = target_triple self.lit_config.note( "inferred target_triple as: %r" % self.config.target_triple) def configure_env(self): self.target_info.configure_env(self.exec_env) def add_path(self, dest_env, new_path): if 'PATH' not in dest_env: dest_env['PATH'] = new_path else: split_char = ';' if self.is_windows else ':' dest_env['PATH'] = '%s%s%s' % (new_path, split_char, dest_env['PATH'])