# Copyright 2016-2021 The Meson development team # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import stat import subprocess import re import tempfile import textwrap import os import shutil import hashlib from unittest import mock, skipUnless, SkipTest from glob import glob from pathlib import Path import typing as T import mesonbuild.mlog import mesonbuild.depfile import mesonbuild.dependencies.base import mesonbuild.dependencies.factory import mesonbuild.envconfig import mesonbuild.environment import mesonbuild.coredata import mesonbuild.modules.gnome from mesonbuild.mesonlib import ( MachineChoice, is_windows, is_osx, is_cygwin, is_openbsd, is_haiku, is_sunos, windows_proof_rmtree, version_compare, is_linux, OptionKey, EnvironmentException ) from mesonbuild.compilers import ( detect_c_compiler, detect_cpp_compiler, compiler_from_language, AppleClangCCompiler, AppleClangCPPCompiler, AppleClangObjCCompiler, AppleClangObjCPPCompiler ) from mesonbuild.dependencies import PkgConfigDependency import mesonbuild.modules.pkgconfig PKG_CONFIG = os.environ.get('PKG_CONFIG', 'pkg-config') from run_tests import ( get_fake_env ) from .baseplatformtests import BasePlatformTests from .helpers import * def _prepend_pkg_config_path(path: str) -> str: """Prepend a string value to pkg_config_path :param path: The path to prepend :return: The path, followed by any PKG_CONFIG_PATH already in the environment """ pkgconf = os.environ.get('PKG_CONFIG_PATH') if pkgconf: return f'{path}{os.path.pathsep}{pkgconf}' return path def _clang_at_least(compiler: 'Compiler', minver: str, apple_minver: T.Optional[str]) -> bool: """ check that Clang compiler is at least a specified version, whether AppleClang or regular Clang Parameters ---------- compiler: Meson compiler object minver: str Clang minimum version apple_minver: str AppleCLang minimum version Returns ------- at_least: bool Clang is at least the specified version """ if isinstance(compiler, (AppleClangCCompiler, AppleClangCPPCompiler)): if apple_minver is None: return False return version_compare(compiler.version, apple_minver) return version_compare(compiler.version, minver) @skipUnless(not is_windows(), "requires something Unix-like") class LinuxlikeTests(BasePlatformTests): ''' Tests that should run on Linux, macOS, and *BSD ''' def test_basic_soname(self): ''' Test that the soname is set correctly for shared libraries. This can't be an ordinary test case because we need to run `readelf` and actually check the soname. https://github.com/mesonbuild/meson/issues/785 ''' testdir = os.path.join(self.common_test_dir, '4 shared') self.init(testdir) self.build() lib1 = os.path.join(self.builddir, 'libmylib.so') soname = get_soname(lib1) self.assertEqual(soname, 'libmylib.so') def test_custom_soname(self): ''' Test that the soname is set correctly for shared libraries when a custom prefix and/or suffix is used. This can't be an ordinary test case because we need to run `readelf` and actually check the soname. https://github.com/mesonbuild/meson/issues/785 ''' testdir = os.path.join(self.common_test_dir, '24 library versions') self.init(testdir) self.build() lib1 = os.path.join(self.builddir, 'prefixsomelib.suffix') soname = get_soname(lib1) self.assertEqual(soname, 'prefixsomelib.suffix') def test_pic(self): ''' Test that -fPIC is correctly added to static libraries when b_staticpic is true and not when it is false. This can't be an ordinary test case because we need to inspect the compiler database. ''' if is_windows() or is_cygwin() or is_osx(): raise SkipTest('PIC not relevant') testdir = os.path.join(self.common_test_dir, '3 static') self.init(testdir) compdb = self.get_compdb() self.assertIn('-fPIC', compdb[0]['command']) self.setconf('-Db_staticpic=false') # Regenerate build self.build() compdb = self.get_compdb() self.assertNotIn('-fPIC', compdb[0]['command']) @mock.patch.dict(os.environ) def test_pkgconfig_gen(self): ''' Test that generated pkg-config files can be found and have the correct version and link args. This can't be an ordinary test case because we need to run pkg-config outside of a Meson build file. https://github.com/mesonbuild/meson/issues/889 ''' testdir = os.path.join(self.common_test_dir, '44 pkgconfig-gen') self.init(testdir) env = get_fake_env(testdir, self.builddir, self.prefix) kwargs = {'required': True, 'silent': True} os.environ['PKG_CONFIG_LIBDIR'] = self.privatedir foo_dep = PkgConfigDependency('libfoo', env, kwargs) self.assertTrue(foo_dep.found()) self.assertEqual(foo_dep.get_version(), '1.0') self.assertIn('-lfoo', foo_dep.get_link_args()) self.assertEqual(foo_dep.get_pkgconfig_variable('foo', [], None), 'bar') self.assertPathEqual(foo_dep.get_pkgconfig_variable('datadir', [], None), '/usr/data') libhello_nolib = PkgConfigDependency('libhello_nolib', env, kwargs) self.assertTrue(libhello_nolib.found()) self.assertEqual(libhello_nolib.get_link_args(), []) self.assertEqual(libhello_nolib.get_compile_args(), []) self.assertEqual(libhello_nolib.get_pkgconfig_variable('foo', [], None), 'bar') self.assertEqual(libhello_nolib.get_pkgconfig_variable('prefix', [], None), self.prefix) if version_compare(libhello_nolib.check_pkgconfig(libhello_nolib.pkgbin),">=0.29.1"): self.assertEqual(libhello_nolib.get_pkgconfig_variable('escaped_var', [], None), r'hello\ world') self.assertEqual(libhello_nolib.get_pkgconfig_variable('unescaped_var', [], None), 'hello world') cc = detect_c_compiler(env, MachineChoice.HOST) if cc.get_id() in {'gcc', 'clang'}: for name in {'ct', 'ct0'}: ct_dep = PkgConfigDependency(name, env, kwargs) self.assertTrue(ct_dep.found()) self.assertIn('-lct', ct_dep.get_link_args()) def test_pkgconfig_gen_deps(self): ''' Test that generated pkg-config files correctly handle dependencies ''' testdir = os.path.join(self.common_test_dir, '44 pkgconfig-gen') self.init(testdir) privatedir1 = self.privatedir self.new_builddir() testdir = os.path.join(self.common_test_dir, '44 pkgconfig-gen', 'dependencies') self.init(testdir, override_envvars={'PKG_CONFIG_LIBDIR': privatedir1}) privatedir2 = self.privatedir env = { 'PKG_CONFIG_LIBDIR': os.pathsep.join([privatedir1, privatedir2]), 'PKG_CONFIG_SYSTEM_LIBRARY_PATH': '/usr/lib', } self._run([PKG_CONFIG, 'dependency-test', '--validate'], override_envvars=env) # pkg-config strips some duplicated flags so we have to parse the # generated file ourself. expected = { 'Requires': 'libexposed', 'Requires.private': 'libfoo >= 1.0', 'Libs': '-L${libdir} -llibmain -pthread -lcustom', 'Libs.private': '-lcustom2 -L${libdir} -llibinternal', 'Cflags': '-I${includedir} -pthread -DCUSTOM', } if is_osx() or is_haiku(): expected['Cflags'] = expected['Cflags'].replace('-pthread ', '') with open(os.path.join(privatedir2, 'dependency-test.pc'), encoding='utf-8') as f: matched_lines = 0 for line in f: parts = line.split(':', 1) if parts[0] in expected: key = parts[0] val = parts[1].strip() expected_val = expected[key] self.assertEqual(expected_val, val) matched_lines += 1 self.assertEqual(len(expected), matched_lines) cmd = [PKG_CONFIG, 'requires-test'] out = self._run(cmd + ['--print-requires'], override_envvars=env).strip().split('\n') if not is_openbsd(): self.assertEqual(sorted(out), sorted(['libexposed', 'libfoo >= 1.0', 'libhello'])) else: self.assertEqual(sorted(out), sorted(['libexposed', 'libfoo>=1.0', 'libhello'])) cmd = [PKG_CONFIG, 'requires-private-test'] out = self._run(cmd + ['--print-requires-private'], override_envvars=env).strip().split('\n') if not is_openbsd(): self.assertEqual(sorted(out), sorted(['libexposed', 'libfoo >= 1.0', 'libhello'])) else: self.assertEqual(sorted(out), sorted(['libexposed', 'libfoo>=1.0', 'libhello'])) cmd = [PKG_CONFIG, 'pub-lib-order'] out = self._run(cmd + ['--libs'], override_envvars=env).strip().split() self.assertEqual(out, ['-llibmain2', '-llibinternal']) # See common/44 pkgconfig-gen/meson.build for description of the case this test with open(os.path.join(privatedir1, 'simple2.pc'), encoding='utf-8') as f: content = f.read() self.assertIn('Libs: -L${libdir} -lsimple2 -lsimple1', content) self.assertIn('Libs.private: -lz', content) with open(os.path.join(privatedir1, 'simple3.pc'), encoding='utf-8') as f: content = f.read() self.assertEqual(1, content.count('-lsimple3')) with open(os.path.join(privatedir1, 'simple5.pc'), encoding='utf-8') as f: content = f.read() self.assertNotIn('-lstat2', content) @mock.patch.dict(os.environ) def test_pkgconfig_uninstalled(self): testdir = os.path.join(self.common_test_dir, '44 pkgconfig-gen') self.init(testdir) self.build() os.environ['PKG_CONFIG_LIBDIR'] = os.path.join(self.builddir, 'meson-uninstalled') if is_cygwin(): os.environ['PATH'] += os.pathsep + self.builddir self.new_builddir() testdir = os.path.join(self.common_test_dir, '44 pkgconfig-gen', 'dependencies') self.init(testdir) self.build() self.run_tests() def test_pkg_unfound(self): testdir = os.path.join(self.unit_test_dir, '23 unfound pkgconfig') self.init(testdir) with open(os.path.join(self.privatedir, 'somename.pc'), encoding='utf-8') as f: pcfile = f.read() self.assertNotIn('blub_blob_blib', pcfile) def test_symlink_builddir(self) -> None: ''' Test using a symlink as either the builddir for "setup" or the argument for "-C". ''' testdir = os.path.join(self.common_test_dir, '1 trivial') symdir = f'{self.builddir}-symlink' os.symlink(self.builddir, symdir) self.addCleanup(os.unlink, symdir) self.change_builddir(symdir) self.init(testdir) self.build() self._run(self.mtest_command) def test_vala_c_warnings(self): ''' Test that no warnings are emitted for C code generated by Vala. This can't be an ordinary test case because we need to inspect the compiler database. https://github.com/mesonbuild/meson/issues/864 ''' if not shutil.which('valac'): raise SkipTest('valac not installed.') testdir = os.path.join(self.vala_test_dir, '5 target glib') self.init(testdir) compdb = self.get_compdb() vala_command = None c_command = None for each in compdb: if each['file'].endswith('GLib.Thread.c'): vala_command = each['command'] elif each['file'].endswith('GLib.Thread.vala'): continue elif each['file'].endswith('retcode.c'): c_command = each['command'] else: m = 'Unknown file {!r} in vala_c_warnings test'.format(each['file']) raise AssertionError(m) self.assertIsNotNone(vala_command) self.assertIsNotNone(c_command) # -w suppresses all warnings, should be there in Vala but not in C self.assertIn(" -w ", vala_command) self.assertNotIn(" -w ", c_command) # -Wall enables all warnings, should be there in C but not in Vala self.assertNotIn(" -Wall ", vala_command) self.assertIn(" -Wall ", c_command) # -Werror converts warnings to errors, should always be there since it's # injected by an unrelated piece of code and the project has werror=true self.assertIn(" -Werror ", vala_command) self.assertIn(" -Werror ", c_command) @skipIfNoPkgconfig def test_qtdependency_pkgconfig_detection(self): ''' Test that qt4 and qt5 detection with pkgconfig works. ''' # Verify Qt4 or Qt5 can be found with pkg-config qt4 = subprocess.call([PKG_CONFIG, '--exists', 'QtCore']) qt5 = subprocess.call([PKG_CONFIG, '--exists', 'Qt5Core']) testdir = os.path.join(self.framework_test_dir, '4 qt') self.init(testdir, extra_args=['-Dmethod=pkg-config']) # Confirm that the dependency was found with pkg-config mesonlog = self.get_meson_log() if qt4 == 0: self.assertRegex('\n'.join(mesonlog), r'Run-time dependency qt4 \(modules: Core\) found: YES 4.* \(pkg-config\)') if qt5 == 0: self.assertRegex('\n'.join(mesonlog), r'Run-time dependency qt5 \(modules: Core\) found: YES 5.* \(pkg-config\)') @skip_if_not_base_option('b_sanitize') def test_generate_gir_with_address_sanitizer(self): if is_cygwin(): raise SkipTest('asan not available on Cygwin') if is_openbsd(): raise SkipTest('-fsanitize=address is not supported on OpenBSD') testdir = os.path.join(self.framework_test_dir, '7 gnome') self.init(testdir, extra_args=['-Db_sanitize=address', '-Db_lundef=false']) self.build() def test_qt5dependency_qmake_detection(self): ''' Test that qt5 detection with qmake works. This can't be an ordinary test case because it involves setting the environment. ''' # Verify that qmake is for Qt5 if not shutil.which('qmake-qt5'): if not shutil.which('qmake'): raise SkipTest('QMake not found') output = subprocess.getoutput('qmake --version') if 'Qt version 5' not in output: raise SkipTest('Qmake found, but it is not for Qt 5.') # Disable pkg-config codepath and force searching with qmake/qmake-qt5 testdir = os.path.join(self.framework_test_dir, '4 qt') self.init(testdir, extra_args=['-Dmethod=qmake']) # Confirm that the dependency was found with qmake mesonlog = self.get_meson_log() self.assertRegex('\n'.join(mesonlog), r'Run-time dependency qt5 \(modules: Core\) found: YES .* \(qmake\)\n') def test_qt6dependency_qmake_detection(self): ''' Test that qt6 detection with qmake works. This can't be an ordinary test case because it involves setting the environment. ''' # Verify that qmake is for Qt6 if not shutil.which('qmake6'): if not shutil.which('qmake'): raise SkipTest('QMake not found') output = subprocess.getoutput('qmake --version') if 'Qt version 6' not in output: raise SkipTest('Qmake found, but it is not for Qt 6.') # Disable pkg-config codepath and force searching with qmake/qmake-qt6 testdir = os.path.join(self.framework_test_dir, '4 qt') self.init(testdir, extra_args=['-Dmethod=qmake']) # Confirm that the dependency was found with qmake mesonlog = self.get_meson_log() self.assertRegex('\n'.join(mesonlog), r'Run-time dependency qt6 \(modules: Core\) found: YES .* \(qmake\)\n') def glob_sofiles_without_privdir(self, g): files = glob(g) return [f for f in files if not f.endswith('.p')] def _test_soname_impl(self, libpath, install): if is_cygwin() or is_osx(): raise SkipTest('Test only applicable to ELF and linuxlike sonames') testdir = os.path.join(self.unit_test_dir, '1 soname') self.init(testdir) self.build() if install: self.install() # File without aliases set. nover = os.path.join(libpath, 'libnover.so') self.assertPathExists(nover) self.assertFalse(os.path.islink(nover)) self.assertEqual(get_soname(nover), 'libnover.so') self.assertEqual(len(self.glob_sofiles_without_privdir(nover[:-3] + '*')), 1) # File with version set verset = os.path.join(libpath, 'libverset.so') self.assertPathExists(verset + '.4.5.6') self.assertEqual(os.readlink(verset), 'libverset.so.4') self.assertEqual(get_soname(verset), 'libverset.so.4') self.assertEqual(len(self.glob_sofiles_without_privdir(verset[:-3] + '*')), 3) # File with soversion set soverset = os.path.join(libpath, 'libsoverset.so') self.assertPathExists(soverset + '.1.2.3') self.assertEqual(os.readlink(soverset), 'libsoverset.so.1.2.3') self.assertEqual(get_soname(soverset), 'libsoverset.so.1.2.3') self.assertEqual(len(self.glob_sofiles_without_privdir(soverset[:-3] + '*')), 2) # File with version and soversion set to same values settosame = os.path.join(libpath, 'libsettosame.so') self.assertPathExists(settosame + '.7.8.9') self.assertEqual(os.readlink(settosame), 'libsettosame.so.7.8.9') self.assertEqual(get_soname(settosame), 'libsettosame.so.7.8.9') self.assertEqual(len(self.glob_sofiles_without_privdir(settosame[:-3] + '*')), 2) # File with version and soversion set to different values bothset = os.path.join(libpath, 'libbothset.so') self.assertPathExists(bothset + '.1.2.3') self.assertEqual(os.readlink(bothset), 'libbothset.so.1.2.3') self.assertEqual(os.readlink(bothset + '.1.2.3'), 'libbothset.so.4.5.6') self.assertEqual(get_soname(bothset), 'libbothset.so.1.2.3') self.assertEqual(len(self.glob_sofiles_without_privdir(bothset[:-3] + '*')), 3) # A shared_module that is not linked to anything module = os.path.join(libpath, 'libsome_module.so') self.assertPathExists(module) self.assertFalse(os.path.islink(module)) self.assertEqual(get_soname(module), None) # A shared_module that is not linked to an executable with link_with: module = os.path.join(libpath, 'liblinked_module1.so') self.assertPathExists(module) self.assertFalse(os.path.islink(module)) self.assertEqual(get_soname(module), 'liblinked_module1.so') # A shared_module that is not linked to an executable with dependencies: module = os.path.join(libpath, 'liblinked_module2.so') self.assertPathExists(module) self.assertFalse(os.path.islink(module)) self.assertEqual(get_soname(module), 'liblinked_module2.so') def test_soname(self): self._test_soname_impl(self.builddir, False) def test_installed_soname(self): libdir = self.installdir + os.path.join(self.prefix, self.libdir) self._test_soname_impl(libdir, True) def test_compiler_check_flags_order(self): ''' Test that compiler check flags override all other flags. This can't be an ordinary test case because it needs the environment to be set. ''' testdir = os.path.join(self.common_test_dir, '36 has function') env = get_fake_env(testdir, self.builddir, self.prefix) cpp = detect_cpp_compiler(env, MachineChoice.HOST) Oflag = '-O3' OflagCPP = Oflag if cpp.get_id() in ('clang', 'gcc'): # prevent developers from adding "int main(int argc, char **argv)" # to small Meson checks unless these parameters are actually used OflagCPP += ' -Werror=unused-parameter' env = {'CFLAGS': Oflag, 'CXXFLAGS': OflagCPP} self.init(testdir, override_envvars=env) cmds = self.get_meson_log_compiler_checks() for cmd in cmds: if cmd[0] == 'ccache': cmd = cmd[1:] # Verify that -I flags from the `args` kwarg are first # This is set in the '36 has function' test case self.assertEqual(cmd[1], '-I/tmp') # Verify that -O3 set via the environment is overridden by -O0 Oargs = [arg for arg in cmd if arg.startswith('-O')] self.assertEqual(Oargs, [Oflag, '-O0']) def _test_stds_impl(self, testdir: str, compiler: 'Compiler') -> None: has_cpp17 = (compiler.get_id() not in {'clang', 'gcc'} or compiler.get_id() == 'clang' and _clang_at_least(compiler, '>=5.0.0', '>=9.1') or compiler.get_id() == 'gcc' and version_compare(compiler.version, '>=5.0.0')) has_cpp2a_c17 = (compiler.get_id() not in {'clang', 'gcc'} or compiler.get_id() == 'clang' and _clang_at_least(compiler, '>=6.0.0', '>=10.0') or compiler.get_id() == 'gcc' and version_compare(compiler.version, '>=8.0.0')) has_cpp20 = (compiler.get_id() not in {'clang', 'gcc'} or compiler.get_id() == 'clang' and _clang_at_least(compiler, '>=10.0.0', None) or compiler.get_id() == 'gcc' and version_compare(compiler.version, '>=10.0.0')) has_c18 = (compiler.get_id() not in {'clang', 'gcc'} or compiler.get_id() == 'clang' and _clang_at_least(compiler, '>=8.0.0', '>=11.0') or compiler.get_id() == 'gcc' and version_compare(compiler.version, '>=8.0.0')) # Check that all the listed -std=xxx options for this compiler work just fine when used # https://en.wikipedia.org/wiki/Xcode#Latest_versions # https://www.gnu.org/software/gcc/projects/cxx-status.html key = OptionKey('std', lang=compiler.language) for v in compiler.get_options()[key].choices: # we do it like this to handle gnu++17,c++17 and gnu17,c17 cleanly # thus, C++ first if '++17' in v and not has_cpp17: continue elif '++2a' in v and not has_cpp2a_c17: # https://en.cppreference.com/w/cpp/compiler_support continue elif '++20' in v and not has_cpp20: continue # now C elif '17' in v and not has_cpp2a_c17: continue elif '18' in v and not has_c18: continue self.init(testdir, extra_args=[f'-D{key!s}={v}']) cmd = self.get_compdb()[0]['command'] # c++03 and gnu++03 are not understood by ICC, don't try to look for them skiplist = frozenset([ ('intel', 'c++03'), ('intel', 'gnu++03')]) if v != 'none' and not (compiler.get_id(), v) in skiplist: cmd_std = f" -std={v} " self.assertIn(cmd_std, cmd) try: self.build() except Exception: print(f'{key!s} was {v!r}') raise self.wipe() # Check that an invalid std option in CFLAGS/CPPFLAGS fails # Needed because by default ICC ignores invalid options cmd_std = '-std=FAIL' if compiler.language == 'c': env_flag_name = 'CFLAGS' elif compiler.language == 'cpp': env_flag_name = 'CXXFLAGS' else: raise NotImplementedError(f'Language {compiler.language} not defined.') env = {} env[env_flag_name] = cmd_std with self.assertRaises((subprocess.CalledProcessError, EnvironmentException), msg='C compiler should have failed with -std=FAIL'): self.init(testdir, override_envvars = env) # ICC won't fail in the above because additional flags are needed to # make unknown -std=... options errors. self.build() def test_compiler_c_stds(self): ''' Test that C stds specified for this compiler can all be used. Can't be an ordinary test because it requires passing options to meson. ''' testdir = os.path.join(self.common_test_dir, '1 trivial') env = get_fake_env(testdir, self.builddir, self.prefix) cc = detect_c_compiler(env, MachineChoice.HOST) self._test_stds_impl(testdir, cc) def test_compiler_cpp_stds(self): ''' Test that C++ stds specified for this compiler can all be used. Can't be an ordinary test because it requires passing options to meson. ''' testdir = os.path.join(self.common_test_dir, '2 cpp') env = get_fake_env(testdir, self.builddir, self.prefix) cpp = detect_cpp_compiler(env, MachineChoice.HOST) self._test_stds_impl(testdir, cpp) def test_unity_subproj(self): testdir = os.path.join(self.common_test_dir, '42 subproject') self.init(testdir, extra_args='--unity=subprojects') pdirs = glob(os.path.join(self.builddir, 'subprojects/sublib/simpletest*.p')) self.assertEqual(len(pdirs), 1) self.assertPathExists(os.path.join(pdirs[0], 'simpletest-unity0.c')) sdirs = glob(os.path.join(self.builddir, 'subprojects/sublib/*sublib*.p')) self.assertEqual(len(sdirs), 1) self.assertPathExists(os.path.join(sdirs[0], 'sublib-unity0.c')) self.assertPathDoesNotExist(os.path.join(self.builddir, 'user@exe/user-unity.c')) self.build() def test_installed_modes(self): ''' Test that files installed by these tests have the correct permissions. Can't be an ordinary test because our installed_files.txt is very basic. ''' if is_cygwin(): self.new_builddir_in_tempdir() # Test file modes testdir = os.path.join(self.common_test_dir, '12 data') self.init(testdir) self.install() f = os.path.join(self.installdir, 'etc', 'etcfile.dat') found_mode = stat.filemode(os.stat(f).st_mode) want_mode = 'rw------T' self.assertEqual(want_mode, found_mode[1:]) f = os.path.join(self.installdir, 'usr', 'bin', 'runscript.sh') statf = os.stat(f) found_mode = stat.filemode(statf.st_mode) want_mode = 'rwxr-sr-x' self.assertEqual(want_mode, found_mode[1:]) if os.getuid() == 0: # The chown failed nonfatally if we're not root self.assertEqual(0, statf.st_uid) self.assertEqual(0, statf.st_gid) f = os.path.join(self.installdir, 'usr', 'share', 'progname', 'fileobject_datafile.dat') orig = os.path.join(testdir, 'fileobject_datafile.dat') statf = os.stat(f) statorig = os.stat(orig) found_mode = stat.filemode(statf.st_mode) orig_mode = stat.filemode(statorig.st_mode) self.assertEqual(orig_mode[1:], found_mode[1:]) self.assertEqual(os.getuid(), statf.st_uid) if os.getuid() == 0: # The chown failed nonfatally if we're not root self.assertEqual(0, statf.st_gid) self.wipe() # Test directory modes testdir = os.path.join(self.common_test_dir, '59 install subdir') self.init(testdir) self.install() f = os.path.join(self.installdir, 'usr', 'share', 'sub1', 'second.dat') statf = os.stat(f) found_mode = stat.filemode(statf.st_mode) want_mode = 'rwxr-x--t' self.assertEqual(want_mode, found_mode[1:]) if os.getuid() == 0: # The chown failed nonfatally if we're not root self.assertEqual(0, statf.st_uid) def test_installed_modes_extended(self): ''' Test that files are installed with correct permissions using install_mode. ''' if is_cygwin(): self.new_builddir_in_tempdir() testdir = os.path.join(self.common_test_dir, '190 install_mode') self.init(testdir) self.build() self.install() for fsobj, want_mode in [ ('bin', 'drwxr-x---'), ('bin/runscript.sh', '-rwxr-sr-x'), ('bin/trivialprog', '-rwxr-sr-x'), ('include', 'drwxr-x---'), ('include/config.h', '-rw-rwSr--'), ('include/rootdir.h', '-r--r--r-T'), ('lib', 'drwxr-x---'), ('lib/libstat.a', '-rw---Sr--'), ('share', 'drwxr-x---'), ('share/man', 'drwxr-x---'), ('share/man/man1', 'drwxr-x---'), ('share/man/man1/foo.1', '-r--r--r-T'), ('share/sub1', 'drwxr-x---'), ('share/sub1/second.dat', '-rwxr-x--t'), ('subdir', 'drwxr-x---'), ('subdir/data.dat', '-rw-rwSr--'), ]: f = os.path.join(self.installdir, 'usr', *fsobj.split('/')) found_mode = stat.filemode(os.stat(f).st_mode) self.assertEqual(want_mode, found_mode, msg=('Expected file %s to have mode %s but found %s instead.' % (fsobj, want_mode, found_mode))) # Ensure that introspect --installed works on all types of files # FIXME: also verify the files list self.introspect('--installed') def test_install_umask(self): ''' Test that files are installed with correct permissions using default install umask of 022, regardless of the umask at time the worktree was checked out or the build was executed. ''' if is_cygwin(): self.new_builddir_in_tempdir() # Copy source tree to a temporary directory and change permissions # there to simulate a checkout with umask 002. orig_testdir = os.path.join(self.unit_test_dir, '26 install umask') # Create a new testdir under tmpdir. tmpdir = os.path.realpath(tempfile.mkdtemp()) self.addCleanup(windows_proof_rmtree, tmpdir) testdir = os.path.join(tmpdir, '26 install umask') # Copy the tree using shutil.copyfile, which will use the current umask # instead of preserving permissions of the old tree. save_umask = os.umask(0o002) self.addCleanup(os.umask, save_umask) shutil.copytree(orig_testdir, testdir, copy_function=shutil.copyfile) # Preserve the executable status of subdir/sayhello though. os.chmod(os.path.join(testdir, 'subdir', 'sayhello'), 0o775) self.init(testdir) # Run the build under a 027 umask now. os.umask(0o027) self.build() # And keep umask 027 for the install step too. self.install() for executable in [ 'bin/prog', 'share/subdir/sayhello', ]: f = os.path.join(self.installdir, 'usr', *executable.split('/')) found_mode = stat.filemode(os.stat(f).st_mode) want_mode = '-rwxr-xr-x' self.assertEqual(want_mode, found_mode, msg=('Expected file %s to have mode %s but found %s instead.' % (executable, want_mode, found_mode))) for directory in [ 'usr', 'usr/bin', 'usr/include', 'usr/share', 'usr/share/man', 'usr/share/man/man1', 'usr/share/subdir', ]: f = os.path.join(self.installdir, *directory.split('/')) found_mode = stat.filemode(os.stat(f).st_mode) want_mode = 'drwxr-xr-x' self.assertEqual(want_mode, found_mode, msg=('Expected directory %s to have mode %s but found %s instead.' % (directory, want_mode, found_mode))) for datafile in [ 'include/sample.h', 'share/datafile.cat', 'share/file.dat', 'share/man/man1/prog.1', 'share/subdir/datafile.dog', ]: f = os.path.join(self.installdir, 'usr', *datafile.split('/')) found_mode = stat.filemode(os.stat(f).st_mode) want_mode = '-rw-r--r--' self.assertEqual(want_mode, found_mode, msg=('Expected file %s to have mode %s but found %s instead.' % (datafile, want_mode, found_mode))) def test_cpp_std_override(self): testdir = os.path.join(self.unit_test_dir, '6 std override') self.init(testdir) compdb = self.get_compdb() # Don't try to use -std=c++03 as a check for the # presence of a compiler flag, as ICC does not # support it. for i in compdb: if 'prog98' in i['file']: c98_comp = i['command'] if 'prog11' in i['file']: c11_comp = i['command'] if 'progp' in i['file']: plain_comp = i['command'] self.assertNotEqual(len(plain_comp), 0) self.assertIn('-std=c++98', c98_comp) self.assertNotIn('-std=c++11', c98_comp) self.assertIn('-std=c++11', c11_comp) self.assertNotIn('-std=c++98', c11_comp) self.assertNotIn('-std=c++98', plain_comp) self.assertNotIn('-std=c++11', plain_comp) # Now werror self.assertIn('-Werror', plain_comp) self.assertNotIn('-Werror', c98_comp) def test_run_installed(self): if is_cygwin() or is_osx(): raise SkipTest('LD_LIBRARY_PATH and RPATH not applicable') testdir = os.path.join(self.unit_test_dir, '7 run installed') self.init(testdir) self.build() self.install() installed_exe = os.path.join(self.installdir, 'usr/bin/prog') installed_libdir = os.path.join(self.installdir, 'usr/foo') installed_lib = os.path.join(installed_libdir, 'libfoo.so') self.assertTrue(os.path.isfile(installed_exe)) self.assertTrue(os.path.isdir(installed_libdir)) self.assertTrue(os.path.isfile(installed_lib)) # Must fail when run without LD_LIBRARY_PATH to ensure that # rpath has been properly stripped rather than pointing to the builddir. self.assertNotEqual(subprocess.call(installed_exe, stderr=subprocess.DEVNULL), 0) # When LD_LIBRARY_PATH is set it should start working. # For some reason setting LD_LIBRARY_PATH in os.environ fails # when all tests are run (but works when only this test is run), # but doing this explicitly works. env = os.environ.copy() env['LD_LIBRARY_PATH'] = ':'.join([installed_libdir, env.get('LD_LIBRARY_PATH', '')]) self.assertEqual(subprocess.call(installed_exe, env=env), 0) # Ensure that introspect --installed works installed = self.introspect('--installed') for v in installed.values(): self.assertTrue('prog' in v or 'foo' in v) @skipIfNoPkgconfig def test_order_of_l_arguments(self): testdir = os.path.join(self.unit_test_dir, '8 -L -l order') self.init(testdir, override_envvars={'PKG_CONFIG_PATH': testdir}) # NOTE: .pc file has -Lfoo -lfoo -Lbar -lbar but pkg-config reorders # the flags before returning them to -Lfoo -Lbar -lfoo -lbar # but pkgconf seems to not do that. Sigh. Support both. expected_order = [('-L/me/first', '-lfoo1'), ('-L/me/second', '-lfoo2'), ('-L/me/first', '-L/me/second'), ('-lfoo1', '-lfoo2'), ('-L/me/second', '-L/me/third'), ('-L/me/third', '-L/me/fourth',), ('-L/me/third', '-lfoo3'), ('-L/me/fourth', '-lfoo4'), ('-lfoo3', '-lfoo4'), ] with open(os.path.join(self.builddir, 'build.ninja'), encoding='utf-8') as ifile: for line in ifile: if expected_order[0][0] in line: for first, second in expected_order: self.assertLess(line.index(first), line.index(second)) return raise RuntimeError('Linker entries not found in the Ninja file.') def test_introspect_dependencies(self): ''' Tests that mesonintrospect --dependencies returns expected output. ''' testdir = os.path.join(self.framework_test_dir, '7 gnome') self.init(testdir) glib_found = False gobject_found = False deps = self.introspect('--dependencies') self.assertIsInstance(deps, list) for dep in deps: self.assertIsInstance(dep, dict) self.assertIn('name', dep) self.assertIn('compile_args', dep) self.assertIn('link_args', dep) if dep['name'] == 'glib-2.0': glib_found = True elif dep['name'] == 'gobject-2.0': gobject_found = True self.assertTrue(glib_found) self.assertTrue(gobject_found) if subprocess.call([PKG_CONFIG, '--exists', 'glib-2.0 >= 2.56.2']) != 0: raise SkipTest('glib >= 2.56.2 needed for the rest') targets = self.introspect('--targets') docbook_target = None for t in targets: if t['name'] == 'generated-gdbus-docbook': docbook_target = t break self.assertIsInstance(docbook_target, dict) self.assertEqual(os.path.basename(t['filename'][0]), 'generated-gdbus-doc-' + os.path.basename(t['target_sources'][0]['sources'][0])) def test_introspect_installed(self): testdir = os.path.join(self.linuxlike_test_dir, '7 library versions') self.init(testdir) install = self.introspect('--installed') install = {os.path.basename(k): v for k, v in install.items()} print(install) if is_osx(): the_truth = { 'libmodule.dylib': '/usr/lib/libmodule.dylib', 'libnoversion.dylib': '/usr/lib/libnoversion.dylib', 'libonlysoversion.5.dylib': '/usr/lib/libonlysoversion.5.dylib', 'libonlysoversion.dylib': '/usr/lib/libonlysoversion.dylib', 'libonlyversion.1.dylib': '/usr/lib/libonlyversion.1.dylib', 'libonlyversion.dylib': '/usr/lib/libonlyversion.dylib', 'libsome.0.dylib': '/usr/lib/libsome.0.dylib', 'libsome.dylib': '/usr/lib/libsome.dylib', } the_truth_2 = {'/usr/lib/libsome.dylib', '/usr/lib/libsome.0.dylib', } else: the_truth = { 'libmodule.so': '/usr/lib/libmodule.so', 'libnoversion.so': '/usr/lib/libnoversion.so', 'libonlysoversion.so': '/usr/lib/libonlysoversion.so', 'libonlysoversion.so.5': '/usr/lib/libonlysoversion.so.5', 'libonlyversion.so': '/usr/lib/libonlyversion.so', 'libonlyversion.so.1': '/usr/lib/libonlyversion.so.1', 'libonlyversion.so.1.4.5': '/usr/lib/libonlyversion.so.1.4.5', 'libsome.so': '/usr/lib/libsome.so', 'libsome.so.0': '/usr/lib/libsome.so.0', 'libsome.so.1.2.3': '/usr/lib/libsome.so.1.2.3', } the_truth_2 = {'/usr/lib/libsome.so', '/usr/lib/libsome.so.0', '/usr/lib/libsome.so.1.2.3'} self.assertDictEqual(install, the_truth) targets = self.introspect('--targets') for t in targets: if t['name'] != 'some': continue self.assertSetEqual(the_truth_2, set(t['install_filename'])) def test_build_rpath(self): if is_cygwin(): raise SkipTest('Windows PE/COFF binaries do not use RPATH') testdir = os.path.join(self.unit_test_dir, '10 build_rpath') self.init(testdir) self.build() build_rpath = get_rpath(os.path.join(self.builddir, 'prog')) self.assertEqual(build_rpath, '$ORIGIN/sub:/foo/bar') build_rpath = get_rpath(os.path.join(self.builddir, 'progcxx')) self.assertEqual(build_rpath, '$ORIGIN/sub:/foo/bar') self.install() install_rpath = get_rpath(os.path.join(self.installdir, 'usr/bin/prog')) self.assertEqual(install_rpath, '/baz') install_rpath = get_rpath(os.path.join(self.installdir, 'usr/bin/progcxx')) self.assertEqual(install_rpath, 'baz') @skipIfNoPkgconfig def test_build_rpath_pkgconfig(self): ''' Test that current build artefacts (libs) are found first on the rpath, manually specified rpath comes second and additional rpath elements (from pkg-config files) come last ''' if is_cygwin(): raise SkipTest('Windows PE/COFF binaries do not use RPATH') testdir = os.path.join(self.unit_test_dir, '89 pkgconfig build rpath order') self.init(testdir, override_envvars={'PKG_CONFIG_PATH': testdir}) self.build() build_rpath = get_rpath(os.path.join(self.builddir, 'prog')) self.assertEqual(build_rpath, '$ORIGIN/sub:/foo/bar:/foo/dummy') build_rpath = get_rpath(os.path.join(self.builddir, 'progcxx')) self.assertEqual(build_rpath, '$ORIGIN/sub:/foo/bar:/foo/dummy') self.install() install_rpath = get_rpath(os.path.join(self.installdir, 'usr/bin/prog')) self.assertEqual(install_rpath, '/baz:/foo/dummy') install_rpath = get_rpath(os.path.join(self.installdir, 'usr/bin/progcxx')) self.assertEqual(install_rpath, 'baz:/foo/dummy') def test_global_rpath(self): if is_cygwin(): raise SkipTest('Windows PE/COFF binaries do not use RPATH') if is_osx(): raise SkipTest('Global RPATHs via LDFLAGS not yet supported on MacOS (does anybody need it?)') testdir = os.path.join(self.unit_test_dir, '79 global-rpath') oldinstalldir = self.installdir # Build and install an external library without DESTDIR. # The external library generates a .pc file without an rpath. yonder_dir = os.path.join(testdir, 'yonder') yonder_prefix = os.path.join(oldinstalldir, 'yonder') yonder_libdir = os.path.join(yonder_prefix, self.libdir) self.prefix = yonder_prefix self.installdir = yonder_prefix self.init(yonder_dir) self.build() self.install(use_destdir=False) # Since rpath has multiple valid formats we need to # test that they are all properly used. rpath_formats = [ ('-Wl,-rpath=', False), ('-Wl,-rpath,', False), ('-Wl,--just-symbols=', True), ('-Wl,--just-symbols,', True), ('-Wl,-R', False), ('-Wl,-R,', False) ] for rpath_format, exception in rpath_formats: # Build an app that uses that installed library. # Supply the rpath to the installed library via LDFLAGS # (as systems like buildroot and guix are wont to do) # and verify install preserves that rpath. self.new_builddir() env = {'LDFLAGS': rpath_format + yonder_libdir, 'PKG_CONFIG_PATH': os.path.join(yonder_libdir, 'pkgconfig')} if exception: with self.assertRaises(subprocess.CalledProcessError): self.init(testdir, override_envvars=env) continue self.init(testdir, override_envvars=env) self.build() self.install(use_destdir=False) got_rpath = get_rpath(os.path.join(yonder_prefix, 'bin/rpathified')) self.assertEqual(got_rpath, yonder_libdir, rpath_format) @skip_if_not_base_option('b_sanitize') def test_pch_with_address_sanitizer(self): if is_cygwin(): raise SkipTest('asan not available on Cygwin') if is_openbsd(): raise SkipTest('-fsanitize=address is not supported on OpenBSD') testdir = os.path.join(self.common_test_dir, '13 pch') self.init(testdir, extra_args=['-Db_sanitize=address', '-Db_lundef=false']) self.build() compdb = self.get_compdb() for i in compdb: self.assertIn("-fsanitize=address", i["command"]) def test_cross_find_program(self): testdir = os.path.join(self.unit_test_dir, '11 cross prog') crossfile = tempfile.NamedTemporaryFile(mode='w') print(os.path.join(testdir, 'some_cross_tool.py')) tool_path = os.path.join(testdir, 'some_cross_tool.py') crossfile.write(textwrap.dedent(f'''\ [binaries] c = '{shutil.which('gcc' if is_sunos() else 'cc')}' ar = '{shutil.which('ar')}' strip = '{shutil.which('strip')}' sometool.py = ['{tool_path}'] someothertool.py = '{tool_path}' [properties] [host_machine] system = 'linux' cpu_family = 'arm' cpu = 'armv7' # Not sure if correct. endian = 'little' ''')) crossfile.flush() self.meson_cross_files = [crossfile.name] self.init(testdir) def test_reconfigure(self): testdir = os.path.join(self.unit_test_dir, '13 reconfigure') self.init(testdir, extra_args=['-Db_coverage=true'], default_args=False) self.build('reconfigure') def test_vala_generated_source_buildir_inside_source_tree(self): ''' Test that valac outputs generated C files in the expected location when the builddir is a subdir of the source tree. ''' if not shutil.which('valac'): raise SkipTest('valac not installed.') testdir = os.path.join(self.vala_test_dir, '8 generated sources') newdir = os.path.join(self.builddir, 'srctree') shutil.copytree(testdir, newdir) testdir = newdir # New builddir builddir = os.path.join(testdir, 'subdir/_build') os.makedirs(builddir, exist_ok=True) self.change_builddir(builddir) self.init(testdir) self.build() def test_old_gnome_module_codepaths(self): ''' A lot of code in the GNOME module is conditional on the version of the glib tools that are installed, and breakages in the old code can slip by once the CI has a newer glib version. So we force the GNOME module to pretend that it's running on an ancient glib so the fallback code is also tested. ''' testdir = os.path.join(self.framework_test_dir, '7 gnome') mesonbuild.modules.gnome.native_glib_version = '2.20' env = {'MESON_UNIT_TEST_PRETEND_GLIB_OLD': "1"} try: self.init(testdir, inprocess=True, override_envvars=env) self.build(override_envvars=env) finally: mesonbuild.modules.gnome.native_glib_version = None @skipIfNoPkgconfig def test_pkgconfig_usage(self): testdir1 = os.path.join(self.unit_test_dir, '27 pkgconfig usage/dependency') testdir2 = os.path.join(self.unit_test_dir, '27 pkgconfig usage/dependee') if subprocess.call([PKG_CONFIG, '--cflags', 'glib-2.0'], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL) != 0: raise SkipTest('Glib 2.0 dependency not available.') with tempfile.TemporaryDirectory() as tempdirname: self.init(testdir1, extra_args=['--prefix=' + tempdirname, '--libdir=lib'], default_args=False) self.install(use_destdir=False) shutil.rmtree(self.builddir) os.mkdir(self.builddir) pkg_dir = os.path.join(tempdirname, 'lib/pkgconfig') self.assertTrue(os.path.exists(os.path.join(pkg_dir, 'libpkgdep.pc'))) lib_dir = os.path.join(tempdirname, 'lib') myenv = os.environ.copy() myenv['PKG_CONFIG_PATH'] = pkg_dir # Private internal libraries must not leak out. pkg_out = subprocess.check_output([PKG_CONFIG, '--static', '--libs', 'libpkgdep'], env=myenv) self.assertNotIn(b'libpkgdep-int', pkg_out, 'Internal library leaked out.') # Dependencies must not leak to cflags when building only a shared library. pkg_out = subprocess.check_output([PKG_CONFIG, '--cflags', 'libpkgdep'], env=myenv) self.assertNotIn(b'glib', pkg_out, 'Internal dependency leaked to headers.') # Test that the result is usable. self.init(testdir2, override_envvars=myenv) self.build(override_envvars=myenv) myenv = os.environ.copy() myenv['LD_LIBRARY_PATH'] = ':'.join([lib_dir, myenv.get('LD_LIBRARY_PATH', '')]) if is_cygwin(): bin_dir = os.path.join(tempdirname, 'bin') myenv['PATH'] = bin_dir + os.pathsep + myenv['PATH'] self.assertTrue(os.path.isdir(lib_dir)) test_exe = os.path.join(self.builddir, 'pkguser') self.assertTrue(os.path.isfile(test_exe)) subprocess.check_call(test_exe, env=myenv) @skipIfNoPkgconfig def test_pkgconfig_relative_paths(self): testdir = os.path.join(self.unit_test_dir, '61 pkgconfig relative paths') pkg_dir = os.path.join(testdir, 'pkgconfig') self.assertPathExists(os.path.join(pkg_dir, 'librelativepath.pc')) env = get_fake_env(testdir, self.builddir, self.prefix) env.coredata.set_options({OptionKey('pkg_config_path'): pkg_dir}, subproject='') kwargs = {'required': True, 'silent': True} relative_path_dep = PkgConfigDependency('librelativepath', env, kwargs) self.assertTrue(relative_path_dep.found()) # Ensure link_args are properly quoted libpath = Path(self.builddir) / '../relativepath/lib' link_args = ['-L' + libpath.as_posix(), '-lrelativepath'] self.assertEqual(relative_path_dep.get_link_args(), link_args) @skipIfNoPkgconfig def test_pkgconfig_duplicate_path_entries(self): testdir = os.path.join(self.unit_test_dir, '111 pkgconfig duplicate path entries') pkg_dir = os.path.join(testdir, 'pkgconfig') env = get_fake_env(testdir, self.builddir, self.prefix) env.coredata.set_options({OptionKey('pkg_config_path'): pkg_dir}, subproject='') PkgConfigDependency.setup_env({}, env, MachineChoice.HOST, pkg_dir) pkg_config_path = env.coredata.options[OptionKey('pkg_config_path')].value self.assertEqual(len(pkg_config_path), 1) @skipIfNoPkgconfig def test_pkgconfig_internal_libraries(self): ''' ''' with tempfile.TemporaryDirectory() as tempdirname: # build library testdirbase = os.path.join(self.unit_test_dir, '32 pkgconfig use libraries') testdirlib = os.path.join(testdirbase, 'lib') self.init(testdirlib, extra_args=['--prefix=' + tempdirname, '--libdir=lib', '--default-library=static'], default_args=False) self.build() self.install(use_destdir=False) # build user of library pkg_dir = os.path.join(tempdirname, 'lib/pkgconfig') self.new_builddir() self.init(os.path.join(testdirbase, 'app'), override_envvars={'PKG_CONFIG_PATH': pkg_dir}) self.build() @skipIfNoPkgconfig def test_static_archive_stripping(self): ''' Check that Meson produces valid static archives with --strip enabled ''' with tempfile.TemporaryDirectory() as tempdirname: testdirbase = os.path.join(self.unit_test_dir, '65 static archive stripping') # build lib self.new_builddir() testdirlib = os.path.join(testdirbase, 'lib') testlibprefix = os.path.join(tempdirname, 'libprefix') self.init(testdirlib, extra_args=['--prefix=' + testlibprefix, '--libdir=lib', '--default-library=static', '--buildtype=debug', '--strip'], default_args=False) self.build() self.install(use_destdir=False) # build executable (uses lib, fails if static archive has been stripped incorrectly) pkg_dir = os.path.join(testlibprefix, 'lib/pkgconfig') self.new_builddir() self.init(os.path.join(testdirbase, 'app'), override_envvars={'PKG_CONFIG_PATH': pkg_dir}) self.build() @skipIfNoPkgconfig def test_pkgconfig_formatting(self): testdir = os.path.join(self.unit_test_dir, '38 pkgconfig format') self.init(testdir) myenv = os.environ.copy() myenv['PKG_CONFIG_PATH'] = _prepend_pkg_config_path(self.privatedir) stdo = subprocess.check_output([PKG_CONFIG, '--libs-only-l', 'libsomething'], env=myenv) deps = [b'-lgobject-2.0', b'-lgio-2.0', b'-lglib-2.0', b'-lsomething'] if is_windows() or is_cygwin() or is_osx() or is_openbsd(): # On Windows, libintl is a separate library deps.append(b'-lintl') self.assertEqual(set(deps), set(stdo.split())) @skipIfNoPkgconfig @skip_if_not_language('cs') def test_pkgconfig_csharp_library(self): testdir = os.path.join(self.unit_test_dir, '49 pkgconfig csharp library') self.init(testdir) myenv = os.environ.copy() myenv['PKG_CONFIG_PATH'] = _prepend_pkg_config_path(self.privatedir) stdo = subprocess.check_output([PKG_CONFIG, '--libs', 'libsomething'], env=myenv) self.assertEqual("-r/usr/lib/libsomething.dll", str(stdo.decode('ascii')).strip()) @skipIfNoPkgconfig def test_pkgconfig_link_order(self): ''' Test that libraries are listed before their dependencies. ''' testdir = os.path.join(self.unit_test_dir, '52 pkgconfig static link order') self.init(testdir) myenv = os.environ.copy() myenv['PKG_CONFIG_PATH'] = _prepend_pkg_config_path(self.privatedir) stdo = subprocess.check_output([PKG_CONFIG, '--libs', 'libsomething'], env=myenv) deps = stdo.split() self.assertLess(deps.index(b'-lsomething'), deps.index(b'-ldependency')) def test_deterministic_dep_order(self): ''' Test that the dependencies are always listed in a deterministic order. ''' testdir = os.path.join(self.unit_test_dir, '42 dep order') self.init(testdir) with open(os.path.join(self.builddir, 'build.ninja'), encoding='utf-8') as bfile: for line in bfile: if 'build myexe:' in line or 'build myexe.exe:' in line: self.assertIn('liblib1.a liblib2.a', line) return raise RuntimeError('Could not find the build rule') def test_deterministic_rpath_order(self): ''' Test that the rpaths are always listed in a deterministic order. ''' if is_cygwin(): raise SkipTest('rpath are not used on Cygwin') testdir = os.path.join(self.unit_test_dir, '41 rpath order') self.init(testdir) if is_osx(): rpathre = re.compile(r'-rpath,.*/subprojects/sub1.*-rpath,.*/subprojects/sub2') else: rpathre = re.compile(r'-rpath,\$\$ORIGIN/subprojects/sub1:\$\$ORIGIN/subprojects/sub2') with open(os.path.join(self.builddir, 'build.ninja'), encoding='utf-8') as bfile: for line in bfile: if '-rpath' in line: self.assertRegex(line, rpathre) return raise RuntimeError('Could not find the rpath') def test_override_with_exe_dep(self): ''' Test that we produce the correct dependencies when a program is overridden with an executable. ''' testdir = os.path.join(self.src_root, 'test cases', 'native', '9 override with exe') self.init(testdir) with open(os.path.join(self.builddir, 'build.ninja'), encoding='utf-8') as bfile: for line in bfile: if 'main1.c:' in line or 'main2.c:' in line: self.assertIn('| subprojects/sub/foobar', line) @skipIfNoPkgconfig def test_usage_external_library(self): ''' Test that uninstalled usage of an external library (from the system or PkgConfigDependency) works. On macOS, this workflow works out of the box. On Linux, BSDs, Windows, etc, you need to set extra arguments such as LD_LIBRARY_PATH, etc, so this test is skipped. The system library is found with cc.find_library() and pkg-config deps. ''' oldprefix = self.prefix # Install external library so we can find it testdir = os.path.join(self.unit_test_dir, '39 external, internal library rpath', 'external library') # install into installdir without using DESTDIR installdir = self.installdir self.prefix = installdir self.init(testdir) self.prefix = oldprefix self.build() self.install(use_destdir=False) ## New builddir for the consumer self.new_builddir() env = {'LIBRARY_PATH': os.path.join(installdir, self.libdir), 'PKG_CONFIG_PATH': _prepend_pkg_config_path(os.path.join(installdir, self.libdir, 'pkgconfig'))} testdir = os.path.join(self.unit_test_dir, '39 external, internal library rpath', 'built library') # install into installdir without using DESTDIR self.prefix = self.installdir self.init(testdir, override_envvars=env) self.prefix = oldprefix self.build(override_envvars=env) # test uninstalled self.run_tests(override_envvars=env) if not (is_osx() or is_linux()): return # test running after installation self.install(use_destdir=False) prog = os.path.join(self.installdir, 'bin', 'prog') self._run([prog]) if not is_osx(): # Rest of the workflow only works on macOS return out = self._run(['otool', '-L', prog]) self.assertNotIn('@rpath', out) ## New builddir for testing that DESTDIR is not added to install_name self.new_builddir() # install into installdir with DESTDIR self.init(testdir, override_envvars=env) self.build(override_envvars=env) # test running after installation self.install(override_envvars=env) prog = self.installdir + os.path.join(self.prefix, 'bin', 'prog') lib = self.installdir + os.path.join(self.prefix, 'lib', 'libbar_built.dylib') for f in prog, lib: out = self._run(['otool', '-L', f]) # Ensure that the otool output does not contain self.installdir self.assertNotRegex(out, self.installdir + '.*dylib ') @skipIfNoPkgconfig def test_link_arg_fullname(self): ''' Test for support of -l:libfullname.a see: https://github.com/mesonbuild/meson/issues/9000 https://stackoverflow.com/questions/48532868/gcc-library-option-with-a-colon-llibevent-a ''' testdir = os.path.join(self.unit_test_dir, '97 link full name','libtestprovider') oldprefix = self.prefix # install into installdir without using DESTDIR installdir = self.installdir self.prefix = installdir self.init(testdir) self.prefix=oldprefix self.build() self.install(use_destdir=False) self.new_builddir() env = {'LIBRARY_PATH': os.path.join(installdir, self.libdir), 'PKG_CONFIG_PATH': _prepend_pkg_config_path(os.path.join(installdir, self.libdir, 'pkgconfig'))} testdir = os.path.join(self.unit_test_dir, '97 link full name','proguser') self.init(testdir,override_envvars=env) # test for link with full path with open(os.path.join(self.builddir, 'build.ninja'), encoding='utf-8') as bfile: for line in bfile: if 'build dprovidertest:' in line: self.assertIn('/libtestprovider.a', line) if is_osx(): # macOS's ld do not supports `--whole-archive`, skip build & run return self.build(override_envvars=env) # skip test if pkg-config is too old. # before v0.28, Libs flags like -Wl will not kept in context order with -l flags. # see https://gitlab.freedesktop.org/pkg-config/pkg-config/-/blob/master/NEWS pkgconfigver = subprocess.check_output([PKG_CONFIG, '--version']) if b'0.28' > pkgconfigver: raise SkipTest('pkg-config is too old to be correctly done this.') self.run_tests() @skipIfNoPkgconfig def test_usage_pkgconfig_prefixes(self): ''' Build and install two external libraries, to different prefixes, then build and install a client program that finds them via pkgconfig, and verify the installed client program runs. ''' oldinstalldir = self.installdir # Build and install both external libraries without DESTDIR val1dir = os.path.join(self.unit_test_dir, '74 pkgconfig prefixes', 'val1') val1prefix = os.path.join(oldinstalldir, 'val1') self.prefix = val1prefix self.installdir = val1prefix self.init(val1dir) self.build() self.install(use_destdir=False) self.new_builddir() env1 = {} env1['PKG_CONFIG_PATH'] = os.path.join(val1prefix, self.libdir, 'pkgconfig') val2dir = os.path.join(self.unit_test_dir, '74 pkgconfig prefixes', 'val2') val2prefix = os.path.join(oldinstalldir, 'val2') self.prefix = val2prefix self.installdir = val2prefix self.init(val2dir, override_envvars=env1) self.build() self.install(use_destdir=False) self.new_builddir() # Build, install, and run the client program env2 = {} env2['PKG_CONFIG_PATH'] = os.path.join(val2prefix, self.libdir, 'pkgconfig') testdir = os.path.join(self.unit_test_dir, '74 pkgconfig prefixes', 'client') testprefix = os.path.join(oldinstalldir, 'client') self.prefix = testprefix self.installdir = testprefix self.init(testdir, override_envvars=env2) self.build() self.install(use_destdir=False) prog = os.path.join(self.installdir, 'bin', 'client') env3 = {} if is_cygwin(): env3['PATH'] = os.path.join(val1prefix, 'bin') + \ os.pathsep + \ os.path.join(val2prefix, 'bin') + \ os.pathsep + os.environ['PATH'] out = self._run([prog], override_envvars=env3).strip() # Expected output is val1 + val2 = 3 self.assertEqual(out, '3') def install_subdir_invalid_symlinks(self, testdir, subdir_path): ''' Test that installation of broken symlinks works fine. https://github.com/mesonbuild/meson/issues/3914 ''' testdir = os.path.join(self.common_test_dir, testdir) subdir = os.path.join(testdir, subdir_path) with chdir(subdir): # Can't distribute broken symlinks in the source tree because it breaks # the creation of zipapps. Create it dynamically and run the test by # hand. src = '../../nonexistent.txt' os.symlink(src, 'invalid-symlink.txt') try: self.init(testdir) self.build() self.install() install_path = subdir_path.split(os.path.sep)[-1] link = os.path.join(self.installdir, 'usr', 'share', install_path, 'invalid-symlink.txt') self.assertTrue(os.path.islink(link), msg=link) self.assertEqual(src, os.readlink(link)) self.assertFalse(os.path.isfile(link), msg=link) finally: os.remove(os.path.join(subdir, 'invalid-symlink.txt')) def test_install_subdir_symlinks(self): self.install_subdir_invalid_symlinks('59 install subdir', os.path.join('sub', 'sub1')) def test_install_subdir_symlinks_with_default_umask(self): self.install_subdir_invalid_symlinks('190 install_mode', 'sub2') def test_install_subdir_symlinks_with_default_umask_and_mode(self): self.install_subdir_invalid_symlinks('190 install_mode', 'sub1') @skipIfNoPkgconfigDep('gmodule-2.0') def test_ldflag_dedup(self): testdir = os.path.join(self.unit_test_dir, '51 ldflagdedup') if is_cygwin() or is_osx(): raise SkipTest('Not applicable on Cygwin or OSX.') env = get_fake_env() cc = detect_c_compiler(env, MachineChoice.HOST) linker = cc.linker if not linker.export_dynamic_args(env): raise SkipTest('Not applicable for linkers without --export-dynamic') self.init(testdir) build_ninja = os.path.join(self.builddir, 'build.ninja') max_count = 0 search_term = '-Wl,--export-dynamic' with open(build_ninja, encoding='utf-8') as f: for line in f: max_count = max(max_count, line.count(search_term)) self.assertEqual(max_count, 1, 'Export dynamic incorrectly deduplicated.') def test_compiler_libs_static_dedup(self): testdir = os.path.join(self.unit_test_dir, '55 dedup compiler libs') self.init(testdir) build_ninja = os.path.join(self.builddir, 'build.ninja') with open(build_ninja, encoding='utf-8') as f: lines = f.readlines() for lib in ('-ldl', '-lm', '-lc', '-lrt'): for line in lines: if lib not in line: continue # Assert that self.assertEqual(len(line.split(lib)), 2, msg=(lib, line)) @skipIfNoPkgconfig def test_noncross_options(self): # C_std defined in project options must be in effect also when native compiling. testdir = os.path.join(self.unit_test_dir, '50 noncross options') self.init(testdir, extra_args=['-Dpkg_config_path=' + testdir]) compdb = self.get_compdb() self.assertEqual(len(compdb), 2) self.assertRegex(compdb[0]['command'], '-std=c99') self.assertRegex(compdb[1]['command'], '-std=c99') self.build() def test_identity_cross(self): testdir = os.path.join(self.unit_test_dir, '60 identity cross') constantsfile = tempfile.NamedTemporaryFile(mode='w') constantsfile.write(textwrap.dedent('''\ [constants] py_ext = '.py' ''')) constantsfile.flush() nativefile = tempfile.NamedTemporaryFile(mode='w') nativefile.write(textwrap.dedent('''\ [binaries] c = ['{}' + py_ext] '''.format(os.path.join(testdir, 'build_wrapper')))) nativefile.flush() self.meson_native_files = [constantsfile.name, nativefile.name] crossfile = tempfile.NamedTemporaryFile(mode='w') crossfile.write(textwrap.dedent('''\ [binaries] c = ['{}' + py_ext] '''.format(os.path.join(testdir, 'host_wrapper')))) crossfile.flush() self.meson_cross_files = [constantsfile.name, crossfile.name] # TODO should someday be explicit about build platform only here self.init(testdir) def test_identity_cross_env(self): testdir = os.path.join(self.unit_test_dir, '60 identity cross') env = { 'CC_FOR_BUILD': '"' + os.path.join(testdir, 'build_wrapper.py') + '"', 'CC': '"' + os.path.join(testdir, 'host_wrapper.py') + '"', } crossfile = tempfile.NamedTemporaryFile(mode='w') crossfile.write('') crossfile.flush() self.meson_cross_files = [crossfile.name] # TODO should someday be explicit about build platform only here self.init(testdir, override_envvars=env) @skipIfNoPkgconfig def test_static_link(self): if is_cygwin(): raise SkipTest("Cygwin doesn't support LD_LIBRARY_PATH.") # Build some libraries and install them testdir = os.path.join(self.unit_test_dir, '66 static link/lib') libdir = os.path.join(self.installdir, self.libdir) oldprefix = self.prefix self.prefix = self.installdir self.init(testdir) self.install(use_destdir=False) # Test that installed libraries works self.new_builddir() self.prefix = oldprefix meson_args = [f'-Dc_link_args=-L{libdir}', '--fatal-meson-warnings'] testdir = os.path.join(self.unit_test_dir, '66 static link') env = {'PKG_CONFIG_LIBDIR': os.path.join(libdir, 'pkgconfig')} self.init(testdir, extra_args=meson_args, override_envvars=env) self.build() self.run_tests() def _check_ld(self, check: str, name: str, lang: str, expected: str) -> None: if is_sunos(): raise SkipTest('Solaris currently cannot override the linker.') if not shutil.which(check): raise SkipTest(f'Could not find {check}.') envvars = [mesonbuild.envconfig.ENV_VAR_PROG_MAP[f'{lang}_ld']] # Also test a deprecated variable if there is one. if f'{lang}_ld' in mesonbuild.envconfig.DEPRECATED_ENV_PROG_MAP: envvars.append( mesonbuild.envconfig.DEPRECATED_ENV_PROG_MAP[f'{lang}_ld']) for envvar in envvars: with mock.patch.dict(os.environ, {envvar: name}): env = get_fake_env() comp = compiler_from_language(env, lang, MachineChoice.HOST) if isinstance(comp, (AppleClangCCompiler, AppleClangCPPCompiler, AppleClangObjCCompiler, AppleClangObjCPPCompiler)): raise SkipTest('AppleClang is currently only supported with ld64') if lang != 'rust' and comp.use_linker_args('bfd') == []: raise SkipTest( f'Compiler {comp.id} does not support using alternative linkers') self.assertEqual(comp.linker.id, expected) def test_ld_environment_variable_bfd(self): self._check_ld('ld.bfd', 'bfd', 'c', 'ld.bfd') def test_ld_environment_variable_gold(self): self._check_ld('ld.gold', 'gold', 'c', 'ld.gold') def test_ld_environment_variable_lld(self): self._check_ld('ld.lld', 'lld', 'c', 'ld.lld') @skip_if_not_language('rust') @skipIfNoExecutable('ld.gold') # need an additional check here because _check_ld checks for gcc def test_ld_environment_variable_rust(self): self._check_ld('gcc', 'gcc -fuse-ld=gold', 'rust', 'ld.gold') def test_ld_environment_variable_cpp(self): self._check_ld('ld.gold', 'gold', 'cpp', 'ld.gold') @skip_if_not_language('objc') def test_ld_environment_variable_objc(self): self._check_ld('ld.gold', 'gold', 'objc', 'ld.gold') @skip_if_not_language('objcpp') def test_ld_environment_variable_objcpp(self): self._check_ld('ld.gold', 'gold', 'objcpp', 'ld.gold') @skip_if_not_language('fortran') def test_ld_environment_variable_fortran(self): self._check_ld('ld.gold', 'gold', 'fortran', 'ld.gold') @skip_if_not_language('d') def test_ld_environment_variable_d(self): # At least for me, ldc defaults to gold, and gdc defaults to bfd, so # let's pick lld, which isn't the default for either (currently) if is_osx(): expected = 'ld64' else: expected = 'ld.lld' self._check_ld('ld.lld', 'lld', 'd', expected) def compute_sha256(self, filename): with open(filename, 'rb') as f: return hashlib.sha256(f.read()).hexdigest() def test_wrap_with_file_url(self): testdir = os.path.join(self.unit_test_dir, '72 wrap file url') source_filename = os.path.join(testdir, 'subprojects', 'foo.tar.xz') patch_filename = os.path.join(testdir, 'subprojects', 'foo-patch.tar.xz') wrap_filename = os.path.join(testdir, 'subprojects', 'foo.wrap') source_hash = self.compute_sha256(source_filename) patch_hash = self.compute_sha256(patch_filename) wrap = textwrap.dedent("""\ [wrap-file] directory = foo source_url = http://server.invalid/foo source_fallback_url = file://{} source_filename = foo.tar.xz source_hash = {} patch_url = http://server.invalid/foo patch_fallback_url = file://{} patch_filename = foo-patch.tar.xz patch_hash = {} """.format(source_filename, source_hash, patch_filename, patch_hash)) with open(wrap_filename, 'w', encoding='utf-8') as f: f.write(wrap) self.init(testdir) self.build() self.run_tests() windows_proof_rmtree(os.path.join(testdir, 'subprojects', 'packagecache')) windows_proof_rmtree(os.path.join(testdir, 'subprojects', 'foo')) os.unlink(wrap_filename) def test_no_rpath_for_static(self): testdir = os.path.join(self.common_test_dir, '5 linkstatic') self.init(testdir) self.build() build_rpath = get_rpath(os.path.join(self.builddir, 'prog')) self.assertIsNone(build_rpath) def test_lookup_system_after_broken_fallback(self): # Just to generate libfoo.pc so we can test system dependency lookup. testdir = os.path.join(self.common_test_dir, '44 pkgconfig-gen') self.init(testdir) privatedir = self.privatedir # Write test project where the first dependency() returns not-found # because 'broken' subproject does not exit, but that should not prevent # the 2nd dependency() to lookup on system. self.new_builddir() with tempfile.TemporaryDirectory() as d: with open(os.path.join(d, 'meson.build'), 'w', encoding='utf-8') as f: f.write(textwrap.dedent('''\ project('test') dependency('notfound', fallback: 'broken', required: false) dependency('libfoo', fallback: 'broken', required: true) ''')) self.init(d, override_envvars={'PKG_CONFIG_LIBDIR': privatedir}) def test_as_link_whole(self): testdir = os.path.join(self.unit_test_dir, '76 as link whole') self.init(testdir) with open(os.path.join(self.privatedir, 'bar1.pc'), encoding='utf-8') as f: content = f.read() self.assertIn('-lfoo', content) with open(os.path.join(self.privatedir, 'bar2.pc'), encoding='utf-8') as f: content = f.read() self.assertNotIn('-lfoo', content) def test_prelinking(self): # Prelinking currently only works on recently new GNU toolchains. # Skip everything else. When support for other toolchains is added, # remove limitations as necessary. if is_osx(): raise SkipTest('Prelinking not supported on Darwin.') if 'clang' in os.environ.get('CC', 'dummy'): raise SkipTest('Prelinking not supported with Clang.') testdir = os.path.join(self.unit_test_dir, '86 prelinking') env = get_fake_env(testdir, self.builddir, self.prefix) cc = detect_c_compiler(env, MachineChoice.HOST) if cc.id == "gcc": gccver = subprocess.check_output(['gcc', '--version']) if b'7.5.0' in gccver: raise SkipTest('GCC on Bionic is too old to be supported.') self.init(testdir) self.build() outlib = os.path.join(self.builddir, 'libprelinked.a') ar = shutil.which('ar') self.assertPathExists(outlib) self.assertIsNotNone(ar) p = subprocess.run([ar, 't', outlib], stdout=subprocess.PIPE, stderr=subprocess.DEVNULL, text=True, timeout=1) obj_files = p.stdout.strip().split('\n') self.assertEqual(len(obj_files), 1) self.assertTrue(obj_files[0].endswith('-prelink.o')) def do_one_test_with_nativefile(self, testdir, args): testdir = os.path.join(self.common_test_dir, testdir) with tempfile.TemporaryDirectory() as d: p = Path(d) / 'nativefile' with p.open('wt', encoding='utf-8') as f: f.write(f'''[binaries] c = {args} ''') self.init(testdir, extra_args=['--native-file=' + str(p)]) self.build() def test_cmake_multilib(self): ''' Test that the cmake module handles multilib paths correctly. ''' # Verify that "gcc -m32" works try: self.do_one_test_with_nativefile('1 trivial', "['gcc', '-m32']") except subprocess.CalledProcessError as e: raise SkipTest('Not GCC, or GCC does not have the -m32 option') self.wipe() # Verify that cmake works try: self.do_one_test_with_nativefile('../cmake/1 basic', "['gcc']") except subprocess.CalledProcessError as e: raise SkipTest('Could not build basic cmake project') self.wipe() # If so, we can test that cmake works with "gcc -m32" self.do_one_test_with_nativefile('../cmake/1 basic', "['gcc', '-m32']") @skipUnless(is_linux(), 'Test only applicable to Linux') def test_install_strip(self): testdir = os.path.join(self.unit_test_dir, '103 strip') self.init(testdir) self.build() destdir = self.installdir + self.prefix lib = os.path.join(destdir, self.libdir, 'liba.so') install_cmd = self.meson_command + ['install', '--destdir', self.installdir] # Check we have debug symbols by default self._run(install_cmd, workdir=self.builddir) stdout = self._run(['file', '-b', lib]) self.assertIn('not stripped', stdout) # Check debug symbols got removed with --strip self._run(install_cmd + ['--strip'], workdir=self.builddir) stdout = self._run(['file', '-b', lib]) self.assertNotIn('not stripped', stdout)