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qemu / meson / 8d7ffe6e863834f0190eb6ae9dfe0891c9083c31 / . / unittests / windowstests.py
blob: fc56eaa984c6fedbd99bc0a460038f6f8d0419e5 [file] [log] [blame]
# SPDX-License-Identifier: Apache-2.0
# Copyright 2016-2021 The Meson development team
import subprocess
import re
import os
import shutil
from unittest import mock, SkipTest, skipUnless, skipIf
from glob import glob
import mesonbuild.mlog
import mesonbuild.depfile
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_cygwin, python_command, version_compare,
EnvironmentException, OptionKey
)
from mesonbuild.compilers import (
detect_c_compiler, detect_d_compiler, compiler_from_language,
)
from mesonbuild.programs import ExternalProgram
import mesonbuild.dependencies.base
import mesonbuild.modules.pkgconfig
from run_tests import (
Backend, get_fake_env
)
from .baseplatformtests import BasePlatformTests
from .helpers import *
@skipUnless(is_windows() or is_cygwin(), "requires Windows (or Windows via Cygwin)")
class WindowsTests(BasePlatformTests):
'''
Tests that should run on Cygwin, MinGW, and MSVC
'''
def setUp(self):
super().setUp()
self.platform_test_dir = os.path.join(self.src_root, 'test cases/windows')
@skipIf(is_cygwin(), 'Test only applicable to Windows')
@mock.patch.dict(os.environ)
def test_find_program(self):
'''
Test that Windows-specific edge-cases in find_program are functioning
correctly. Cannot be an ordinary test because it involves manipulating
PATH to point to a directory with Python scripts.
'''
testdir = os.path.join(self.platform_test_dir, '8 find program')
# Find `cmd` and `cmd.exe`
prog1 = ExternalProgram('cmd')
self.assertTrue(prog1.found(), msg='cmd not found')
prog2 = ExternalProgram('cmd.exe')
self.assertTrue(prog2.found(), msg='cmd.exe not found')
self.assertPathEqual(prog1.get_path(), prog2.get_path())
# Find cmd.exe with args without searching
prog = ExternalProgram('cmd', command=['cmd', '/C'])
self.assertTrue(prog.found(), msg='cmd not found with args')
self.assertPathEqual(prog.get_command()[0], 'cmd')
# Find cmd with an absolute path that's missing the extension
cmd_path = prog2.get_path()[:-4]
prog = ExternalProgram(cmd_path)
self.assertTrue(prog.found(), msg=f'{cmd_path!r} not found')
# Finding a script with no extension inside a directory works
prog = ExternalProgram(os.path.join(testdir, 'test-script'))
self.assertTrue(prog.found(), msg='test-script not found')
# Finding a script with an extension inside a directory works
prog = ExternalProgram(os.path.join(testdir, 'test-script-ext.py'))
self.assertTrue(prog.found(), msg='test-script-ext.py not found')
# Finding a script in PATH
os.environ['PATH'] += os.pathsep + testdir
# If `.PY` is in PATHEXT, scripts can be found as programs
if '.PY' in [ext.upper() for ext in os.environ['PATHEXT'].split(';')]:
# Finding a script in PATH w/o extension works and adds the interpreter
prog = ExternalProgram('test-script-ext')
self.assertTrue(prog.found(), msg='test-script-ext not found in PATH')
self.assertPathEqual(prog.get_command()[0], python_command[0])
self.assertPathBasenameEqual(prog.get_path(), 'test-script-ext.py')
# Finding a script in PATH with extension works and adds the interpreter
prog = ExternalProgram('test-script-ext.py')
self.assertTrue(prog.found(), msg='test-script-ext.py not found in PATH')
self.assertPathEqual(prog.get_command()[0], python_command[0])
self.assertPathBasenameEqual(prog.get_path(), 'test-script-ext.py')
# Using a script with an extension directly via command= works and adds the interpreter
prog = ExternalProgram('test-script-ext.py', command=[os.path.join(testdir, 'test-script-ext.py'), '--help'])
self.assertTrue(prog.found(), msg='test-script-ext.py with full path not picked up via command=')
self.assertPathEqual(prog.get_command()[0], python_command[0])
self.assertPathEqual(prog.get_command()[2], '--help')
self.assertPathBasenameEqual(prog.get_path(), 'test-script-ext.py')
# Using a script without an extension directly via command= works and adds the interpreter
prog = ExternalProgram('test-script', command=[os.path.join(testdir, 'test-script'), '--help'])
self.assertTrue(prog.found(), msg='test-script with full path not picked up via command=')
self.assertPathEqual(prog.get_command()[0], python_command[0])
self.assertPathEqual(prog.get_command()[2], '--help')
self.assertPathBasenameEqual(prog.get_path(), 'test-script')
# Ensure that WindowsApps gets removed from PATH
path = os.environ['PATH']
if 'WindowsApps' not in path:
username = os.environ['USERNAME']
appstore_dir = fr'C:\Users\{username}\AppData\Local\Microsoft\WindowsApps'
path = os.pathsep + appstore_dir
path = ExternalProgram._windows_sanitize_path(path)
self.assertNotIn('WindowsApps', path)
def test_ignore_libs(self):
'''
Test that find_library on libs that are to be ignored returns an empty
array of arguments. Must be a unit test because we cannot inspect
ExternalLibraryHolder from build files.
'''
testdir = os.path.join(self.platform_test_dir, '1 basic')
env = get_fake_env(testdir, self.builddir, self.prefix)
cc = detect_c_compiler(env, MachineChoice.HOST)
if cc.get_argument_syntax() != 'msvc':
raise SkipTest('Not using MSVC')
# To force people to update this test, and also test
self.assertEqual(set(cc.ignore_libs), {'c', 'm', 'pthread', 'dl', 'rt', 'execinfo'})
for l in cc.ignore_libs:
self.assertEqual(cc.find_library(l, env, []), [])
def test_rc_depends_files(self):
testdir = os.path.join(self.platform_test_dir, '5 resources')
# resource compiler depfile generation is not yet implemented for msvc
env = get_fake_env(testdir, self.builddir, self.prefix)
depfile_works = detect_c_compiler(env, MachineChoice.HOST).get_id() not in {'msvc', 'clang-cl', 'intel-cl'}
self.init(testdir)
self.build()
# Immediately rebuilding should not do anything
self.assertBuildIsNoop()
# Test compile_resources(depend_file:)
# Changing mtime of sample.ico should rebuild prog
self.utime(os.path.join(testdir, 'res', 'sample.ico'))
self.assertRebuiltTarget('prog')
# Test depfile generation by compile_resources
# Changing mtime of resource.h should rebuild myres.rc and then prog
if depfile_works:
self.utime(os.path.join(testdir, 'inc', 'resource', 'resource.h'))
self.assertRebuiltTarget('prog')
self.wipe()
if depfile_works:
testdir = os.path.join(self.platform_test_dir, '12 resources with custom targets')
self.init(testdir)
self.build()
# Immediately rebuilding should not do anything
self.assertBuildIsNoop()
# Changing mtime of resource.h should rebuild myres_1.rc and then prog_1
self.utime(os.path.join(testdir, 'res', 'resource.h'))
self.assertRebuiltTarget('prog_1')
def test_msvc_cpp17(self):
testdir = os.path.join(self.unit_test_dir, '44 vscpp17')
env = get_fake_env(testdir, self.builddir, self.prefix)
cc = detect_c_compiler(env, MachineChoice.HOST)
if cc.get_argument_syntax() != 'msvc':
raise SkipTest('Test only applies to MSVC-like compilers')
try:
self.init(testdir)
except subprocess.CalledProcessError:
# According to Python docs, output is only stored when
# using check_output. We don't use it, so we can't check
# that the output is correct (i.e. that it failed due
# to the right reason).
return
self.build()
@skipIf(is_cygwin(), 'Test only applicable to Windows')
def test_genvslite(self):
# The test framework itself might be forcing a specific, non-ninja backend across a set of tests, which
# includes this test. E.g. -
# > python.exe run_unittests.py --backend=vs WindowsTests
# Since that explicitly specifies a backend that's incompatible with (and essentially meaningless in
# conjunction with) 'genvslite', we should skip further genvslite testing.
if self.backend is not Backend.ninja:
raise SkipTest('Test only applies when using the Ninja backend')
testdir = os.path.join(self.unit_test_dir, '117 genvslite')
env = get_fake_env(testdir, self.builddir, self.prefix)
cc = detect_c_compiler(env, MachineChoice.HOST)
if cc.get_argument_syntax() != 'msvc':
raise SkipTest('Test only applies when MSVC tools are available.')
# We want to run the genvslite setup. I.e. -
# meson setup --genvslite vs2022 ...
# which we should expect to generate the set of _debug/_debugoptimized/_release suffixed
# build directories. Then we want to check that the solution/project build hooks (like clean,
# build, and rebuild) end up ultimately invoking the 'meson compile ...' of the appropriately
# suffixed build dir, for which we need to use 'msbuild.exe'
# Find 'msbuild.exe'
msbuildprog = ExternalProgram('msbuild.exe')
self.assertTrue(msbuildprog.found(), msg='msbuild.exe not found')
# Setup with '--genvslite ...'
self.new_builddir()
# Firstly, we'd like to check that meson errors if the user explicitly specifies a non-ninja backend
# during setup.
with self.assertRaises(subprocess.CalledProcessError) as cm:
self.init(testdir, extra_args=['--genvslite', 'vs2022', '--backend', 'vs'])
self.assertIn("specifying a non-ninja backend conflicts with a 'genvslite' setup", cm.exception.stdout)
# Wrap the following bulk of setup and msbuild invocation testing in a try-finally because any exception,
# failure, or success must always clean up any of the suffixed build dir folders that may have been generated.
try:
# Since this
self.init(testdir, extra_args=['--genvslite', 'vs2022'])
# We need to bear in mind that the BasePlatformTests framework creates and cleans up its own temporary
# build directory. However, 'genvslite' creates a set of suffixed build directories which we'll have
# to clean up ourselves. See 'finally' block below.
# We intentionally skip the -
# self.build()
# step because we're wanting to test compilation/building through the solution/project's interface.
# Execute the debug and release builds through the projects 'Build' hooks
genvslite_vcxproj_path = str(os.path.join(self.builddir+'_vs', 'genvslite@exe.vcxproj'))
# This use-case of invoking the .sln/.vcxproj build hooks, not through Visual Studio itself, but through
# 'msbuild.exe', in a VS tools command prompt environment (e.g. "x64 Native Tools Command Prompt for VS 2022"), is a
# problem: Such an environment sets the 'VSINSTALLDIR' variable which, mysteriously, has the side-effect of causing
# the spawned 'meson compile' command to fail to find 'ninja' (and even when ninja can be found elsewhere, all the
# compiler binaries that ninja wants to run also fail to be found). The PATH environment variable in the child python
# (and ninja) processes are fundamentally stripped down of all the critical search paths required to run the ninja
# compile work ... ONLY when 'VSINSTALLDIR' is set; without 'VSINSTALLDIR' set, the meson compile command does search
# for and find ninja (ironically, it finds it under the path where VSINSTALLDIR pointed!).
# For the above reason, this testing works around this bizarre behaviour by temporarily removing any 'VSINSTALLDIR'
# variable, prior to invoking the builds -
current_env = os.environ.copy()
current_env.pop('VSINSTALLDIR', None)
subprocess.check_call(
['msbuild', '-target:Build', '-property:Configuration=debug', genvslite_vcxproj_path],
stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL,
env=current_env)
subprocess.check_call(
['msbuild', '-target:Build', '-property:Configuration=release', genvslite_vcxproj_path],
stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL,
env=current_env)
# Check this has actually built the appropriate exes
output_debug = subprocess.check_output(str(os.path.join(self.builddir+'_debug', 'genvslite.exe')))
self.assertEqual( output_debug, b'Debug\r\n' )
output_release = subprocess.check_output(str(os.path.join(self.builddir+'_release', 'genvslite.exe')))
self.assertEqual( output_release, b'Non-debug\r\n' )
finally:
# Clean up our special suffixed temporary build dirs
suffixed_build_dirs = glob(self.builddir+'_*', recursive=False)
for build_dir in suffixed_build_dirs:
shutil.rmtree(build_dir)
def test_install_pdb_introspection(self):
testdir = os.path.join(self.platform_test_dir, '1 basic')
env = get_fake_env(testdir, self.builddir, self.prefix)
cc = detect_c_compiler(env, MachineChoice.HOST)
if cc.get_argument_syntax() != 'msvc':
raise SkipTest('Test only applies to MSVC-like compilers')
self.init(testdir)
installed = self.introspect('--installed')
files = [os.path.basename(path) for path in installed.values()]
self.assertIn('prog.pdb', files)
def _check_ld(self, name: str, lang: str, expected: str) -> None:
if not shutil.which(name):
raise SkipTest(f'Could not find {name}.')
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()
try:
comp = compiler_from_language(env, lang, MachineChoice.HOST)
except EnvironmentException:
raise SkipTest(f'Could not find a compiler for {lang}')
self.assertEqual(comp.linker.id, expected)
def test_link_environment_variable_lld_link(self):
env = get_fake_env()
comp = detect_c_compiler(env, MachineChoice.HOST)
if comp.get_argument_syntax() == 'gcc':
raise SkipTest('GCC cannot be used with link compatible linkers.')
self._check_ld('lld-link', 'c', 'lld-link')
def test_link_environment_variable_link(self):
env = get_fake_env()
comp = detect_c_compiler(env, MachineChoice.HOST)
if comp.get_argument_syntax() == 'gcc':
raise SkipTest('GCC cannot be used with link compatible linkers.')
self._check_ld('link', 'c', 'link')
def test_link_environment_variable_optlink(self):
env = get_fake_env()
comp = detect_c_compiler(env, MachineChoice.HOST)
if comp.get_argument_syntax() == 'gcc':
raise SkipTest('GCC cannot be used with link compatible linkers.')
self._check_ld('optlink', 'c', 'optlink')
@skip_if_not_language('rust')
def test_link_environment_variable_rust(self):
self._check_ld('link', 'rust', 'link')
@skip_if_not_language('d')
def test_link_environment_variable_d(self):
env = get_fake_env()
comp = detect_d_compiler(env, MachineChoice.HOST)
if comp.id == 'dmd':
raise SkipTest('meson cannot reliably make DMD use a different linker.')
self._check_ld('lld-link', 'd', 'lld-link')
def test_pefile_checksum(self):
try:
import pefile
except ImportError:
if is_ci():
raise
raise SkipTest('pefile module not found')
testdir = os.path.join(self.common_test_dir, '6 linkshared')
self.init(testdir, extra_args=['--buildtype=release'])
self.build()
# Test that binaries have a non-zero checksum
env = get_fake_env()
cc = detect_c_compiler(env, MachineChoice.HOST)
cc_id = cc.get_id()
ld_id = cc.get_linker_id()
dll = glob(os.path.join(self.builddir, '*mycpplib.dll'))[0]
exe = os.path.join(self.builddir, 'cppprog.exe')
for f in (dll, exe):
pe = pefile.PE(f)
msg = f'PE file: {f!r}, compiler: {cc_id!r}, linker: {ld_id!r}'
if cc_id == 'clang-cl':
# Latest clang-cl tested (7.0) does not write checksums out
self.assertFalse(pe.verify_checksum(), msg=msg)
else:
# Verify that a valid checksum was written by all other compilers
self.assertTrue(pe.verify_checksum(), msg=msg)
def test_qt5dependency_vscrt(self):
'''
Test that qt5 dependencies use the debug module suffix when b_vscrt is
set to 'mdd'
'''
# Verify that the `b_vscrt` option is available
env = get_fake_env()
cc = detect_c_compiler(env, MachineChoice.HOST)
if OptionKey('b_vscrt') not in cc.base_options:
raise SkipTest('Compiler does not support setting the VS CRT')
# Verify that qmake is for Qt5
if not shutil.which('qmake-qt5'):
if not shutil.which('qmake') and not is_ci():
raise SkipTest('QMake not found')
output = subprocess.getoutput('qmake --version')
if 'Qt version 5' not in output and not is_ci():
raise SkipTest('Qmake found, but it is not for Qt 5.')
# Setup with /MDd
testdir = os.path.join(self.framework_test_dir, '4 qt')
self.init(testdir, extra_args=['-Db_vscrt=mdd'])
# Verify that we're linking to the debug versions of Qt DLLs
build_ninja = os.path.join(self.builddir, 'build.ninja')
with open(build_ninja, encoding='utf-8') as f:
contents = f.read()
m = re.search('build qt5core.exe: cpp_LINKER.*Qt5Cored.lib', contents)
self.assertIsNotNone(m, msg=contents)
def test_compiler_checks_vscrt(self):
'''
Test that the correct VS CRT is used when running compiler checks
'''
# Verify that the `b_vscrt` option is available
env = get_fake_env()
cc = detect_c_compiler(env, MachineChoice.HOST)
if OptionKey('b_vscrt') not in cc.base_options:
raise SkipTest('Compiler does not support setting the VS CRT')
def sanitycheck_vscrt(vscrt):
checks = self.get_meson_log_sanitychecks()
self.assertGreater(len(checks), 0)
for check in checks:
self.assertIn(vscrt, check)
testdir = os.path.join(self.common_test_dir, '1 trivial')
self.init(testdir)
sanitycheck_vscrt('/MDd')
self.new_builddir()
self.init(testdir, extra_args=['-Dbuildtype=debugoptimized'])
sanitycheck_vscrt('/MD')
self.new_builddir()
self.init(testdir, extra_args=['-Dbuildtype=release'])
sanitycheck_vscrt('/MD')
self.new_builddir()
self.init(testdir, extra_args=['-Db_vscrt=md'])
sanitycheck_vscrt('/MD')
self.new_builddir()
self.init(testdir, extra_args=['-Db_vscrt=mdd'])
sanitycheck_vscrt('/MDd')
self.new_builddir()
self.init(testdir, extra_args=['-Db_vscrt=mt'])
sanitycheck_vscrt('/MT')
self.new_builddir()
self.init(testdir, extra_args=['-Db_vscrt=mtd'])
sanitycheck_vscrt('/MTd')
def test_modules(self):
if self.backend is not Backend.ninja:
raise SkipTest(f'C++ modules only work with the Ninja backend (not {self.backend.name}).')
if 'VSCMD_VER' not in os.environ:
raise SkipTest('C++ modules is only supported with Visual Studio.')
if version_compare(os.environ['VSCMD_VER'], '<16.10.0'):
raise SkipTest('C++ modules are only supported with VS 2019 Preview or newer.')
self.init(os.path.join(self.unit_test_dir, '85 cpp modules'))
self.build()
def test_non_utf8_fails(self):
# FIXME: VS backend does not use flags from compiler.get_always_args()
# and thus it's missing /utf-8 argument. Was that intentional? This needs
# to be revisited.
if self.backend is not Backend.ninja:
raise SkipTest(f'This test only pass with ninja backend (not {self.backend.name}).')
testdir = os.path.join(self.platform_test_dir, '18 msvc charset')
env = get_fake_env(testdir, self.builddir, self.prefix)
cc = detect_c_compiler(env, MachineChoice.HOST)
if cc.get_argument_syntax() != 'msvc':
raise SkipTest('Not using MSVC')
self.init(testdir, extra_args=['-Dtest-failure=true'])
self.assertRaises(subprocess.CalledProcessError, self.build)
@unittest.skipIf(is_cygwin(), "Needs visual studio")
def test_vsenv_option(self):
if self.backend is not Backend.ninja:
raise SkipTest('Only ninja backend is valid for test')
env = os.environ.copy()
env['MESON_FORCE_VSENV_FOR_UNITTEST'] = '1'
# Remove ninja from PATH to ensure that the one provided by Visual
# Studio is picked, as a regression test for
# https://github.com/mesonbuild/meson/issues/9774
env['PATH'] = get_path_without_cmd('ninja', env['PATH'])
testdir = os.path.join(self.common_test_dir, '1 trivial')
out = self.init(testdir, extra_args=['--vsenv'], override_envvars=env)
self.assertIn('Activating VS', out)
self.assertRegex(out, 'Visual Studio environment is needed to run Ninja')
# All these directly call ninja with the full path, so we need to patch
# it out to use meson subcommands
with mock.patch.object(self, 'build_command', self.meson_command + ['compile']):
out = self.build(override_envvars=env)
self.assertIn('Activating VS', out)
with mock.patch.object(self, 'test_command', self.meson_command + ['test']):
out = self.run_tests(override_envvars=env)
self.assertIn('Activating VS', out)
with mock.patch.object(self, 'install_command', self.meson_command + ['install']):
out = self.install(override_envvars=env)
self.assertIn('Activating VS', out)