meson/run_project_tests.py

#!/usr/bin/env python3

# Copyright 2012-2019 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 typing as T
import functools
import itertools
import os
import subprocess
import shutil
import sys
import signal
import shlex
from io import StringIO
from ast import literal_eval
from enum import Enum
import tempfile
from pathlib import Path, PurePath
from mesonbuild import build
from mesonbuild import environment
from mesonbuild import compilers
from mesonbuild import mesonlib
from mesonbuild import mlog
from mesonbuild import mtest
from mesonbuild.mesonlib import MachineChoice, stringlistify, Popen_safe
from mesonbuild.coredata import backendlist
import argparse
import json
import xml.etree.ElementTree as ET
import time
import multiprocessing
from concurrent.futures import ProcessPoolExecutor, CancelledError
import re
from run_tests import get_fake_options, run_configure, get_meson_script
from run_tests import get_backend_commands, get_backend_args_for_dir, Backend
from run_tests import ensure_backend_detects_changes
from run_tests import guess_backend

ALL_TESTS = ['cmake', 'common', 'warning-meson', 'failing-meson', 'failing-build', 'failing-test',
             'kconfig', 'platform-osx', 'platform-windows', 'platform-linux',
             'java', 'C#', 'vala',  'rust', 'd', 'objective c', 'objective c++',
             'fortran', 'swift', 'cuda', 'python3', 'python', 'fpga', 'frameworks', 'nasm', 'wasm'
             ]


class BuildStep(Enum):
    configure = 1
    build = 2
    test = 3
    install = 4
    clean = 5
    validate = 6


class TestResult:
    def __init__(self, cicmds):
        self.msg = ''  # empty msg indicates test success
        self.stdo = ''
        self.stde = ''
        self.mlog = ''
        self.cicmds = cicmds
        self.conftime = 0
        self.buildtime = 0
        self.testtime = 0

    def add_step(self, step, stdo, stde, mlog='', time=0):
        self.step = step
        self.stdo += stdo
        self.stde += stde
        self.mlog += mlog
        if step == BuildStep.configure:
            self.conftime = time
        elif step == BuildStep.build:
            self.buildtime = time
        elif step == BuildStep.test:
            self.testtime = time

    def fail(self, msg):
        self.msg = msg

@functools.total_ordering
class TestDef:
    def __init__(self, path: Path, name: T.Optional[str], args: T.List[str], skip: bool = False, env_update: T.Optional[T.Dict[str, str]] = None):
        self.path = path
        self.name = name
        self.args = args
        self.skip = skip
        self.env = os.environ.copy()
        if env_update is not None:
            self.env.update(env_update)

    def __repr__(self) -> str:
        return '<{}: {:<48} [{}: {}] -- {}>'.format(type(self).__name__, str(self.path), self.name, self.args, self.skip)

    def display_name(self) -> str:
        if self.name:
            return '{}   ({})'.format(self.path.as_posix(), self.name)
        return self.path.as_posix()

    def __lt__(self, other: T.Any) -> bool:
        if isinstance(other, TestDef):
            # None is not sortable, so replace it with an empty string
            s_id = int(self.path.name.split(' ')[0])
            o_id = int(other.path.name.split(' ')[0])
            return (s_id, self.path, self.name or '') < (o_id, other.path, other.name or '')
        return NotImplemented

class AutoDeletedDir:
    def __init__(self, d):
        self.dir = d

    def __enter__(self):
        os.makedirs(self.dir, exist_ok=True)
        return self.dir

    def __exit__(self, _type, value, traceback):
        # We don't use tempfile.TemporaryDirectory, but wrap the
        # deletion in the AutoDeletedDir class because
        # it fails on Windows due antivirus programs
        # holding files open.
        mesonlib.windows_proof_rmtree(self.dir)

failing_logs = []
print_debug = 'MESON_PRINT_TEST_OUTPUT' in os.environ
under_ci = 'CI' in os.environ
under_xenial_ci = under_ci and ('XENIAL' in os.environ)
skip_scientific = under_ci and ('SKIP_SCIENTIFIC' in os.environ)
do_debug = under_ci or print_debug
no_meson_log_msg = 'No meson-log.txt found.'

system_compiler = None
compiler_id_map = {}  # type: T.Dict[str, str]

class StopException(Exception):
    def __init__(self):
        super().__init__('Stopped by user')

stop = False
def stop_handler(signal, frame):
    global stop
    stop = True
signal.signal(signal.SIGINT, stop_handler)
signal.signal(signal.SIGTERM, stop_handler)

def setup_commands(optbackend):
    global do_debug, backend, backend_flags
    global compile_commands, clean_commands, test_commands, install_commands, uninstall_commands
    backend, backend_flags = guess_backend(optbackend, shutil.which('msbuild'))
    compile_commands, clean_commands, test_commands, install_commands, \
        uninstall_commands = get_backend_commands(backend, do_debug)

def get_relative_files_list_from_dir(fromdir: Path) -> T.List[Path]:
    return [file.relative_to(fromdir) for file in fromdir.rglob('*') if file.is_file()]

def platform_fix_name(fname: str, compiler, env) -> str:
    # canonicalize compiler
    if (compiler in {'clang-cl', 'intel-cl'} or
       (env.machines.host.is_windows() and compiler == 'pgi')):
        canonical_compiler = 'msvc'
    else:
        canonical_compiler = compiler

    if '?lib' in fname:
        if env.machines.host.is_windows() and canonical_compiler == 'msvc':
            fname = re.sub(r'lib/\?lib(.*)\.', r'bin/\1.', fname)
            fname = re.sub(r'/\?lib/', r'/bin/', fname)
        elif env.machines.host.is_windows():
            fname = re.sub(r'lib/\?lib(.*)\.', r'bin/lib\1.', fname)
            fname = re.sub(r'\?lib(.*)\.dll$', r'lib\1.dll', fname)
            fname = re.sub(r'/\?lib/', r'/bin/', fname)
        elif env.machines.host.is_cygwin():
            fname = re.sub(r'lib/\?lib(.*)\.so$', r'bin/cyg\1.dll', fname)
            fname = re.sub(r'lib/\?lib(.*)\.', r'bin/cyg\1.', fname)
            fname = re.sub(r'\?lib(.*)\.dll$', r'cyg\1.dll', fname)
            fname = re.sub(r'/\?lib/', r'/bin/', fname)
        else:
            fname = re.sub(r'\?lib', 'lib', fname)

    if fname.endswith('?exe'):
        fname = fname[:-4]
        if env.machines.host.is_windows() or env.machines.host.is_cygwin():
            return fname + '.exe'

    if fname.startswith('?msvc:'):
        fname = fname[6:]
        if canonical_compiler != 'msvc':
            return None

    if fname.startswith('?gcc:'):
        fname = fname[5:]
        if canonical_compiler == 'msvc':
            return None

    if fname.startswith('?cygwin:'):
        fname = fname[8:]
        if not env.machines.host.is_cygwin():
            return None

    if fname.startswith('?!cygwin:'):
        fname = fname[9:]
        if env.machines.host.is_cygwin():
            return None

    if fname.endswith('?so'):
        if env.machines.host.is_windows() and canonical_compiler == 'msvc':
            fname = re.sub(r'lib/([^/]*)\?so$', r'bin/\1.dll', fname)
            fname = re.sub(r'/(?:lib|)([^/]*?)\?so$', r'/\1.dll', fname)
            return fname
        elif env.machines.host.is_windows():
            fname = re.sub(r'lib/([^/]*)\?so$', r'bin/\1.dll', fname)
            fname = re.sub(r'/([^/]*?)\?so$', r'/\1.dll', fname)
            return fname
        elif env.machines.host.is_cygwin():
            fname = re.sub(r'lib/([^/]*)\?so$', r'bin/\1.dll', fname)
            fname = re.sub(r'/lib([^/]*?)\?so$', r'/cyg\1.dll', fname)
            fname = re.sub(r'/([^/]*?)\?so$', r'/\1.dll', fname)
            return fname
        elif env.machines.host.is_darwin():
            return fname[:-3] + '.dylib'
        else:
            return fname[:-3] + '.so'

    if fname.endswith('?implib') or fname.endswith('?implibempty'):
        if env.machines.host.is_windows() and canonical_compiler == 'msvc':
            # only MSVC doesn't generate empty implibs
            if fname.endswith('?implibempty') and compiler == 'msvc':
                return None
            return re.sub(r'/(?:lib|)([^/]*?)\?implib(?:empty|)$', r'/\1.lib', fname)
        elif env.machines.host.is_windows() or env.machines.host.is_cygwin():
            return re.sub(r'\?implib(?:empty|)$', r'.dll.a', fname)
        else:
            return None

    return fname

def validate_install(srcdir: Path, installdir: Path, compiler, env) -> str:
    # List of installed files
    info_file = srcdir / 'installed_files.txt'
    expected = {}  # type: T.Dict[Path, bool]
    ret_msg = ''
    # Generate list of expected files
    if info_file.is_file():
        with info_file.open() as f:
            for line in f:
                line = platform_fix_name(line.strip(), compiler, env)
                if line:
                    expected[Path(line)] = False
    # Check if expected files were found
    for fname in expected:
        file_path = installdir / fname
        if file_path.is_file() or file_path.is_symlink():
            expected[fname] = True
    for (fname, found) in expected.items():
        if not found:
            ret_msg += 'Expected file {} missing.\n'.format(fname)
    # Check if there are any unexpected files
    found = get_relative_files_list_from_dir(installdir)
    for fname in found:
        if fname not in expected:
            ret_msg += 'Extra file {} found.\n'.format(fname)
    if ret_msg != '':
        ret_msg += '\nInstall dir contents:\n'
        for i in found:
            ret_msg += '  - {}'.format(i)
    return ret_msg

def log_text_file(logfile, testdir, stdo, stde):
    global stop, executor, futures
    logfile.write('%s\nstdout\n\n---\n' % testdir.as_posix())
    logfile.write(stdo)
    logfile.write('\n\n---\n\nstderr\n\n---\n')
    logfile.write(stde)
    logfile.write('\n\n---\n\n')
    if print_debug:
        try:
            print(stdo)
        except UnicodeError:
            sanitized_out = stdo.encode('ascii', errors='replace').decode()
            print(sanitized_out)
        try:
            print(stde, file=sys.stderr)
        except UnicodeError:
            sanitized_err = stde.encode('ascii', errors='replace').decode()
            print(sanitized_err, file=sys.stderr)
    if stop:
        print("Aborting..")
        for f in futures:
            f[2].cancel()
        executor.shutdown()
        raise StopException()


def bold(text):
    return mlog.bold(text).get_text(mlog.colorize_console)


def green(text):
    return mlog.green(text).get_text(mlog.colorize_console)


def red(text):
    return mlog.red(text).get_text(mlog.colorize_console)


def yellow(text):
    return mlog.yellow(text).get_text(mlog.colorize_console)


def _run_ci_include(args: T.List[str]) -> str:
    if not args:
        return 'At least one parameter required'
    try:
        file_path = Path(args[0])
        data = file_path.open(errors='ignore', encoding='utf-8').read()
        return 'Included file {}:\n{}\n'.format(args[0], data)
    except Exception:
        return 'Failed to open {} ({})'.format(args[0])

ci_commands = {
    'ci_include': _run_ci_include
}

def run_ci_commands(raw_log: str) -> T.List[str]:
    res = []
    for l in raw_log.splitlines():
        if not l.startswith('!meson_ci!/'):
            continue
        cmd = shlex.split(l[11:])
        if not cmd or cmd[0] not in ci_commands:
            continue
        res += ['CI COMMAND {}:\n{}\n'.format(cmd[0], ci_commands[cmd[0]](cmd[1:]))]
    return res


def run_test_inprocess(testdir):
    old_stdout = sys.stdout
    sys.stdout = mystdout = StringIO()
    old_stderr = sys.stderr
    sys.stderr = mystderr = StringIO()
    old_cwd = os.getcwd()
    os.chdir(testdir)
    test_log_fname = Path('meson-logs', 'testlog.txt')
    try:
        returncode_test = mtest.run_with_args(['--no-rebuild'])
        if test_log_fname.exists():
            test_log = test_log_fname.open(errors='ignore').read()
        else:
            test_log = ''
        returncode_benchmark = mtest.run_with_args(['--no-rebuild', '--benchmark', '--logbase', 'benchmarklog'])
    finally:
        sys.stdout = old_stdout
        sys.stderr = old_stderr
        os.chdir(old_cwd)
    return max(returncode_test, returncode_benchmark), mystdout.getvalue(), mystderr.getvalue(), test_log

def parse_test_args(testdir):
    args = []
    try:
        with open(os.path.join(testdir, 'test_args.txt'), 'r') as f:
            content = f.read()
            try:
                args = literal_eval(content)
            except Exception:
                raise Exception('Malformed test_args file.')
            args = stringlistify(args)
    except FileNotFoundError:
        pass
    return args

# Build directory name must be the same so Ccache works over
# consecutive invocations.
def create_deterministic_builddir(test: TestDef) -> str:
    import hashlib
    src_dir = test.path.as_posix()
    if test.name:
        src_dir += test.name
    rel_dirname = 'b ' + hashlib.sha256(src_dir.encode(errors='ignore')).hexdigest()[0:10]
    os.mkdir(rel_dirname)
    abs_pathname = os.path.join(os.getcwd(), rel_dirname)
    return abs_pathname

def run_test(test: TestDef, extra_args, compiler, backend, flags, commands, should_fail):
    if test.skip:
        return None
    with AutoDeletedDir(create_deterministic_builddir(test)) as build_dir:
        with AutoDeletedDir(tempfile.mkdtemp(prefix='i ', dir=os.getcwd())) as install_dir:
            try:
                return _run_test(test, build_dir, install_dir, extra_args, compiler, backend, flags, commands, should_fail)
            finally:
                mlog.shutdown() # Close the log file because otherwise Windows wets itself.

def pass_prefix_to_test(dirname: Path):
    if '39 prefix absolute' in dirname.name:
        return False
    return True

def pass_libdir_to_test(dirname: Path):
    if '8 install' in dirname.name:
        return False
    if '38 libdir must be inside prefix' in dirname.name:
        return False
    if '195 install_mode' in dirname.name:
        return False
    return True

def _run_test(test: TestDef, test_build_dir: str, install_dir: str, extra_args, compiler, backend, flags, commands, should_fail):
    compile_commands, clean_commands, install_commands, uninstall_commands = commands
    test_args = parse_test_args(testdir)
    gen_start = time.time()
    # Configure in-process
    if pass_prefix_to_test(test.path):
        gen_args = ['--prefix', 'x:/usr'] if mesonlib.is_windows() else ['--prefix', '/usr']
    else:
        gen_args = []
    if pass_libdir_to_test(test.path):
        gen_args += ['--libdir', 'lib']
    gen_args += [test.path.as_posix(), test_build_dir] + flags + extra_args
    nativefile = test.path / 'nativefile.ini'
    crossfile = test.path / 'crossfile.ini'
    if nativefile.exists():
        gen_args.extend(['--native-file', nativefile.as_posix()])
    if crossfile.exists():
        gen_args.extend(['--cross-file', crossfile.as_posix()])
    (returncode, stdo, stde) = run_configure(gen_args, env=test.env)
    try:
        logfile = Path(test_build_dir, 'meson-logs', 'meson-log.txt')
        mesonlog = logfile.open(errors='ignore', encoding='utf-8').read()
    except Exception:
        mesonlog = no_meson_log_msg
    cicmds = run_ci_commands(mesonlog)
    testresult = TestResult(cicmds)
    testresult.add_step(BuildStep.configure, stdo, stde, mesonlog, time.time() - gen_start)
    if should_fail == 'meson':
        if returncode == 1:
            return testresult
        elif returncode != 0:
            testresult.fail('Test exited with unexpected status {}.'.format(returncode))
            return testresult
        else:
            testresult.fail('Test that should have failed succeeded.')
            return testresult
    if returncode != 0:
        testresult.fail('Generating the build system failed.')
        return testresult
    builddata = build.load(test_build_dir)
    # Touch the meson.build file to force a regenerate so we can test that
    # regeneration works before a build is run.
    ensure_backend_detects_changes(backend)
    os.utime(str(test.path / 'meson.build'))
    # Build with subprocess
    dir_args = get_backend_args_for_dir(backend, test_build_dir)
    build_start = time.time()
    pc, o, e = Popen_safe(compile_commands + dir_args, cwd=test_build_dir)
    testresult.add_step(BuildStep.build, o, e, '', time.time() - build_start)
    if should_fail == 'build':
        if pc.returncode != 0:
            return testresult
        testresult.fail('Test that should have failed to build succeeded.')
        return testresult
    if pc.returncode != 0:
        testresult.fail('Compiling source code failed.')
        return testresult
    # Touch the meson.build file to force a regenerate so we can test that
    # regeneration works after a build is complete.
    ensure_backend_detects_changes(backend)
    os.utime(str(test.path / 'meson.build'))
    test_start = time.time()
    # Test in-process
    (returncode, tstdo, tstde, test_log) = run_test_inprocess(test_build_dir)
    testresult.add_step(BuildStep.test, tstdo, tstde, test_log, time.time() - test_start)
    if should_fail == 'test':
        if returncode != 0:
            return testresult
        testresult.fail('Test that should have failed to run unit tests succeeded.')
        return testresult
    if returncode != 0:
        testresult.fail('Running unit tests failed.')
        return testresult
    # Do installation, if the backend supports it
    if install_commands:
        env = os.environ.copy()
        env['DESTDIR'] = install_dir
        # Install with subprocess
        pi, o, e = Popen_safe(install_commands, cwd=test_build_dir, env=env)
        testresult.add_step(BuildStep.install, o, e)
        if pi.returncode != 0:
            testresult.fail('Running install failed.')
            return testresult

    # Clean with subprocess
    env = os.environ.copy()
    pi, o, e = Popen_safe(clean_commands + dir_args, cwd=test_build_dir, env=env)
    testresult.add_step(BuildStep.clean, o, e)
    if pi.returncode != 0:
        testresult.fail('Running clean failed.')
        return testresult

    # Validate installed files
    testresult.add_step(BuildStep.install, '', '')
    if not install_commands:
        return testresult
    install_msg = validate_install(test.path, Path(install_dir), compiler, builddata.environment)
    if install_msg:
        testresult.fail(install_msg)
        return testresult

    return testresult

def gather_tests(testdir: Path) -> T.List[TestDef]:
    tests = [t.name for t in testdir.iterdir() if t.is_dir()]
    tests = [t for t in tests if not t.startswith('.')]  # Filter non-tests files (dot files, etc)
    test_defs = [TestDef(testdir / t, None, []) for t in tests]
    all_tests = []  # type: T.List[TestDef]
    for t in test_defs:
        test_def_file = t.path / 'test.json'
        if not test_def_file.is_file():
            all_tests += [t]
            continue

        test_def = json.loads(test_def_file.read_text())

        # Handle additional environment variables
        env = None  # type: T.Dict[str, str]
        if 'env' in test_def:
            assert isinstance(test_def['env'], dict)
            env = test_def['env']
            for key, val in env.items():
                val = val.replace('@ROOT@', t.path.resolve().as_posix())
                env[key] = val

        # Skip the matrix code and just update the existing test
        if 'matrix' not in test_def:
            t.env.update(env)
            all_tests += [t]
            continue

        # 'matrix; entry is present, so build multiple tests from matrix definition
        opt_list = []  # type: T.List[T.List[T.Tuple[str, bool]]]
        matrix = test_def['matrix']
        assert "options" in matrix
        for key, val in matrix["options"].items():
            assert isinstance(val, list)
            tmp_opts = []  # type: T.List[T.Tuple[str, bool]]
            for i in val:
                assert isinstance(i, dict)
                assert "val" in i
                skip = False

                # Add an empty matrix entry
                if i['val'] is None:
                    tmp_opts += [(None, False)]
                    continue

                # Skip the matrix entry if environment variable is present
                if 'skip_on_env' in i:
                    for skip_env_var in i['skip_on_env']:
                        if skip_env_var in os.environ:
                            skip = True

                # Only run the test if all compiler ID's match
                if 'compilers' in i:
                    for lang, id_list in i['compilers'].items():
                        if lang not in compiler_id_map or compiler_id_map[lang] not in id_list:
                            skip = True
                            break

                tmp_opts += [('{}={}'.format(key, i['val']), skip)]

            if opt_list:
                new_opt_list = []  # type: T.List[T.List[T.Tuple[str, bool]]]
                for i in opt_list:
                    for j in tmp_opts:
                        new_opt_list += [[*i, j]]
                opt_list = new_opt_list
            else:
                opt_list = [[x] for x in tmp_opts]

        # Exclude specific configurations
        if 'exclude' in matrix:
            assert isinstance(matrix['exclude'], list)
            new_opt_list = []  # type: T.List[T.List[T.Tuple[str, bool]]]
            for i in opt_list:
                exclude = False
                opt_names = [x[0] for x in i]
                for j in matrix['exclude']:
                    ex_list = ['{}={}'.format(k, v) for k, v in j.items()]
                    if all([x in opt_names for x in ex_list]):
                        exclude = True
                        break

                if not exclude:
                    new_opt_list += [i]

            opt_list = new_opt_list

        for i in opt_list:
            name = ' '.join([x[0] for x in i if x[0] is not None])
            opts = ['-D' + x[0] for x in i if x[0] is not None]
            skip = any([x[1] for x in i])
            all_tests += [TestDef(t.path, name, opts, skip, env_update=env)]

    return sorted(all_tests)

def have_d_compiler():
    if shutil.which("ldc2"):
        return True
    elif shutil.which("ldc"):
        return True
    elif shutil.which("gdc"):
        return True
    elif shutil.which("dmd"):
        # The Windows installer sometimes produces a DMD install
        # that exists but segfaults every time the compiler is run.
        # Don't know why. Don't know how to fix. Skip in this case.
        cp = subprocess.run(['dmd', '--version'],
                            stdout=subprocess.PIPE,
                            stderr=subprocess.PIPE)
        if cp.stdout == b'':
            return False
        return True
    return False

def have_objc_compiler():
    with AutoDeletedDir(tempfile.mkdtemp(prefix='b ', dir='.')) as build_dir:
        env = environment.Environment(None, build_dir, get_fake_options('/'))
        try:
            objc_comp = env.detect_objc_compiler(MachineChoice.HOST)
        except mesonlib.MesonException:
            return False
        if not objc_comp:
            return False
        env.coredata.process_new_compiler('objc', objc_comp, env)
        try:
            objc_comp.sanity_check(env.get_scratch_dir(), env)
        except mesonlib.MesonException:
            return False
    return True

def have_objcpp_compiler():
    with AutoDeletedDir(tempfile.mkdtemp(prefix='b ', dir='.')) as build_dir:
        env = environment.Environment(None, build_dir, get_fake_options('/'))
        try:
            objcpp_comp = env.detect_objcpp_compiler(MachineChoice.HOST)
        except mesonlib.MesonException:
            return False
        if not objcpp_comp:
            return False
        env.coredata.process_new_compiler('objcpp', objcpp_comp, env)
        try:
            objcpp_comp.sanity_check(env.get_scratch_dir(), env)
        except mesonlib.MesonException:
            return False
    return True

def have_java():
    if shutil.which('javac') and shutil.which('java'):
        return True
    return False

def skippable(suite, test):
    # Everything is optional when not running on CI, or on Ubuntu 16.04 CI
    if not under_ci or under_xenial_ci:
        return True

    if not suite.endswith('frameworks'):
        return True

    # this test assumptions aren't valid for Windows paths
    if test.endswith('38 libdir must be inside prefix'):
        return True

    # gtk-doc test may be skipped, pending upstream fixes for spaces in
    # filenames landing in the distro used for CI
    if test.endswith('10 gtk-doc'):
        return True

    # NetCDF is not in the CI Docker image
    if test.endswith('netcdf'):
        return True

    # MSVC doesn't link with GFortran
    if test.endswith('14 fortran links c'):
        return True

    # Blocks are not supported on all compilers
    if test.endswith('29 blocks'):
        return True

    # Scientific libraries are skippable on certain systems
    # See the discussion here: https://github.com/mesonbuild/meson/pull/6562
    if any([test.endswith(x) for x in ['17 mpi', '25 hdf5', '30 scalapack']]) and skip_scientific:
        return True

    # No frameworks test should be skipped on linux CI, as we expect all
    # prerequisites to be installed
    if mesonlib.is_linux():
        return False

    # Boost test should only be skipped for windows CI build matrix entries
    # which don't define BOOST_ROOT
    if test.endswith('1 boost'):
        if mesonlib.is_windows():
            return 'BOOST_ROOT' not in os.environ
        return False

    # Qt is provided on macOS by Homebrew
    if test.endswith('4 qt') and mesonlib.is_osx():
        return False

    # Other framework tests are allowed to be skipped on other platforms
    return True

def skip_csharp(backend) -> bool:
    if backend is not Backend.ninja:
        return True
    if not shutil.which('resgen'):
        return True
    if shutil.which('mcs'):
        return False
    if shutil.which('csc'):
        # Only support VS2017 for now. Earlier versions fail
        # under CI in mysterious ways.
        try:
            stdo = subprocess.check_output(['csc', '/version'])
        except subprocess.CalledProcessError:
            return True
        # Having incrementing version numbers would be too easy.
        # Microsoft reset the versioning back to 1.0 (from 4.x)
        # when they got the Roslyn based compiler. Thus there
        # is NO WAY to reliably do version number comparisons.
        # Only support the version that ships with VS2017.
        return not stdo.startswith(b'2.')
    return True

# In Azure some setups have a broken rustc that will error out
# on all compilation attempts.

def has_broken_rustc() -> bool:
    dirname = 'brokenrusttest'
    if os.path.exists(dirname):
        mesonlib.windows_proof_rmtree(dirname)
    os.mkdir(dirname)
    open(dirname + '/sanity.rs', 'w').write('''fn main() {
}
''')
    pc = subprocess.run(['rustc', '-o', 'sanity.exe', 'sanity.rs'],
                        cwd=dirname,
                        stdout = subprocess.DEVNULL,
                        stderr = subprocess.DEVNULL)
    mesonlib.windows_proof_rmtree(dirname)
    return pc.returncode != 0

def should_skip_rust(backend: Backend) -> bool:
    if not shutil.which('rustc'):
        return True
    if backend is not Backend.ninja:
        return True
    if mesonlib.is_windows() and has_broken_rustc():
        return True
    return False

def detect_tests_to_run(only: T.List[str]) -> T.List[T.Tuple[str, T.List[TestDef], bool]]:
    """
    Parameters
    ----------
    only: list of str, optional
        specify names of tests to run

    Returns
    -------
    gathered_tests: list of tuple of str, list of TestDef, bool
        tests to run
    """

    skip_fortran = not(shutil.which('gfortran') or
                       shutil.which('flang') or
                       shutil.which('pgfortran') or
                       shutil.which('ifort'))

    # Name, subdirectory, skip condition.
    all_tests = [
        ('cmake', 'cmake', not shutil.which('cmake') or (os.environ.get('compiler') == 'msvc2015' and under_ci)),
        ('common', 'common', False),
        ('warning-meson', 'warning', False),
        ('failing-meson', 'failing', False),
        ('failing-build', 'failing build', False),
        ('failing-test',  'failing test', False),
        ('kconfig', 'kconfig', False),

        ('platform-osx', 'osx', not mesonlib.is_osx()),
        ('platform-windows', 'windows', not mesonlib.is_windows() and not mesonlib.is_cygwin()),
        ('platform-linux', 'linuxlike', mesonlib.is_osx() or mesonlib.is_windows()),

        ('java', 'java', backend is not Backend.ninja or mesonlib.is_osx() or not have_java()),
        ('C#', 'csharp', skip_csharp(backend)),
        ('vala', 'vala', backend is not Backend.ninja or not shutil.which(os.environ.get('VALAC', 'valac'))),
        ('rust', 'rust', should_skip_rust(backend)),
        ('d', 'd', backend is not Backend.ninja or not have_d_compiler()),
        ('objective c', 'objc', backend not in (Backend.ninja, Backend.xcode) or not have_objc_compiler()),
        ('objective c++', 'objcpp', backend not in (Backend.ninja, Backend.xcode) or not have_objcpp_compiler()),
        ('fortran', 'fortran', skip_fortran or backend != Backend.ninja),
        ('swift', 'swift', backend not in (Backend.ninja, Backend.xcode) or not shutil.which('swiftc')),
        # CUDA tests on Windows: use Ninja backend:  python run_project_tests.py --only cuda --backend ninja
        ('cuda', 'cuda', backend not in (Backend.ninja, Backend.xcode) or not shutil.which('nvcc')),
        ('python3', 'python3', backend is not Backend.ninja),
        ('python', 'python', backend is not Backend.ninja),
        ('fpga', 'fpga', shutil.which('yosys') is None),
        ('frameworks', 'frameworks', False),
        ('nasm', 'nasm', False),
        ('wasm', 'wasm', shutil.which('emcc') is None or backend is not Backend.ninja),
    ]

    names = [t[0] for t in all_tests]
    assert names == ALL_TESTS, 'argparse("--only", choices=ALL_TESTS) need to be updated to match all_tests names'
    if only:
        ind = [names.index(o) for o in only]
        all_tests = [all_tests[i] for i in ind]
    gathered_tests = [(name, gather_tests(Path('test cases', subdir)), skip) for name, subdir, skip in all_tests]
    return gathered_tests

def run_tests(all_tests: T.List[T.Tuple[str, T.List[TestDef], bool]],
              log_name_base: str, failfast: bool,
              extra_args: T.List[str]) -> T.Tuple[int, int, int]:
    global logfile
    txtname = log_name_base + '.txt'
    with open(txtname, 'w', encoding='utf-8', errors='ignore') as lf:
        logfile = lf
        return _run_tests(all_tests, log_name_base, failfast, extra_args)

def _run_tests(all_tests: T.List[T.Tuple[str, T.List[TestDef], bool]],
               log_name_base: str, failfast: bool,
               extra_args: T.List[str]) -> T.Tuple[int, int, int]:
    global stop, executor, futures, system_compiler
    xmlname = log_name_base + '.xml'
    junit_root = ET.Element('testsuites')
    conf_time = 0
    build_time = 0
    test_time = 0
    passing_tests = 0
    failing_tests = 0
    skipped_tests = 0
    commands = (compile_commands, clean_commands, install_commands, uninstall_commands)

    try:
        # This fails in some CI environments for unknown reasons.
        num_workers = multiprocessing.cpu_count()
    except Exception as e:
        print('Could not determine number of CPUs due to the following reason:' + str(e))
        print('Defaulting to using only one process')
        num_workers = 1
    # Due to Ninja deficiency, almost 50% of build time
    # is spent waiting. Do something useful instead.
    #
    # Remove this once the following issue has been resolved:
    # https://github.com/mesonbuild/meson/pull/2082
    if not mesonlib.is_windows():  # twice as fast on Windows by *not* multiplying by 2.
        num_workers *= 2
    executor = ProcessPoolExecutor(max_workers=num_workers)

    for name, test_cases, skipped in all_tests:
        current_suite = ET.SubElement(junit_root, 'testsuite', {'name': name, 'tests': str(len(test_cases))})
        print()
        if skipped:
            print(bold('Not running %s tests.' % name))
        else:
            print(bold('Running %s tests.' % name))
        print()
        futures = []
        for t in test_cases:
            # Jenkins screws us over by automatically sorting test cases by name
            # and getting it wrong by not doing logical number sorting.
            (testnum, testbase) = t.path.name.split(' ', 1)
            testname = '%.3d %s' % (int(testnum), testbase)
            if t.name:
                testname += ' ({})'.format(t.name)
            should_fail = False
            suite_args = []
            if name.startswith('failing'):
                should_fail = name.split('failing-')[1]
            if name.startswith('warning'):
                suite_args = ['--fatal-meson-warnings']
                should_fail = name.split('warning-')[1]

            t.skip = skipped or t.skip
            result = executor.submit(run_test, t, extra_args + suite_args + t.args,
                                     system_compiler, backend, backend_flags, commands, should_fail)
            futures.append((testname, t, result))
        for (testname, t, result) in futures:
            sys.stdout.flush()
            try:
                result = result.result()
            except CancelledError:
                continue
            if (result is None) or (('MESON_SKIP_TEST' in result.stdo) and (skippable(name, t.path.as_posix()))):
                print(yellow('Skipping:'), t.display_name())
                current_test = ET.SubElement(current_suite, 'testcase', {'name': testname,
                                                                         'classname': name})
                ET.SubElement(current_test, 'skipped', {})
                skipped_tests += 1
            else:
                without_install = "" if len(install_commands) > 0 else " (without install)"
                if result.msg != '':
                    print(red('Failed test{} during {}: {!r}'.format(without_install, result.step.name, t.display_name())))
                    print('Reason:', result.msg)
                    failing_tests += 1
                    if result.step == BuildStep.configure and result.mlog != no_meson_log_msg:
                        # For configure failures, instead of printing stdout,
                        # print the meson log if available since it's a superset
                        # of stdout and often has very useful information.
                        failing_logs.append(result.mlog)
                    elif under_ci:
                        # Always print the complete meson log when running in
                        # a CI. This helps debugging issues that only occur in
                        # a hard to reproduce environment
                        failing_logs.append(result.mlog)
                        failing_logs.append(result.stdo)
                    else:
                        failing_logs.append(result.stdo)
                    for cmd_res in result.cicmds:
                        failing_logs.append(cmd_res)
                    failing_logs.append(result.stde)
                    if failfast:
                        print("Cancelling the rest of the tests")
                        for (_, _, res) in futures:
                            res.cancel()
                else:
                    print('Succeeded test%s: %s' % (without_install, t.display_name()))
                    passing_tests += 1
                conf_time += result.conftime
                build_time += result.buildtime
                test_time += result.testtime
                total_time = conf_time + build_time + test_time
                log_text_file(logfile, t.path, result.stdo, result.stde)
                current_test = ET.SubElement(current_suite, 'testcase', {'name': testname,
                                                                         'classname': name,
                                                                         'time': '%.3f' % total_time})
                if result.msg != '':
                    ET.SubElement(current_test, 'failure', {'message': result.msg})
                stdoel = ET.SubElement(current_test, 'system-out')
                stdoel.text = result.stdo
                stdeel = ET.SubElement(current_test, 'system-err')
                stdeel.text = result.stde

            if failfast and failing_tests > 0:
                break

    print("\nTotal configuration time: %.2fs" % conf_time)
    print("Total build time: %.2fs" % build_time)
    print("Total test time: %.2fs" % test_time)
    ET.ElementTree(element=junit_root).write(xmlname, xml_declaration=True, encoding='UTF-8')
    return passing_tests, failing_tests, skipped_tests

def check_file(file: Path):
    lines = file.read_bytes().split(b'\n')
    tabdetector = re.compile(br' *\t')
    for i, line in enumerate(lines):
        if re.match(tabdetector, line):
            raise SystemExit("File {} contains a tab indent on line {:d}. Only spaces are permitted.".format(file, i + 1))
        if line.endswith(b'\r'):
            raise SystemExit("File {} contains DOS line ending on line {:d}. Only unix-style line endings are permitted.".format(file, i + 1))

def check_format():
    check_suffixes = {'.c',
                      '.cpp',
                      '.cxx',
                      '.cc',
                      '.rs',
                      '.f90',
                      '.vala',
                      '.d',
                      '.s',
                      '.m',
                      '.mm',
                      '.asm',
                      '.java',
                      '.txt',
                      '.py',
                      '.swift',
                      '.build',
                      '.md',
                      }
    for (root, _, filenames) in os.walk('.'):
        if '.dub' in root: # external deps are here
            continue
        if '.pytest_cache' in root:
            continue
        if 'meson-logs' in root or 'meson-private' in root:
            continue
        if '__CMake_build' in root:
            continue
        if '.eggs' in root or '_cache' in root:  # e.g. .mypy_cache
            continue
        for fname in filenames:
            file = Path(fname)
            if file.suffix.lower() in check_suffixes:
                if file.name in ('sitemap.txt', 'meson-test-run.txt'):
                    continue
                check_file(root / file)

def check_meson_commands_work(options):
    global backend, compile_commands, test_commands, install_commands
    testdir = PurePath('test cases', 'common', '1 trivial').as_posix()
    meson_commands = mesonlib.python_command + [get_meson_script()]
    with AutoDeletedDir(tempfile.mkdtemp(prefix='b ', dir='.')) as build_dir:
        print('Checking that configuring works...')
        gen_cmd = meson_commands + [testdir, build_dir] + backend_flags + options.extra_args
        pc, o, e = Popen_safe(gen_cmd)
        if pc.returncode != 0:
            raise RuntimeError('Failed to configure {!r}:\n{}\n{}'.format(testdir, e, o))
        print('Checking that building works...')
        dir_args = get_backend_args_for_dir(backend, build_dir)
        pc, o, e = Popen_safe(compile_commands + dir_args, cwd=build_dir)
        if pc.returncode != 0:
            raise RuntimeError('Failed to build {!r}:\n{}\n{}'.format(testdir, e, o))
        print('Checking that testing works...')
        pc, o, e = Popen_safe(test_commands, cwd=build_dir)
        if pc.returncode != 0:
            raise RuntimeError('Failed to test {!r}:\n{}\n{}'.format(testdir, e, o))
        if install_commands:
            print('Checking that installing works...')
            pc, o, e = Popen_safe(install_commands, cwd=build_dir)
            if pc.returncode != 0:
                raise RuntimeError('Failed to install {!r}:\n{}\n{}'.format(testdir, e, o))


def detect_system_compiler(options):
    global system_compiler, compiler_id_map

    with AutoDeletedDir(tempfile.mkdtemp(prefix='b ', dir='.')) as build_dir:
        fake_opts = get_fake_options('/')
        if options.cross_file:
            fake_opts.cross_file = [options.cross_file]
        env = environment.Environment(None, build_dir, fake_opts)
        print()
        for lang in sorted(compilers.all_languages):
            try:
                comp = env.compiler_from_language(lang, MachineChoice.HOST)
                details = '{:<10} {} {}'.format('[' + comp.get_id() + ']', ' '.join(comp.get_exelist()), comp.get_version_string())
                compiler_id_map[lang] = comp.get_id()
            except mesonlib.MesonException:
                comp = None
                details = '[not found]'
            print('%-7s: %s' % (lang, details))

            # note C compiler for later use by platform_fix_name()
            if lang == 'c':
                if comp:
                    system_compiler = comp.get_id()
                else:
                    raise RuntimeError("Could not find C compiler.")
        print()

def print_tool_versions():
    tools = [
        {
            'tool': 'cmake',
            'args': ['--version'],
            'regex': re.compile(r'^cmake version ([0-9]+(\.[0-9]+)*(-[a-z0-9]+)?)$'),
            'match_group': 1,
        },
    ]

    def get_version(t: dict) -> str:
        exe = shutil.which(t['tool'])
        if not exe:
            return 'not found'

        args = [t['tool']] + t['args']
        pc, o, e = Popen_safe(args)
        if pc.returncode != 0:
            return '{} (invalid {} executable)'.format(exe, t['tool'])
        for i in o.split('\n'):
            i = i.strip('\n\r\t ')
            m = t['regex'].match(i)
            if m is not None:
                return '{} ({})'.format(exe, m.group(t['match_group']))

        return '{} (unknown)'.format(exe)

    max_width = max([len(x['tool']) for x in tools] + [7])
    for tool in tools:
        print('{0:<{2}}: {1}'.format(tool['tool'], get_version(tool), max_width))
    print()

if __name__ == '__main__':
    parser = argparse.ArgumentParser(description="Run the test suite of Meson.")
    parser.add_argument('extra_args', nargs='*',
                        help='arguments that are passed directly to Meson (remember to have -- before these).')
    parser.add_argument('--backend', dest='backend', choices=backendlist)
    parser.add_argument('--failfast', action='store_true',
                        help='Stop running if test case fails')
    parser.add_argument('--no-unittests', action='store_true',
                        help='Not used, only here to simplify run_tests.py')
    parser.add_argument('--only', help='name of test(s) to run', nargs='+', choices=ALL_TESTS)
    parser.add_argument('--cross-file', action='store', help='File describing cross compilation environment.')
    options = parser.parse_args()
    if options.cross_file:
        options.extra_args += ['--cross-file', options.cross_file]

    setup_commands(options.backend)
    detect_system_compiler(options)
    print_tool_versions()
    script_dir = os.path.split(__file__)[0]
    if script_dir != '':
        os.chdir(script_dir)
    check_format()
    check_meson_commands_work(options)
    try:
        all_tests = detect_tests_to_run(options.only)
        (passing_tests, failing_tests, skipped_tests) = run_tests(all_tests, 'meson-test-run', options.failfast, options.extra_args)
    except StopException:
        pass
    print('\nTotal passed tests:', green(str(passing_tests)))
    print('Total failed tests:', red(str(failing_tests)))
    print('Total skipped tests:', yellow(str(skipped_tests)))
    if failing_tests > 0:
        print('\nMesonlogs of failing tests\n')
        for l in failing_logs:
            try:
                print(l, '\n')
            except UnicodeError:
                print(l.encode('ascii', errors='replace').decode(), '\n')
    for name, dirs, _ in all_tests:
        dir_names = list(set(x.path.name for x in dirs))
        for k, g in itertools.groupby(dir_names, key=lambda x: x.split()[0]):
            tests = list(g)
            if len(tests) != 1:
                print('WARNING: The %s suite contains duplicate "%s" tests: "%s"' % (name, k, '", "'.join(tests)))
    raise SystemExit(failing_tests)