# Copyright 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. # This class contains the basic functionality needed to run any interpreter # or an interpreter-based tool. import subprocess as S from pathlib import Path from threading import Thread import typing as T import re import os import shutil import ctypes import textwrap from .. import mlog, mesonlib from ..mesonlib import PerMachine, Popen_safe, version_compare, MachineChoice from ..environment import Environment from ..envconfig import get_env_var if T.TYPE_CHECKING: from ..dependencies.base import ExternalProgram TYPE_result = T.Tuple[int, T.Optional[str], T.Optional[str]] class CMakeExecutor: # The class's copy of the CMake path. Avoids having to search for it # multiple times in the same Meson invocation. class_cmakebin = PerMachine(None, None) class_cmakevers = PerMachine(None, None) class_cmake_cache = {} # type: T.Dict[T.Any, TYPE_result] def __init__(self, environment: Environment, version: str, for_machine: MachineChoice, silent: bool = False): self.min_version = version self.environment = environment self.for_machine = for_machine self.cmakebin, self.cmakevers = self.find_cmake_binary(self.environment, silent=silent) self.always_capture_stderr = True self.print_cmout = False self.prefix_paths = [] # type: T.List[str] self.extra_cmake_args = [] # type: T.List[str] if self.cmakebin is False: self.cmakebin = None return if not version_compare(self.cmakevers, self.min_version): mlog.warning( 'The version of CMake', mlog.bold(self.cmakebin.get_path()), 'is', mlog.bold(self.cmakevers), 'but version', mlog.bold(self.min_version), 'is required') self.cmakebin = None return self.prefix_paths = self.environment.coredata.builtins_per_machine[self.for_machine]['cmake_prefix_path'].value env_pref_path = get_env_var( self.for_machine, self.environment.is_cross_build(), 'CMAKE_PREFIX_PATH') if env_pref_path is not None: if mesonlib.is_windows(): # Cannot split on ':' on Windows because its in the drive letter env_pref_path = env_pref_path.split(os.pathsep) else: # https://github.com/mesonbuild/meson/issues/7294 env_pref_path = re.split(r':|;', env_pref_path) env_pref_path = [x for x in env_pref_path if x] # Filter out empty strings if not self.prefix_paths: self.prefix_paths = [] self.prefix_paths += env_pref_path if self.prefix_paths: self.extra_cmake_args += ['-DCMAKE_PREFIX_PATH={}'.format(';'.join(self.prefix_paths))] def find_cmake_binary(self, environment: Environment, silent: bool = False) -> T.Tuple['ExternalProgram', str]: from ..dependencies.base import find_external_program # Only search for CMake the first time and store the result in the class # definition if CMakeExecutor.class_cmakebin[self.for_machine] is False: mlog.debug('CMake binary for %s is cached as not found' % self.for_machine) elif CMakeExecutor.class_cmakebin[self.for_machine] is not None: mlog.debug('CMake binary for %s is cached.' % self.for_machine) else: assert CMakeExecutor.class_cmakebin[self.for_machine] is None mlog.debug('CMake binary for %s is not cached' % self.for_machine) for potential_cmakebin in find_external_program( environment, self.for_machine, 'cmake', 'CMake', environment.default_cmake, allow_default_for_cross=False): version_if_ok = self.check_cmake(potential_cmakebin) if not version_if_ok: continue if not silent: mlog.log('Found CMake:', mlog.bold(potential_cmakebin.get_path()), '(%s)' % version_if_ok) CMakeExecutor.class_cmakebin[self.for_machine] = potential_cmakebin CMakeExecutor.class_cmakevers[self.for_machine] = version_if_ok break else: if not silent: mlog.log('Found CMake:', mlog.red('NO')) # Set to False instead of None to signify that we've already # searched for it and not found it CMakeExecutor.class_cmakebin[self.for_machine] = False CMakeExecutor.class_cmakevers[self.for_machine] = None return CMakeExecutor.class_cmakebin[self.for_machine], CMakeExecutor.class_cmakevers[self.for_machine] def check_cmake(self, cmakebin: 'ExternalProgram') -> T.Optional[str]: if not cmakebin.found(): mlog.log('Did not find CMake {!r}'.format(cmakebin.name)) return None try: p, out = Popen_safe(cmakebin.get_command() + ['--version'])[0:2] if p.returncode != 0: mlog.warning('Found CMake {!r} but couldn\'t run it' ''.format(' '.join(cmakebin.get_command()))) return None except FileNotFoundError: mlog.warning('We thought we found CMake {!r} but now it\'s not there. How odd!' ''.format(' '.join(cmakebin.get_command()))) return None except PermissionError: msg = 'Found CMake {!r} but didn\'t have permissions to run it.'.format(' '.join(cmakebin.get_command())) if not mesonlib.is_windows(): msg += '\n\nOn Unix-like systems this is often caused by scripts that are not executable.' mlog.warning(msg) return None cmvers = re.search(r'(cmake|cmake3)\s*version\s*([\d.]+)', out).group(2) return cmvers def set_exec_mode(self, print_cmout: T.Optional[bool] = None, always_capture_stderr: T.Optional[bool] = None) -> None: if print_cmout is not None: self.print_cmout = print_cmout if always_capture_stderr is not None: self.always_capture_stderr = always_capture_stderr def _cache_key(self, args: T.List[str], build_dir: str, env): fenv = frozenset(env.items()) if env is not None else None targs = tuple(args) return (self.cmakebin, targs, build_dir, fenv) def _call_cmout_stderr(self, args: T.List[str], build_dir: str, env) -> TYPE_result: cmd = self.cmakebin.get_command() + args proc = S.Popen(cmd, stdout=S.PIPE, stderr=S.PIPE, cwd=build_dir, env=env) # stdout and stderr MUST be read at the same time to avoid pipe # blocking issues. The easiest way to do this is with a separate # thread for one of the pipes. def print_stdout(): while True: line = proc.stdout.readline() if not line: break mlog.log(line.decode(errors='ignore').strip('\n')) proc.stdout.close() t = Thread(target=print_stdout) t.start() try: # Read stderr line by line and log non trace lines raw_trace = '' tline_start_reg = re.compile(r'^\s*(.*\.(cmake|txt))\(([0-9]+)\):\s*(\w+)\(.*$') inside_multiline_trace = False while True: line = proc.stderr.readline() if not line: break line = line.decode(errors='ignore') if tline_start_reg.match(line): raw_trace += line inside_multiline_trace = not line.endswith(' )\n') elif inside_multiline_trace: raw_trace += line else: mlog.warning(line.strip('\n')) finally: proc.stderr.close() t.join() proc.wait() return proc.returncode, None, raw_trace def _call_cmout(self, args: T.List[str], build_dir: str, env) -> TYPE_result: cmd = self.cmakebin.get_command() + args proc = S.Popen(cmd, stdout=S.PIPE, stderr=S.STDOUT, cwd=build_dir, env=env) while True: line = proc.stdout.readline() if not line: break mlog.log(line.decode(errors='ignore').strip('\n')) proc.stdout.close() proc.wait() return proc.returncode, None, None def _call_quiet(self, args: T.List[str], build_dir: str, env) -> TYPE_result: os.makedirs(build_dir, exist_ok=True) cmd = self.cmakebin.get_command() + args ret = S.run(cmd, env=env, cwd=build_dir, close_fds=False, stdout=S.PIPE, stderr=S.PIPE, universal_newlines=False) rc = ret.returncode out = ret.stdout.decode(errors='ignore') err = ret.stderr.decode(errors='ignore') call = ' '.join(cmd) mlog.debug("Called `{}` in {} -> {}".format(call, build_dir, rc)) return rc, out, err def _call_impl(self, args: T.List[str], build_dir: str, env) -> TYPE_result: if not self.print_cmout: return self._call_quiet(args, build_dir, env) else: if self.always_capture_stderr: return self._call_cmout_stderr(args, build_dir, env) else: return self._call_cmout(args, build_dir, env) def call(self, args: T.List[str], build_dir: str, env=None, disable_cache: bool = False) -> TYPE_result: if env is None: env = os.environ args = args + self.extra_cmake_args if disable_cache: return self._call_impl(args, build_dir, env) # First check if cached, if not call the real cmake function cache = CMakeExecutor.class_cmake_cache key = self._cache_key(args, build_dir, env) if key not in cache: cache[key] = self._call_impl(args, build_dir, env) return cache[key] def call_with_fake_build(self, args: T.List[str], build_dir: str, env=None) -> TYPE_result: # First check the cache cache = CMakeExecutor.class_cmake_cache key = self._cache_key(args, build_dir, env) if key in cache: return cache[key] os.makedirs(build_dir, exist_ok=True) # Try to set the correct compiler for C and C++ # This step is required to make try_compile work inside CMake fallback = os.path.realpath(__file__) # A file used as a fallback wehen everything else fails compilers = self.environment.coredata.compilers[MachineChoice.BUILD] def make_abs(exe: str, lang: str) -> str: if os.path.isabs(exe): return exe p = shutil.which(exe) if p is None: mlog.debug('Failed to find a {} compiler for CMake. This might cause CMake to fail.'.format(lang)) p = fallback return p def choose_compiler(lang: str) -> T.Tuple[str, str]: exe_list = [] if lang in compilers: exe_list = compilers[lang].get_exelist() else: try: comp_obj = self.environment.compiler_from_language(lang, MachineChoice.BUILD) if comp_obj is not None: exe_list = comp_obj.get_exelist() except Exception: pass if len(exe_list) == 1: return make_abs(exe_list[0], lang), '' elif len(exe_list) == 2: return make_abs(exe_list[1], lang), make_abs(exe_list[0], lang) else: mlog.debug('Failed to find a {} compiler for CMake. This might cause CMake to fail.'.format(lang)) return fallback, '' c_comp, c_launcher = choose_compiler('c') cxx_comp, cxx_launcher = choose_compiler('cpp') fortran_comp, fortran_launcher = choose_compiler('fortran') # on Windows, choose_compiler returns path with \ as separator - replace by / before writing to CMAKE file c_comp = c_comp.replace('\\', '/') c_launcher = c_launcher.replace('\\', '/') cxx_comp = cxx_comp.replace('\\', '/') cxx_launcher = cxx_launcher.replace('\\', '/') fortran_comp = fortran_comp.replace('\\', '/') fortran_launcher = fortran_launcher.replace('\\', '/') # Reset the CMake cache (Path(build_dir) / 'CMakeCache.txt').write_text('CMAKE_PLATFORM_INFO_INITIALIZED:INTERNAL=1\n') # Fake the compiler files comp_dir = Path(build_dir) / 'CMakeFiles' / self.cmakevers comp_dir.mkdir(parents=True, exist_ok=True) c_comp_file = comp_dir / 'CMakeCCompiler.cmake' cxx_comp_file = comp_dir / 'CMakeCXXCompiler.cmake' fortran_comp_file = comp_dir / 'CMakeFortranCompiler.cmake' if c_comp and not c_comp_file.is_file(): c_comp_file.write_text(textwrap.dedent('''\ # Fake CMake file to skip the boring and slow stuff set(CMAKE_C_COMPILER "{}") # Should be a valid compiler for try_compile, etc. set(CMAKE_C_COMPILER_LAUNCHER "{}") # The compiler launcher (if presentt) set(CMAKE_C_COMPILER_ID "GNU") # Pretend we have found GCC set(CMAKE_COMPILER_IS_GNUCC 1) set(CMAKE_C_COMPILER_LOADED 1) set(CMAKE_C_COMPILER_WORKS TRUE) set(CMAKE_C_ABI_COMPILED TRUE) set(CMAKE_C_SOURCE_FILE_EXTENSIONS c;m) set(CMAKE_C_IGNORE_EXTENSIONS h;H;o;O;obj;OBJ;def;DEF;rc;RC) set(CMAKE_SIZEOF_VOID_P "{}") '''.format(c_comp, c_launcher, ctypes.sizeof(ctypes.c_voidp)))) if cxx_comp and not cxx_comp_file.is_file(): cxx_comp_file.write_text(textwrap.dedent('''\ # Fake CMake file to skip the boring and slow stuff set(CMAKE_CXX_COMPILER "{}") # Should be a valid compiler for try_compile, etc. set(CMAKE_CXX_COMPILER_LAUNCHER "{}") # The compiler launcher (if presentt) set(CMAKE_CXX_COMPILER_ID "GNU") # Pretend we have found GCC set(CMAKE_COMPILER_IS_GNUCXX 1) set(CMAKE_CXX_COMPILER_LOADED 1) set(CMAKE_CXX_COMPILER_WORKS TRUE) set(CMAKE_CXX_ABI_COMPILED TRUE) set(CMAKE_CXX_IGNORE_EXTENSIONS inl;h;hpp;HPP;H;o;O;obj;OBJ;def;DEF;rc;RC) set(CMAKE_CXX_SOURCE_FILE_EXTENSIONS C;M;c++;cc;cpp;cxx;mm;CPP) set(CMAKE_SIZEOF_VOID_P "{}") '''.format(cxx_comp, cxx_launcher, ctypes.sizeof(ctypes.c_voidp)))) if fortran_comp and not fortran_comp_file.is_file(): fortran_comp_file.write_text(textwrap.dedent('''\ # Fake CMake file to skip the boring and slow stuff set(CMAKE_Fortran_COMPILER "{}") # Should be a valid compiler for try_compile, etc. set(CMAKE_Fortran_COMPILER_LAUNCHER "{}") # The compiler launcher (if presentt) set(CMAKE_Fortran_COMPILER_ID "GNU") # Pretend we have found GCC set(CMAKE_COMPILER_IS_GNUG77 1) set(CMAKE_Fortran_COMPILER_LOADED 1) set(CMAKE_Fortran_COMPILER_WORKS TRUE) set(CMAKE_Fortran_ABI_COMPILED TRUE) set(CMAKE_Fortran_IGNORE_EXTENSIONS h;H;o;O;obj;OBJ;def;DEF;rc;RC) set(CMAKE_Fortran_SOURCE_FILE_EXTENSIONS f;F;fpp;FPP;f77;F77;f90;F90;for;For;FOR;f95;F95) set(CMAKE_SIZEOF_VOID_P "{}") '''.format(fortran_comp, fortran_launcher, ctypes.sizeof(ctypes.c_voidp)))) return self.call(args, build_dir, env) def found(self) -> bool: return self.cmakebin is not None def version(self) -> str: return self.cmakevers def executable_path(self) -> str: return self.cmakebin.get_path() def get_command(self) -> T.List[str]: return self.cmakebin.get_command() def get_cmake_prefix_paths(self) -> T.List[str]: return self.prefix_paths def machine_choice(self) -> MachineChoice: return self.for_machine