# SPDX-License-Identifier: GPL-2.0 # # Runs UML kernel, collects output, and handles errors. # # Copyright (C) 2019, Google LLC. # Author: Felix Guo <felixguoxiuping@gmail.com> # Author: Brendan Higgins <brendanhiggins@google.com> import importlib.abc import importlib.util import logging import subprocess import os import shlex import shutil import signal import threading from typing import Iterator, List, Optional, Tuple from types import FrameType import kunit_config import qemu_config KCONFIG_PATH = '.config' KUNITCONFIG_PATH = '.kunitconfig' OLD_KUNITCONFIG_PATH = 'last_used_kunitconfig' DEFAULT_KUNITCONFIG_PATH = 'tools/testing/kunit/configs/default.config' ALL_TESTS_CONFIG_PATH = 'tools/testing/kunit/configs/all_tests.config' UML_KCONFIG_PATH = 'tools/testing/kunit/configs/arch_uml.config' OUTFILE_PATH = 'test.log' ABS_TOOL_PATH = os.path.abspath(os.path.dirname(__file__)) QEMU_CONFIGS_DIR = os.path.join(ABS_TOOL_PATH, 'qemu_configs') class ConfigError(Exception): """Represents an error trying to configure the Linux kernel.""" class BuildError(Exception): """Represents an error trying to build the Linux kernel.""" class LinuxSourceTreeOperations: """An abstraction over command line operations performed on a source tree.""" def __init__(self, linux_arch: str, cross_compile: Optional[str]): self._linux_arch = linux_arch self._cross_compile = cross_compile def make_mrproper(self) -> None: try: subprocess.check_output(['make', 'mrproper'], stderr=subprocess.STDOUT) except OSError as e: raise ConfigError('Could not call make command: ' + str(e)) except subprocess.CalledProcessError as e: raise ConfigError(e.output.decode()) def make_arch_config(self, base_kunitconfig: kunit_config.Kconfig) -> kunit_config.Kconfig: return base_kunitconfig def make_olddefconfig(self, build_dir: str, make_options: Optional[List[str]]) -> None: command = ['make', 'ARCH=' + self._linux_arch, 'O=' + build_dir, 'olddefconfig'] if self._cross_compile: command += ['CROSS_COMPILE=' + self._cross_compile] if make_options: command.extend(make_options) print('Populating config with:\n$', ' '.join(command)) try: subprocess.check_output(command, stderr=subprocess.STDOUT) except OSError as e: raise ConfigError('Could not call make command: ' + str(e)) except subprocess.CalledProcessError as e: raise ConfigError(e.output.decode()) def make(self, jobs: int, build_dir: str, make_options: Optional[List[str]]) -> None: command = ['make', 'ARCH=' + self._linux_arch, 'O=' + build_dir, '--jobs=' + str(jobs)] if make_options: command.extend(make_options) if self._cross_compile: command += ['CROSS_COMPILE=' + self._cross_compile] print('Building with:\n$', ' '.join(command)) try: proc = subprocess.Popen(command, stderr=subprocess.PIPE, stdout=subprocess.DEVNULL) except OSError as e: raise BuildError('Could not call execute make: ' + str(e)) except subprocess.CalledProcessError as e: raise BuildError(e.output) _, stderr = proc.communicate() if proc.returncode != 0: raise BuildError(stderr.decode()) if stderr: # likely only due to build warnings print(stderr.decode()) def start(self, params: List[str], build_dir: str) -> subprocess.Popen: raise RuntimeError('not implemented!') class LinuxSourceTreeOperationsQemu(LinuxSourceTreeOperations): def __init__(self, qemu_arch_params: qemu_config.QemuArchParams, cross_compile: Optional[str]): super().__init__(linux_arch=qemu_arch_params.linux_arch, cross_compile=cross_compile) self._kconfig = qemu_arch_params.kconfig self._qemu_arch = qemu_arch_params.qemu_arch self._kernel_path = qemu_arch_params.kernel_path self._kernel_command_line = qemu_arch_params.kernel_command_line + ' kunit_shutdown=reboot' self._extra_qemu_params = qemu_arch_params.extra_qemu_params self._serial = qemu_arch_params.serial def make_arch_config(self, base_kunitconfig: kunit_config.Kconfig) -> kunit_config.Kconfig: kconfig = kunit_config.parse_from_string(self._kconfig) kconfig.merge_in_entries(base_kunitconfig) return kconfig def start(self, params: List[str], build_dir: str) -> subprocess.Popen: kernel_path = os.path.join(build_dir, self._kernel_path) qemu_command = ['qemu-system-' + self._qemu_arch, '-nodefaults', '-m', '1024', '-kernel', kernel_path, '-append', ' '.join(params + [self._kernel_command_line]), '-no-reboot', '-nographic', '-serial', self._serial] + self._extra_qemu_params # Note: shlex.join() does what we want, but requires python 3.8+. print('Running tests with:\n$', ' '.join(shlex.quote(arg) for arg in qemu_command)) return subprocess.Popen(qemu_command, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, text=True, errors='backslashreplace') class LinuxSourceTreeOperationsUml(LinuxSourceTreeOperations): """An abstraction over command line operations performed on a source tree.""" def __init__(self, cross_compile: Optional[str]=None): super().__init__(linux_arch='um', cross_compile=cross_compile) def make_arch_config(self, base_kunitconfig: kunit_config.Kconfig) -> kunit_config.Kconfig: kconfig = kunit_config.parse_file(UML_KCONFIG_PATH) kconfig.merge_in_entries(base_kunitconfig) return kconfig def start(self, params: List[str], build_dir: str) -> subprocess.Popen: """Runs the Linux UML binary. Must be named 'linux'.""" linux_bin = os.path.join(build_dir, 'linux') params.extend(['mem=1G', 'console=tty', 'kunit_shutdown=halt']) return subprocess.Popen([linux_bin] + params, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, text=True, errors='backslashreplace') def get_kconfig_path(build_dir: str) -> str: return os.path.join(build_dir, KCONFIG_PATH) def get_kunitconfig_path(build_dir: str) -> str: return os.path.join(build_dir, KUNITCONFIG_PATH) def get_old_kunitconfig_path(build_dir: str) -> str: return os.path.join(build_dir, OLD_KUNITCONFIG_PATH) def get_parsed_kunitconfig(build_dir: str, kunitconfig_paths: Optional[List[str]]=None) -> kunit_config.Kconfig: if not kunitconfig_paths: path = get_kunitconfig_path(build_dir) if not os.path.exists(path): shutil.copyfile(DEFAULT_KUNITCONFIG_PATH, path) return kunit_config.parse_file(path) merged = kunit_config.Kconfig() for path in kunitconfig_paths: if os.path.isdir(path): path = os.path.join(path, KUNITCONFIG_PATH) if not os.path.exists(path): raise ConfigError(f'Specified kunitconfig ({path}) does not exist') partial = kunit_config.parse_file(path) diff = merged.conflicting_options(partial) if diff: diff_str = '\n\n'.join(f'{a}\n vs from {path}\n{b}' for a, b in diff) raise ConfigError(f'Multiple values specified for {len(diff)} options in kunitconfig:\n{diff_str}') merged.merge_in_entries(partial) return merged def get_outfile_path(build_dir: str) -> str: return os.path.join(build_dir, OUTFILE_PATH) def _default_qemu_config_path(arch: str) -> str: config_path = os.path.join(QEMU_CONFIGS_DIR, arch + '.py') if os.path.isfile(config_path): return config_path options = [f[:-3] for f in os.listdir(QEMU_CONFIGS_DIR) if f.endswith('.py')] raise ConfigError(arch + ' is not a valid arch, options are ' + str(sorted(options))) def _get_qemu_ops(config_path: str, extra_qemu_args: Optional[List[str]], cross_compile: Optional[str]) -> Tuple[str, LinuxSourceTreeOperations]: # The module name/path has very little to do with where the actual file # exists (I learned this through experimentation and could not find it # anywhere in the Python documentation). # # Bascially, we completely ignore the actual file location of the config # we are loading and just tell Python that the module lives in the # QEMU_CONFIGS_DIR for import purposes regardless of where it actually # exists as a file. module_path = '.' + os.path.join(os.path.basename(QEMU_CONFIGS_DIR), os.path.basename(config_path)) spec = importlib.util.spec_from_file_location(module_path, config_path) assert spec is not None config = importlib.util.module_from_spec(spec) # See https://github.com/python/typeshed/pull/2626 for context. assert isinstance(spec.loader, importlib.abc.Loader) spec.loader.exec_module(config) if not hasattr(config, 'QEMU_ARCH'): raise ValueError('qemu_config module missing "QEMU_ARCH": ' + config_path) params: qemu_config.QemuArchParams = config.QEMU_ARCH if extra_qemu_args: params.extra_qemu_params.extend(extra_qemu_args) return params.linux_arch, LinuxSourceTreeOperationsQemu( params, cross_compile=cross_compile) class LinuxSourceTree: """Represents a Linux kernel source tree with KUnit tests.""" def __init__( self, build_dir: str, kunitconfig_paths: Optional[List[str]]=None, kconfig_add: Optional[List[str]]=None, arch: Optional[str]=None, cross_compile: Optional[str]=None, qemu_config_path: Optional[str]=None, extra_qemu_args: Optional[List[str]]=None) -> None: signal.signal(signal.SIGINT, self.signal_handler) if qemu_config_path: self._arch, self._ops = _get_qemu_ops(qemu_config_path, extra_qemu_args, cross_compile) else: self._arch = 'um' if arch is None else arch if self._arch == 'um': self._ops = LinuxSourceTreeOperationsUml(cross_compile=cross_compile) else: qemu_config_path = _default_qemu_config_path(self._arch) _, self._ops = _get_qemu_ops(qemu_config_path, extra_qemu_args, cross_compile) self._kconfig = get_parsed_kunitconfig(build_dir, kunitconfig_paths) if kconfig_add: kconfig = kunit_config.parse_from_string('\n'.join(kconfig_add)) self._kconfig.merge_in_entries(kconfig) def arch(self) -> str: return self._arch def clean(self) -> bool: try: self._ops.make_mrproper() except ConfigError as e: logging.error(e) return False return True def validate_config(self, build_dir: str) -> bool: kconfig_path = get_kconfig_path(build_dir) validated_kconfig = kunit_config.parse_file(kconfig_path) if self._kconfig.is_subset_of(validated_kconfig): return True missing = set(self._kconfig.as_entries()) - set(validated_kconfig.as_entries()) message = 'Not all Kconfig options selected in kunitconfig were in the generated .config.\n' \ 'This is probably due to unsatisfied dependencies.\n' \ 'Missing: ' + ', '.join(str(e) for e in missing) if self._arch == 'um': message += '\nNote: many Kconfig options aren\'t available on UML. You can try running ' \ 'on a different architecture with something like "--arch=x86_64".' logging.error(message) return False def build_config(self, build_dir: str, make_options: Optional[List[str]]) -> bool: kconfig_path = get_kconfig_path(build_dir) if build_dir and not os.path.exists(build_dir): os.mkdir(build_dir) try: self._kconfig = self._ops.make_arch_config(self._kconfig) self._kconfig.write_to_file(kconfig_path) self._ops.make_olddefconfig(build_dir, make_options) except ConfigError as e: logging.error(e) return False if not self.validate_config(build_dir): return False old_path = get_old_kunitconfig_path(build_dir) if os.path.exists(old_path): os.remove(old_path) # write_to_file appends to the file self._kconfig.write_to_file(old_path) return True def _kunitconfig_changed(self, build_dir: str) -> bool: old_path = get_old_kunitconfig_path(build_dir) if not os.path.exists(old_path): return True old_kconfig = kunit_config.parse_file(old_path) return old_kconfig != self._kconfig def build_reconfig(self, build_dir: str, make_options: Optional[List[str]]) -> bool: """Creates a new .config if it is not a subset of the .kunitconfig.""" kconfig_path = get_kconfig_path(build_dir) if not os.path.exists(kconfig_path): print('Generating .config ...') return self.build_config(build_dir, make_options) existing_kconfig = kunit_config.parse_file(kconfig_path) self._kconfig = self._ops.make_arch_config(self._kconfig) if self._kconfig.is_subset_of(existing_kconfig) and not self._kunitconfig_changed(build_dir): return True print('Regenerating .config ...') os.remove(kconfig_path) return self.build_config(build_dir, make_options) def build_kernel(self, jobs: int, build_dir: str, make_options: Optional[List[str]]) -> bool: try: self._ops.make_olddefconfig(build_dir, make_options) self._ops.make(jobs, build_dir, make_options) except (ConfigError, BuildError) as e: logging.error(e) return False return self.validate_config(build_dir) def run_kernel(self, args: Optional[List[str]]=None, build_dir: str='', filter_glob: str='', filter: str='', filter_action: Optional[str]=None, timeout: Optional[int]=None) -> Iterator[str]: if not args: args = [] if filter_glob: args.append('kunit.filter_glob=' + filter_glob) if filter: args.append('kunit.filter="' + filter + '"') if filter_action: args.append('kunit.filter_action=' + filter_action) args.append('kunit.enable=1') process = self._ops.start(args, build_dir) assert process.stdout is not None # tell mypy it's set # Enforce the timeout in a background thread. def _wait_proc() -> None: try: process.wait(timeout=timeout) except Exception as e: print(e) process.terminate() process.wait() waiter = threading.Thread(target=_wait_proc) waiter.start() output = open(get_outfile_path(build_dir), 'w') try: # Tee the output to the file and to our caller in real time. for line in process.stdout: output.write(line) yield line # This runs even if our caller doesn't consume every line. finally: # Flush any leftover output to the file output.write(process.stdout.read()) output.close() process.stdout.close() waiter.join() subprocess.call(['stty', 'sane']) def signal_handler(self, unused_sig: int, unused_frame: Optional[FrameType]) -> None: logging.error('Build interruption occurred. Cleaning console.') subprocess.call(['stty', 'sane'])