import os import re import signal import tempfile import threading from contextlib import contextmanager from pathlib import Path from typing import Any, Callable, ContextManager, Dict, Iterator, List, Optional, Union from colorama import Fore, Style from test_driver.logger import rootlog from test_driver.machine import Machine, NixStartScript, retry from test_driver.polling_condition import PollingCondition from test_driver.vlan import VLan SENTINEL = object() def get_tmp_dir() -> Path: """Returns a temporary directory that is defined by TMPDIR, TEMP, TMP or CWD Raises an exception in case the retrieved temporary directory is not writeable See https://docs.python.org/3/library/tempfile.html#tempfile.gettempdir """ tmp_dir = Path(tempfile.gettempdir()) tmp_dir.mkdir(mode=0o700, exist_ok=True) if not tmp_dir.is_dir(): raise NotADirectoryError( f"The directory defined by TMPDIR, TEMP, TMP or CWD: {tmp_dir} is not a directory" ) if not os.access(tmp_dir, os.W_OK): raise PermissionError( f"The directory defined by TMPDIR, TEMP, TMP, or CWD: {tmp_dir} is not writeable" ) return tmp_dir def pythonize_name(name: str) -> str: return re.sub(r"^[^A-z_]|[^A-z0-9_]", "_", name) class Driver: """A handle to the driver that sets up the environment and runs the tests""" tests: str vlans: List[VLan] machines: List[Machine] polling_conditions: List[PollingCondition] global_timeout: int race_timer: threading.Timer def __init__( self, start_scripts: List[str], vlans: List[int], tests: str, out_dir: Path, keep_vm_state: bool = False, global_timeout: int = 24 * 60 * 60 * 7, ): self.tests = tests self.out_dir = out_dir self.global_timeout = global_timeout self.race_timer = threading.Timer(global_timeout, self.terminate_test) tmp_dir = get_tmp_dir() with rootlog.nested("start all VLans"): vlans = list(set(vlans)) self.vlans = [VLan(nr, tmp_dir) for nr in vlans] def cmd(scripts: List[str]) -> Iterator[NixStartScript]: for s in scripts: yield NixStartScript(s) self.polling_conditions = [] self.machines = [ Machine( start_command=cmd, keep_vm_state=keep_vm_state, name=cmd.machine_name, tmp_dir=tmp_dir, callbacks=[self.check_polling_conditions], out_dir=self.out_dir, ) for cmd in cmd(start_scripts) ] def __enter__(self) -> "Driver": return self def __exit__(self, *_: Any) -> None: with rootlog.nested("cleanup"): self.race_timer.cancel() for machine in self.machines: machine.release() def subtest(self, name: str) -> Iterator[None]: """Group logs under a given test name""" with rootlog.nested("subtest: " + name): try: yield return True except Exception as e: rootlog.error(f'Test "{name}" failed with error: "{e}"') raise e def test_symbols(self) -> Dict[str, Any]: @contextmanager def subtest(name: str) -> Iterator[None]: return self.subtest(name) general_symbols = dict( start_all=self.start_all, test_script=self.test_script, machines=self.machines, vlans=self.vlans, driver=self, log=rootlog, os=os, create_machine=self.create_machine, subtest=subtest, run_tests=self.run_tests, join_all=self.join_all, retry=retry, serial_stdout_off=self.serial_stdout_off, serial_stdout_on=self.serial_stdout_on, polling_condition=self.polling_condition, Machine=Machine, # for typing ) machine_symbols = {pythonize_name(m.name): m for m in self.machines} # If there's exactly one machine, make it available under the name # "machine", even if it's not called that. if len(self.machines) == 1: (machine_symbols["machine"],) = self.machines vlan_symbols = { f"vlan{v.nr}": self.vlans[idx] for idx, v in enumerate(self.vlans) } print( "additionally exposed symbols:\n " + ", ".join(map(lambda m: m.name, self.machines)) + ",\n " + ", ".join(map(lambda v: f"vlan{v.nr}", self.vlans)) + ",\n " + ", ".join(list(general_symbols.keys())) ) return {**general_symbols, **machine_symbols, **vlan_symbols} def test_script(self) -> None: """Run the test script""" with rootlog.nested("run the VM test script"): symbols = self.test_symbols() # call eagerly exec(self.tests, symbols, None) def run_tests(self) -> None: """Run the test script (for non-interactive test runs)""" rootlog.info( f"Test will time out and terminate in {self.global_timeout} seconds" ) self.race_timer.start() self.test_script() # TODO: Collect coverage data for machine in self.machines: if machine.is_up(): machine.execute("sync") def start_all(self) -> None: """Start all machines""" with rootlog.nested("start all VMs"): for machine in self.machines: machine.start() def join_all(self) -> None: """Wait for all machines to shut down""" with rootlog.nested("wait for all VMs to finish"): for machine in self.machines: machine.wait_for_shutdown() self.race_timer.cancel() def terminate_test(self) -> None: # This will be usually running in another thread than # the thread actually executing the test script. with rootlog.nested("timeout reached; test terminating..."): for machine in self.machines: machine.release() # As we cannot `sys.exit` from another thread # We can at least force the main thread to get SIGTERM'ed. # This will prevent any user who caught all the exceptions # to swallow them and prevent itself from terminating. os.kill(os.getpid(), signal.SIGTERM) def create_machine( self, start_command: str | dict, *, name: Optional[str] = None, keep_vm_state: bool = False, ) -> Machine: # Legacy args handling # FIXME: remove after 24.05 if isinstance(start_command, dict): if name is not None or keep_vm_state: raise TypeError( "Dictionary passed to create_machine must be the only argument" ) args = start_command start_command = args.pop("startCommand", SENTINEL) if start_command is SENTINEL: raise TypeError( "Dictionary passed to create_machine must contain startCommand" ) if not isinstance(start_command, str): raise TypeError( f"startCommand must be a string, got: {repr(start_command)}" ) name = args.pop("name", None) keep_vm_state = args.pop("keep_vm_state", False) if args: raise TypeError( f"Unsupported arguments passed to create_machine: {args}" ) rootlog.warning( Fore.YELLOW + Style.BRIGHT + "WARNING: Using create_machine with a single dictionary argument is deprecated and will be removed in NixOS 24.11" + Style.RESET_ALL ) # End legacy args handling tmp_dir = get_tmp_dir() cmd = NixStartScript(start_command) name = name or cmd.machine_name return Machine( tmp_dir=tmp_dir, out_dir=self.out_dir, start_command=cmd, name=name, keep_vm_state=keep_vm_state, ) def serial_stdout_on(self) -> None: rootlog._print_serial_logs = True def serial_stdout_off(self) -> None: rootlog._print_serial_logs = False def check_polling_conditions(self) -> None: for condition in self.polling_conditions: condition.maybe_raise() def polling_condition( self, fun_: Optional[Callable] = None, *, seconds_interval: float = 2.0, description: Optional[str] = None, ) -> Union[Callable[[Callable], ContextManager], ContextManager]: driver = self class Poll: def __init__(self, fun: Callable): self.condition = PollingCondition( fun, seconds_interval, description, ) def __enter__(self) -> None: driver.polling_conditions.append(self.condition) def __exit__(self, a, b, c) -> None: # type: ignore res = driver.polling_conditions.pop() assert res is self.condition def wait(self, timeout: int = 900) -> None: def condition(last: bool) -> bool: if last: rootlog.info(f"Last chance for {self.condition.description}") ret = self.condition.check(force=True) if not ret and not last: rootlog.info( f"({self.condition.description} failure not fatal yet)" ) return ret with rootlog.nested(f"waiting for {self.condition.description}"): retry(condition, timeout=timeout) if fun_ is None: return Poll else: return Poll(fun_)