import base64 import dataclasses import glob import json import multiprocessing import os import re import signal import subprocess import sys import time from abc import ABC, abstractmethod from contextlib import contextmanager from datetime import datetime from pathlib import Path from threading import Thread from types import SimpleNamespace from typing import Any, Dict, Iterator, List, Optional, Type, TypeVar, Union T = TypeVar("T", bound="Serializable") class MetaClasses: class WithIter(type): def __iter__(cls): return (v for k, v in cls.__dict__.items() if not k.startswith("_")) @dataclasses.dataclass class Serializable(ABC): @classmethod def to_dict(cls, obj): if dataclasses.is_dataclass(obj): return {k: cls.to_dict(v) for k, v in dataclasses.asdict(obj).items()} elif isinstance(obj, SimpleNamespace): return {k: cls.to_dict(v) for k, v in vars(obj).items()} elif isinstance(obj, list): return [cls.to_dict(i) for i in obj] elif isinstance(obj, dict): return {k: cls.to_dict(v) for k, v in obj.items()} else: return obj @classmethod def from_dict(cls: Type[T], obj: Dict[str, Any]) -> T: return cls(**obj) @classmethod def from_fs(cls: Type[T], name) -> T: with open(cls.file_name_static(name), "r", encoding="utf8") as f: try: return cls.from_dict(json.load(f)) except json.decoder.JSONDecodeError as ex: print(f"ERROR: failed to parse json, ex [{ex}]") print(f"JSON content [{cls.file_name_static(name)}]") Shell.check(f"cat {cls.file_name_static(name)}") raise ex @classmethod @abstractmethod def file_name_static(cls, name): pass def file_name(self): return self.file_name_static(self.name) def dump(self): with open(self.file_name(), "w", encoding="utf8") as f: json.dump(self.to_dict(self), f, indent=4) return self @classmethod def exist(cls, name): return Path(cls.file_name_static(name)).is_file() def to_json(self, pretty=False): return json.dumps(dataclasses.asdict(self), indent=4 if pretty else None) class ContextManager: @staticmethod @contextmanager def cd(to: Optional[Union[Path, str]]) -> Iterator[None]: """ changes current working directory to @path or `git root` if @path is None :param to: :return: """ # if not to: # try: # to = Shell.get_output_or_raise("git rev-parse --show-toplevel") # except: # pass # if not to: # if Path(_Settings.DOCKER_WD).is_dir(): # to = _Settings.DOCKER_WD # if not to: # assert False, "FIX IT" # assert to old_pwd = os.getcwd() if to: os.chdir(to) try: yield finally: os.chdir(old_pwd) class Shell: @classmethod def get_output_or_raise(cls, command, verbose=False): return cls.get_output(command, verbose=verbose, strict=True).strip() @classmethod def get_output(cls, command, strict=False, verbose=False): if verbose: print(f"Run command [{command}]") res = subprocess.run( command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True, ) if res.stderr: print(f"WARNING: stderr: {res.stderr.strip()}") if strict and res.returncode != 0: raise RuntimeError(f"command failed with {res.returncode}") return res.stdout.strip() @classmethod def get_res_stdout_stderr(cls, command, verbose=True): if verbose: print(f"Run command [{command}]") res = subprocess.run( command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True, ) return res.returncode, res.stdout.strip(), res.stderr.strip() @classmethod def check( cls, command, log_file=None, strict=False, verbose=False, dry_run=False, stdin_str=None, timeout=None, retries=0, **kwargs, ): return ( cls.run( command, log_file, strict, verbose, dry_run, stdin_str, retries=retries, timeout=timeout, **kwargs, ) == 0 ) @classmethod def run( cls, command, log_file=None, strict=False, verbose=False, dry_run=False, stdin_str=None, timeout=None, retries=0, **kwargs, ): def _check_timeout(timeout, process) -> None: if not timeout: return time.sleep(timeout) print( f"WARNING: Timeout exceeded [{timeout}], sending SIGTERM to process group [{process.pid}]" ) try: os.killpg(process.pid, signal.SIGTERM) except ProcessLookupError: print("Process already terminated.") return time_wait = 0 wait_interval = 5 # Wait for process to terminate while process.poll() is None and time_wait < 100: print("Waiting for process to exit...") time.sleep(wait_interval) time_wait += wait_interval # Force kill if still running if process.poll() is None: print(f"WARNING: Process still running after SIGTERM, sending SIGKILL") try: os.killpg(process.pid, signal.SIGKILL) except ProcessLookupError: print("Process already terminated.") # Dry-run if dry_run: print(f"Dry-run. Would run command [{command}]") return 0 # Return success for dry-run if verbose: print(f"Run command: [{command}]") log_file = log_file or "/dev/null" proc = None for retry in range(retries + 1): try: with open(log_file, "w") as log_fp: proc = subprocess.Popen( command, shell=True, stderr=subprocess.STDOUT, stdout=subprocess.PIPE, stdin=subprocess.PIPE if stdin_str else None, universal_newlines=True, start_new_session=True, # Start a new process group for signal handling bufsize=1, # Line-buffered errors="backslashreplace", **kwargs, ) # Start the timeout thread if specified if timeout: t = Thread(target=_check_timeout, args=(timeout, proc)) t.daemon = True t.start() # Write stdin if provided if stdin_str: proc.stdin.write(stdin_str) proc.stdin.close() # Process output in real-time if proc.stdout: for line in proc.stdout: sys.stdout.write(line) log_fp.write(line) proc.wait() # Wait for the process to finish if proc.returncode == 0: break # Exit retry loop if success else: if verbose: print( f"ERROR: command [{command}] failed, exit code: {proc.returncode}, retry: {retry}/{retries}" ) except Exception as e: if verbose: print( f"ERROR: command failed, exception: {e}, retry: {retry}/{retries}" ) if proc: proc.kill() # Handle strict mode (ensure process success or fail) if strict: assert ( proc and proc.returncode == 0 ), f"Command failed with return code {proc.returncode}" return proc.returncode if proc else 1 # Return 1 if process never started @classmethod def run_async( cls, command, stdin_str=None, verbose=False, suppress_output=False, **kwargs, ): if verbose: print(f"Run command in background [{command}]") proc = subprocess.Popen( command, shell=True, stderr=subprocess.STDOUT if not suppress_output else subprocess.DEVNULL, stdout=subprocess.PIPE if not suppress_output else subprocess.DEVNULL, stdin=subprocess.PIPE if stdin_str else None, universal_newlines=True, start_new_session=True, bufsize=1, errors="backslashreplace", **kwargs, ) if proc.stdout: for line in proc.stdout: print(line, end="") return proc class Utils: @staticmethod def terminate_process_group(pid, force=False): if not force: os.killpg(os.getpgid(pid), signal.SIGTERM) else: os.killpg(os.getpgid(pid), signal.SIGKILL) @staticmethod def set_env(key, val): os.environ[key] = val @staticmethod def print_formatted_error(error_message, stdout="", stderr=""): stdout_lines = stdout.splitlines() if stdout else [] stderr_lines = stderr.splitlines() if stderr else [] print(f"ERROR: {error_message}") if stdout_lines: print(" Out:") for line in stdout_lines: print(f" | {line}") if stderr_lines: print(" Err:") for line in stderr_lines: print(f" | {line}") @staticmethod def sleep(seconds): time.sleep(seconds) @staticmethod def cwd(): return Path.cwd() @staticmethod def cpu_count(): return multiprocessing.cpu_count() @staticmethod def raise_with_error(error_message, stdout="", stderr="", ex=None): Utils.print_formatted_error(error_message, stdout, stderr) raise ex or RuntimeError() @staticmethod def timestamp(): return datetime.utcnow().timestamp() @staticmethod def timestamp_to_str(timestamp): return datetime.utcfromtimestamp(timestamp).strftime("%Y-%m-%d %H:%M:%S") @staticmethod def get_failed_tests_number(description: str) -> Optional[int]: description = description.lower() pattern = r"fail:\s*(\d+)\s*(?=,|$)" match = re.search(pattern, description) if match: return int(match.group(1)) return None @staticmethod def is_killed_with_oom(): if Shell.check( "sudo dmesg -T | grep -q -e 'Out of memory: Killed process' -e 'oom_reaper: reaped process' -e 'oom-kill:constraint=CONSTRAINT_NONE'" ): return True return False @staticmethod def clear_dmesg(): Shell.check("sudo dmesg --clear", verbose=True) @staticmethod def to_base64(value): assert isinstance(value, str), f"TODO: not supported for {type(value)}" string_bytes = value.encode("utf-8") base64_bytes = base64.b64encode(string_bytes) base64_string = base64_bytes.decode("utf-8") return base64_string @staticmethod def is_hex(s): try: int(s, 16) return True except ValueError: return False @staticmethod def normalize_string(string: str) -> str: res = string.lower() for r in ( (" ", "_"), ("(", ""), (")", ""), ("{", ""), ("}", ""), ("'", ""), ("[", ""), ("]", ""), (",", ""), ("/", "_"), ("-", "_"), (":", ""), ('"', ""), ): res = res.replace(*r) return res @staticmethod def traverse_path(path, file_suffixes=None, sorted=False, not_exists_ok=False): res = [] def is_valid_file(file): if file_suffixes is None: return True return any(file.endswith(suffix) for suffix in file_suffixes) if os.path.isfile(path): if is_valid_file(path): res.append(path) elif os.path.isdir(path): for root, dirs, files in os.walk(path): for file in files: full_path = os.path.join(root, file) if is_valid_file(full_path): res.append(full_path) elif "*" in str(path): res.extend( [ f for f in glob.glob(path, recursive=True) if os.path.isfile(f) and is_valid_file(f) ] ) else: if not_exists_ok: pass else: assert False, f"File does not exist or not valid [{path}]" if sorted: res.sort(reverse=True) return res @classmethod def traverse_paths( cls, include_paths, exclude_paths, file_suffixes=None, sorted=False, not_exists_ok=False, ) -> List["str"]: included_files_ = set() for path in include_paths: included_files_.update(cls.traverse_path(path, file_suffixes=file_suffixes)) excluded_files = set() for path in exclude_paths: res = cls.traverse_path(path, not_exists_ok=not_exists_ok) if not res: print( f"WARNING: Utils.traverse_paths excluded 0 files by path [{path}] in exclude_paths" ) else: excluded_files.update(res) res = [f for f in included_files_ if f not in excluded_files] if sorted: res.sort(reverse=True) return res @classmethod def add_to_PATH(cls, path): path_cur = os.getenv("PATH", "") if path_cur: path += ":" + path_cur os.environ["PATH"] = path class Stopwatch: def __init__(self): self.start_time = datetime.utcnow().timestamp() @property def duration(self) -> float: return datetime.utcnow().timestamp() - self.start_time class TeePopen: def __init__( self, command: str, log_file: Union[str, Path] = "", env: Optional[dict] = None, timeout: Optional[int] = None, ): self.command = command self.log_file_name = log_file self.log_file = None self.env = env or os.environ.copy() self.process = None # type: Optional[subprocess.Popen] self.timeout = timeout self.timeout_exceeded = False self.terminated_by_sigterm = False self.terminated_by_sigkill = False def _check_timeout(self) -> None: if self.timeout is None: return time.sleep(self.timeout) print( f"WARNING: Timeout exceeded [{self.timeout}], send SIGTERM to [{self.process.pid}] and give a chance for graceful termination" ) self.send_signal(signal.SIGTERM) time_wait = 0 self.terminated_by_sigterm = True self.timeout_exceeded = True while self.process.poll() is None and time_wait < 100: print("wait...") wait = 5 time.sleep(wait) time_wait += wait while self.process.poll() is None: print(f"WARNING: Still running, send SIGKILL to [{self.process.pid}]") self.send_signal(signal.SIGKILL) self.terminated_by_sigkill = True time.sleep(2) def __enter__(self) -> "TeePopen": if self.log_file_name: self.log_file = open(self.log_file_name, "w", encoding="utf-8") self.process = subprocess.Popen( self.command, shell=True, universal_newlines=True, env=self.env, start_new_session=True, # signall will be sent to all children stderr=subprocess.STDOUT, stdout=subprocess.PIPE, bufsize=1, errors="backslashreplace", ) time.sleep(1) print(f"Subprocess started, pid [{self.process.pid}]") if self.timeout is not None and self.timeout > 0: t = Thread(target=self._check_timeout) t.daemon = True # does not block the program from exit t.start() return self def __exit__(self, exc_type, exc_value, traceback): self.wait() if self.log_file: self.log_file.close() def wait(self) -> int: if self.process.stdout is not None: for line in self.process.stdout: sys.stdout.write(line) if self.log_file: self.log_file.write(line) return self.process.wait() def poll(self): return self.process.poll() def send_signal(self, signal_num): os.killpg(self.process.pid, signal_num) if __name__ == "__main__": @dataclasses.dataclass class Test(MetaClasses.Serializable): name: str @staticmethod def file_name_static(name): return f"/tmp/{Utils.normalize_string(name)}.json" Test(name="dsada").dump() t = Test.from_fs("dsada") print(t)