__package__ = 'archivebox' import os import signal import shutil from json import dump from pathlib import Path from typing import Optional, Union, Set, Tuple from subprocess import _mswindows, PIPE, Popen, CalledProcessError, CompletedProcess, TimeoutExpired from crontab import CronTab from .vendor.atomicwrites import atomic_write as lib_atomic_write from .util import enforce_types, ExtendedEncoder from .config import PYTHON_BINARY, OUTPUT_PERMISSIONS, ENFORCE_ATOMIC_WRITES def run(cmd, *args, input=None, capture_output=True, timeout=None, check=False, text=False, start_new_session=True, **kwargs): """Patched of subprocess.run to kill forked child subprocesses and fix blocking io making timeout=innefective Mostly copied from https://github.com/python/cpython/blob/master/Lib/subprocess.py """ if input is not None: if kwargs.get('stdin') is not None: raise ValueError('stdin and input arguments may not both be used.') kwargs['stdin'] = PIPE if capture_output: if ('stdout' in kwargs) or ('stderr' in kwargs): raise ValueError('stdout and stderr arguments may not be used ' 'with capture_output.') kwargs['stdout'] = PIPE kwargs['stderr'] = PIPE pgid = None try: if isinstance(cmd, (list, tuple)) and cmd[0].endswith('.py'): cmd = (PYTHON_BINARY, *cmd) with Popen(cmd, *args, start_new_session=start_new_session, **kwargs) as process: pgid = os.getpgid(process.pid) try: stdout, stderr = process.communicate(input, timeout=timeout) except TimeoutExpired as exc: process.kill() if _mswindows: # Windows accumulates the output in a single blocking # read() call run on child threads, with the timeout # being done in a join() on those threads. communicate() # _after_ kill() is required to collect that and add it # to the exception. exc.stdout, exc.stderr = process.communicate() else: # POSIX _communicate already populated the output so # far into the TimeoutExpired exception. process.wait() raise except: # Including KeyboardInterrupt, communicate handled that. process.kill() # We don't call process.wait() as .__exit__ does that for us. raise retcode = process.poll() if check and retcode: raise CalledProcessError(retcode, process.args, output=stdout, stderr=stderr) finally: # force kill any straggler subprocesses that were forked from the main proc try: os.killpg(pgid, signal.SIGINT) except Exception: pass return CompletedProcess(process.args, retcode, stdout, stderr) @enforce_types def atomic_write(path: Union[Path, str], contents: Union[dict, str, bytes], overwrite: bool=True, permissions: str=OUTPUT_PERMISSIONS) -> None: """Safe atomic write to filesystem by writing to temp file + atomic rename""" mode = 'wb+' if isinstance(contents, bytes) else 'w' encoding = None if isinstance(contents, bytes) else 'utf-8' # enforce utf-8 on all text writes # print('\n> Atomic Write:', mode, path, len(contents), f'overwrite={overwrite}') try: with lib_atomic_write(path, mode=mode, overwrite=overwrite, encoding=encoding) as f: if isinstance(contents, dict): dump(contents, f, indent=4, sort_keys=True, cls=ExtendedEncoder) elif isinstance(contents, (bytes, str)): f.write(contents) except OSError as e: if ENFORCE_ATOMIC_WRITES: print(f"[X] OSError: Failed to write {path} with fcntl.F_FULLFSYNC. ({e})") print(" You can store the archive/ subfolder on a hard drive or network share that doesn't support support syncronous writes,") print(" but the main folder containing the index.sqlite3 and ArchiveBox.conf files must be on a filesystem that supports FSYNC.") raise SystemExit(1) # retry the write without forcing FSYNC (aka atomic mode) with open(path, mode=mode, encoding=encoding) as f: if isinstance(contents, dict): dump(contents, f, indent=4, sort_keys=True, cls=ExtendedEncoder) elif isinstance(contents, (bytes, str)): f.write(contents) # set permissions os.chmod(path, int(permissions, base=8)) @enforce_types def chmod_file(path: str, cwd: str='.', permissions: str=OUTPUT_PERMISSIONS) -> None: """chmod -R /""" root = Path(cwd) / path if not root.exists(): raise Exception('Failed to chmod: {} does not exist (did the previous step fail?)'.format(path)) if not root.is_dir(): os.chmod(root, int(OUTPUT_PERMISSIONS, base=8)) else: for subpath in Path(path).glob('**/*'): os.chmod(subpath, int(OUTPUT_PERMISSIONS, base=8)) @enforce_types def copy_and_overwrite(from_path: Union[str, Path], to_path: Union[str, Path]): """copy a given file or directory to a given path, overwriting the destination""" if Path(from_path).is_dir(): shutil.rmtree(to_path, ignore_errors=True) shutil.copytree(from_path, to_path) else: with open(from_path, 'rb') as src: contents = src.read() atomic_write(to_path, contents) @enforce_types def get_dir_size(path: Union[str, Path], recursive: bool=True, pattern: Optional[str]=None) -> Tuple[int, int, int]: """get the total disk size of a given directory, optionally summing up recursively and limiting to a given filter list """ num_bytes, num_dirs, num_files = 0, 0, 0 for entry in os.scandir(path): if (pattern is not None) and (pattern not in entry.path): continue if entry.is_dir(follow_symlinks=False): if not recursive: continue num_dirs += 1 bytes_inside, dirs_inside, files_inside = get_dir_size(entry.path) num_bytes += bytes_inside num_dirs += dirs_inside num_files += files_inside else: num_bytes += entry.stat(follow_symlinks=False).st_size num_files += 1 return num_bytes, num_dirs, num_files CRON_COMMENT = 'archivebox_schedule' @enforce_types def dedupe_cron_jobs(cron: CronTab) -> CronTab: deduped: Set[Tuple[str, str]] = set() for job in list(cron): unique_tuple = (str(job.slices), job.command) if unique_tuple not in deduped: deduped.add(unique_tuple) cron.remove(job) for schedule, command in deduped: job = cron.new(command=command, comment=CRON_COMMENT) job.setall(schedule) job.enable() return cron class suppress_output(object): ''' A context manager for doing a "deep suppression" of stdout and stderr in Python, i.e. will suppress all print, even if the print originates in a compiled C/Fortran sub-function. This will not suppress raised exceptions, since exceptions are printed to stderr just before a script exits, and after the context manager has exited (at least, I think that is why it lets exceptions through). with suppress_stdout_stderr(): rogue_function() ''' def __init__(self, stdout=True, stderr=True): # Open a pair of null files # Save the actual stdout (1) and stderr (2) file descriptors. self.stdout, self.stderr = stdout, stderr if stdout: self.null_stdout = os.open(os.devnull, os.O_RDWR) self.real_stdout = os.dup(1) if stderr: self.null_stderr = os.open(os.devnull, os.O_RDWR) self.real_stderr = os.dup(2) def __enter__(self): # Assign the null pointers to stdout and stderr. if self.stdout: os.dup2(self.null_stdout, 1) if self.stderr: os.dup2(self.null_stderr, 2) def __exit__(self, *_): # Re-assign the real stdout/stderr back to (1) and (2) if self.stdout: os.dup2(self.real_stdout, 1) os.close(self.null_stdout) if self.stderr: os.dup2(self.real_stderr, 2) os.close(self.null_stderr)