import concurrent.futures import contextlib import math import os import subprocess import sys from typing import Any from typing import Callable from typing import Generator from typing import Iterable from typing import List from typing import MutableMapping from typing import Optional from typing import Sequence from typing import Tuple from typing import TypeVar from pre_commit import parse_shebang from pre_commit.util import cmd_output_b from pre_commit.util import cmd_output_p TArg = TypeVar('TArg') TRet = TypeVar('TRet') def _environ_size(_env: Optional[MutableMapping[str, str]] = None) -> int: environ = _env if _env is not None else getattr(os, 'environb', os.environ) size = 8 * len(environ) # number of pointers in `envp` for k, v in environ.items(): size += len(k) + len(v) + 2 # c strings in `envp` return size def _get_platform_max_length() -> int: # pragma: no cover (platform specific) if os.name == 'posix': maximum = os.sysconf('SC_ARG_MAX') - 2048 - _environ_size() maximum = max(min(maximum, 2 ** 17), 2 ** 12) return maximum elif os.name == 'nt': return 2 ** 15 - 2048 # UNICODE_STRING max - headroom else: # posix minimum return 2 ** 12 def _command_length(*cmd: str) -> int: full_cmd = ' '.join(cmd) # win32 uses the amount of characters, more details at: # https://github.com/pre-commit/pre-commit/pull/839 if sys.platform == 'win32': return len(full_cmd.encode('utf-16le')) // 2 else: return len(full_cmd.encode(sys.getfilesystemencoding())) class ArgumentTooLongError(RuntimeError): pass def partition( cmd: Sequence[str], varargs: Sequence[str], target_concurrency: int, _max_length: Optional[int] = None, ) -> Tuple[Tuple[str, ...], ...]: _max_length = _max_length or _get_platform_max_length() # Generally, we try to partition evenly into at least `target_concurrency` # partitions, but we don't want a bunch of tiny partitions. max_args = max(4, math.ceil(len(varargs) / target_concurrency)) cmd = tuple(cmd) ret = [] ret_cmd: List[str] = [] # Reversed so arguments are in order varargs = list(reversed(varargs)) total_length = _command_length(*cmd) + 1 while varargs: arg = varargs.pop() arg_length = _command_length(arg) + 1 if ( total_length + arg_length <= _max_length and len(ret_cmd) < max_args ): ret_cmd.append(arg) total_length += arg_length elif not ret_cmd: raise ArgumentTooLongError(arg) else: # We've exceeded the length, yield a command ret.append(cmd + tuple(ret_cmd)) ret_cmd = [] total_length = _command_length(*cmd) + 1 varargs.append(arg) ret.append(cmd + tuple(ret_cmd)) return tuple(ret) @contextlib.contextmanager def _thread_mapper(maxsize: int) -> Generator[ Callable[[Callable[[TArg], TRet], Iterable[TArg]], Iterable[TRet]], None, None, ]: if maxsize == 1: yield map else: with concurrent.futures.ThreadPoolExecutor(maxsize) as ex: yield ex.map def xargs( cmd: Tuple[str, ...], varargs: Sequence[str], *, color: bool = False, target_concurrency: int = 1, _max_length: int = _get_platform_max_length(), **kwargs: Any, ) -> Tuple[int, bytes]: """A simplified implementation of xargs. color: Make a pty if on a platform that supports it target_concurrency: Target number of partitions to run concurrently """ cmd_fn = cmd_output_p if color else cmd_output_b retcode = 0 stdout = b'' try: cmd = parse_shebang.normalize_cmd(cmd) except parse_shebang.ExecutableNotFoundError as e: return e.to_output()[:2] partitions = partition(cmd, varargs, target_concurrency, _max_length) def run_cmd_partition( run_cmd: Tuple[str, ...], ) -> Tuple[int, bytes, Optional[bytes]]: return cmd_fn( *run_cmd, retcode=None, stderr=subprocess.STDOUT, **kwargs, ) threads = min(len(partitions), target_concurrency) with _thread_mapper(threads) as thread_map: results = thread_map(run_cmd_partition, partitions) for proc_retcode, proc_out, _ in results: retcode = max(retcode, proc_retcode) stdout += proc_out return retcode, stdout