"""Common utilities for the various process_* implementations. This file is only meant to be imported by the platform-specific implementations of subprocess utilities, and it contains tools that are common to all of them. """ #----------------------------------------------------------------------------- # Copyright (C) 2010-2011 The IPython Development Team # # Distributed under the terms of the BSD License. The full license is in # the file COPYING, distributed as part of this software. #----------------------------------------------------------------------------- #----------------------------------------------------------------------------- # Imports #----------------------------------------------------------------------------- import subprocess import shlex import sys import os from IPython.utils import py3compat #----------------------------------------------------------------------------- # Function definitions #----------------------------------------------------------------------------- def read_no_interrupt(p): """Read from a pipe ignoring EINTR errors. This is necessary because when reading from pipes with GUI event loops running in the background, often interrupts are raised that stop the command from completing.""" import errno try: return p.read() except IOError as err: if err.errno != errno.EINTR: raise def process_handler(cmd, callback, stderr=subprocess.PIPE): """Open a command in a shell subprocess and execute a callback. This function provides common scaffolding for creating subprocess.Popen() calls. It creates a Popen object and then calls the callback with it. Parameters ---------- cmd : str or list A command to be executed by the system, using :class:`subprocess.Popen`. If a string is passed, it will be run in the system shell. If a list is passed, it will be used directly as arguments. callback : callable A one-argument function that will be called with the Popen object. stderr : file descriptor number, optional By default this is set to ``subprocess.PIPE``, but you can also pass the value ``subprocess.STDOUT`` to force the subprocess' stderr to go into the same file descriptor as its stdout. This is useful to read stdout and stderr combined in the order they are generated. Returns ------- The return value of the provided callback is returned. """ sys.stdout.flush() sys.stderr.flush() # On win32, close_fds can't be true when using pipes for stdin/out/err close_fds = sys.platform != 'win32' # Determine if cmd should be run with system shell. shell = isinstance(cmd, str) # On POSIX systems run shell commands with user-preferred shell. executable = None if shell and os.name == 'posix' and 'SHELL' in os.environ: executable = os.environ['SHELL'] p = subprocess.Popen(cmd, shell=shell, executable=executable, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=stderr, close_fds=close_fds) try: out = callback(p) except KeyboardInterrupt: print('^C') sys.stdout.flush() sys.stderr.flush() out = None finally: # Make really sure that we don't leave processes behind, in case the # call above raises an exception # We start by assuming the subprocess finished (to avoid NameErrors # later depending on the path taken) if p.returncode is None: try: p.terminate() p.poll() except OSError: pass # One last try on our way out if p.returncode is None: try: p.kill() except OSError: pass return out def getoutput(cmd): """Run a command and return its stdout/stderr as a string. Parameters ---------- cmd : str or list A command to be executed in the system shell. Returns ------- output : str A string containing the combination of stdout and stderr from the subprocess, in whatever order the subprocess originally wrote to its file descriptors (so the order of the information in this string is the correct order as would be seen if running the command in a terminal). """ out = process_handler(cmd, lambda p: p.communicate()[0], subprocess.STDOUT) if out is None: return '' return py3compat.decode(out) def getoutputerror(cmd): """Return (standard output, standard error) of executing cmd in a shell. Accepts the same arguments as os.system(). Parameters ---------- cmd : str or list A command to be executed in the system shell. Returns ------- stdout : str stderr : str """ return get_output_error_code(cmd)[:2] def get_output_error_code(cmd): """Return (standard output, standard error, return code) of executing cmd in a shell. Accepts the same arguments as os.system(). Parameters ---------- cmd : str or list A command to be executed in the system shell. Returns ------- stdout : str stderr : str returncode: int """ out_err, p = process_handler(cmd, lambda p: (p.communicate(), p)) if out_err is None: return '', '', p.returncode out, err = out_err return py3compat.decode(out), py3compat.decode(err), p.returncode def arg_split(s, posix=False, strict=True): """Split a command line's arguments in a shell-like manner. This is a modified version of the standard library's shlex.split() function, but with a default of posix=False for splitting, so that quotes in inputs are respected. if strict=False, then any errors shlex.split would raise will result in the unparsed remainder being the last element of the list, rather than raising. This is because we sometimes use arg_split to parse things other than command-line args. """ lex = shlex.shlex(s, posix=posix) lex.whitespace_split = True # Extract tokens, ensuring that things like leaving open quotes # does not cause this to raise. This is important, because we # sometimes pass Python source through this (e.g. %timeit f(" ")), # and it shouldn't raise an exception. # It may be a bad idea to parse things that are not command-line args # through this function, but we do, so let's be safe about it. lex.commenters='' #fix for GH-1269 tokens = [] while True: try: tokens.append(next(lex)) except StopIteration: break except ValueError: if strict: raise # couldn't parse, get remaining blob as last token tokens.append(lex.token) break return tokens